Faculty of Engineering, University of Wollongong

School of Civil, Mining and Environmental Engineering

Annual Report 2006-2007

Table of Contents A Message from Dean of Engineering 1

Head of School Report 2

A Message from Former Head of School 3

1 Current School Structure 4

2 School Staff 5

2.1 Academic Staff 5

2.2 Research Academics 10

2.3 Honorary Professorial Staff 12

2.4 Honorary Fellows 13

2.5 Professional, Technical and Administrative Staff 13

3 Research Activities and Research Centres 14

3.1 Key Research Areas 14

3.2 Research Students 22

3.3 Selected Strategic Grants 24

3.4 Laboratory Facilities 25

3.5 Selected Doctoral Student Profiles 28

4 Teaching and Learning Programs 30

4.1 Undergraduate Teaching Programs 30

4.2 Postgraduate Teaching Programs 31

5 Awards and Honours 33

5.1 Students Awards 33

5.2 Staff Awards 36

6 Visiting Academics and Interaction with Industry 39

6.1 School Visiting Academics 39

6.2 Industry links 41

Appendix 42

A List of School Publications 42

Postal Address School of Civil, Mining and Environmental Engineering Faculty of Engineering University of Wollongong Northfields Ave. NSW 2522, Australia

Phone: +61 2 4221 4391 Fax: +61 2 4221 3238 Web: http://www.uow.edu

A MESSAGE FROM DEAN OF ENGINEERING

We are very proud to host the School of Civil, Mining and Environmental Engineering in the Faculty of Engineering at the University of Wollongong. These disciplines all have a very proud record in teaching and research ever since they were set up amongst the first activities of the University when it was founded in 1951. This year the School includes one of the fastest growing single disciplines in the Faculty, in Mining Engineering, and it has also rapidly expanded its incoming student intake in Civil Engineering each year for the last five consecutive years. The School contributes vigorously and creatively to the Faculty’s teaching and research activities. For example, this year it has led the Faculty in the designing and operation of a new teaching space which provides new multimedia facilities to all our students to assist them in developing team and project work skills, and its

staff are major contributors to innovation in many Faculty wide ‘core’ subjects. In research it has international reputations in several key areas in Civil, Mining and Environmental Engineering, and has received many research awards and accolades as outlined in this report. I am confident that Graduates from this School receive the highest quality engineering education given by dedicated staff who are themselves highly qualified engineers with international reputations for the quality and creativity of their engineering teaching, research, and industrial consultancy work. The School’s graduate employment rates of 100% for the last several years (as measured by the independent ‘Good University’s Guide) demonstrates that Industry also has a very high regard for our graduates. The School is certainly a ‘high achiever’, as shown in this annual report. Chris Cook

University of Wollongong Campus

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HEAD OF SCHOOL REPORT

This is the inaugural annual report of the recently restructured and rejuvenated School of Civil, Mining and Environmental Engineering (CME) having being transformed from a conventional Department. This report contains important information about the structure of the School and its teaching and research activities, conducted by a high quality academic staff supported by dedicated technical and general staff. The School of CME provides its students with the finest quality education in Civil, Mining and Environmental Engineering. The students in our three undergraduate and coursework Masters degree programs are constantly exposed to cross-disciplinary interactions that make the depth and breadth of the academic experience in the School most unique and rewarding. The School thrives on the quality of its academic and support staff who had won numerous teaching, research and general staff

awards, and takes great pride in the quality of the graduates it produces. Dr. Samanthika Liyanapathirana deserves special mentioning as the winner of ASCE’s 2007 Middlebrooks Award for her contribution to the novel design of piles in liquefying soils (shared with Prof. Harry Poulos of Coffey Geotechncis), and Assoc. Prof. Michael Boyd and Dr. N. Bodhinayake receiving the GN Alexander medal from the Institution of Engineers Australia, for their innovation in the methods of flood prediction in a variety of catchments. The industrial boom particularly in mining and civil infrastructure development has seen a rapid growth in high caliber undergraduate enrolments in these streams. Environmental engineering remains a national priority maintaining a steady number of enrolments, including the ever popular Civil and Environmental combined degree. The revitalization of essential subject strands such as in structural analysis and design, geomechanics, water resources, mine planning and design, and computations and numerical analysis with valuable input and participation from industry colleagues in our teaching programs has generated more challenging and exciting degree programs within the School. Our record in research continues to be strong and vibrant. With the creation of senior academic positions in Structural Design and Water Resources and the appointment of several new academics and full-time research personnel in Civil and Mining streams, the school has continuously enjoyed an exciting and challenging research outlook capturing a wider array of areas including seismic, offshore dynamics, natural disaster mitigation and climate change issues. This builds on the experience and outstanding record in winning competitive research grants and a commendable completion rate of doctoral students. Greater interaction with industry colleagues in all disciplinary areas has created synergies with the inevitable result of industry-based grants in research through the Australian Research Council (ARC)-Linkage Projects, the Cooperative Research Centre for Railway Engineering and Technologies (CRC-Rail) and the Australian Coal Association Research Program (ACARP). Increased attempts by staff to secure blue sky funding have also been rewarded with success in the ARC-Discovery Projects. The healthy number of research students (enrolments and completions), an impressive rate of peer-reviewed publications, national and international awards for academic staff in teaching and research, significant infrastructure grants for modernization of laboratories, and increased participation of international academics in research activities including two Endeavour Fellows funded by the Department of Education, Science and Training have maintained the reputation of the School as one of the best in the country.

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While providing an excellent teaching and research environment within the School, a larger fraction of the academic staff is now involved in major consultancies and contract research, including modern design and performance verification of roads and rail tracks, ground improvement of low-lying coastal zones, structural damage assessment, flood plain development, composite materials testing, steel structural design, dam maintenance, waste water treatment and recycling, landslides risk assessment among others in several states including New South Wales, Queensland and Victoria. The School of Civil, Mining and Environmental Engineering is geared to meet not only the future educational challenges for producing topmost graduates in the country, but also to face the dramatically changing industrial trends and environmental changes. I profoundly thank all our School’s academic, technical and general staff, the past and present students and the local community for their efforts for making our School for what it is today. Buddhima Indraratna

A MESSAGE FROM FORMER HEAD OF SCHOOL It has now been a little over six months ago since I have left the University of Wollongong to take on the helm of the School of Engineering at the University of Western Sydney. It is also just over twelve years ago that I began my academic career within the then Department of Civil and Mining Engineering of the University of Wollongong. The UoW and the School of CME within these dozen or so years has gone from strength to strength. The teaching programs at UoW are at the top of the national rankings as evidenced by the teaching quality rankings of 2005. I have no doubt that such programs such as Introduction to Tertiary Teaching a compulsory unit that academics must complete has had a major impact on these rankings. Furthermore, in this time

the University of Wollongong has developed an outstanding reputation for applied and fundamental research which sees it ranked up with the Group of Eight universities of Australia on a per capita basis. When I returned to the University of Wollongong to take on the role of the Head of the School of CME in 2004, I had the great pleasure to work with the Dean of Engineering, Professor Chris Cook and the staff of the school to help it position itself in the top echelon of schools of it’s type in the country. The school I believe has achieved this, which is best evidenced by it’s ability to maintain a 100% graduate placement for it’s undergraduate students for the last five years as well as maintain an academic staff complement with 100% PhD qualifications. The school through its effective recruitment strategies conducts world class research and has had great success in the ARC Discovery, Linkage and the Australian Coal Association Research Program (ACARP) funding over the last decade. Furthermore, it forms an important node for the national CRC for Railway Engineering and Technologies, which has been so expertly led by Professor Buddhima Indraratna. In closing, I feel greatly honoured to have been able to lead such a talented group of staff within the school and for being able to work with such a vibrant university executive in achieving the school’s objectives. It is particularly pleasing to see that Professor Buddhima Indraratna has stepped into the fold as the new Head. I wish him and the school the greatest of success in the future and look forward to being able to maintain the links that have been developed over my many years of involvement with the University of Wollongong. Brian Uy

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1 Current School Structure

School Staff

The management team of the School of Civil, Mining and Environmental Engineering at the University of Wollongong is as follows:

Head of School Professor Buddhima Indraratna

Civil Engineering Discipline Advisor Professor Tim McCarthy

Mining Engineering Discipline Advisor A/Professor Ernest Baafi

Environmental Engineering Discipline Advisor A/Professor Muttucumaru Sivakumar

Postgraduate Research Student Coordinator

A/Professor Ernest Baafi

Senior Administrative Officer Ms Lorelle Pollard

Civil Mining Environmental Prof Buddhima Indraratna Prof Tim McCarthy Prof Brian Uy (until Dec. 2006) A/Prof Muhammad Hadi Dr Brett Lemass Dr Samanthika Liyanapathirana Dr Alex Remennikov Dr Hadi Khabbaz Dr Neaz Sheikh

A/Prof Naj Aziz A/Prof Ernest Baafi A/Prof Ian Porter Dr Jan Nemcik

A/Prof Michael Boyd A/Prof Muttucumaru Sivakumar Dr Long Nghiem

Research Academics

Dr Phil Flentje Dr Cholachat Rujikiatkamjorn Dr Alexandra Golab Dr Daniel Palamara Dr Mohamed Shahin Dr Kenneth Agenson Dr Jayan S. Vinod

Honorary Professorial Staff Professor Robin Chowdhury (Civil Engineering) Associate Professor Maxwell Lowrey (Civil Engineering) Associate Professor Denis Montgomery (Civil Engineering) Associate Professor Bill Upfold (Mining Engineering)

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2 SCHOOL STAFF 2.1 Academic Staff

Professor Buddhima Indraratna PhD, MSc, DIC, BSc (Hons), FIEAust, FASCE, FGS, CEng, CPEng

Professor of Civil Engineering Head of School Office Location: Room 4.133 Email: indra@uow.edu.au Tel: +61 2 4221 3046 Fax:+61 2 4221 3238

Research Interests: (1) Ground improvement including sub-surface drainage and soft clay stabilisation, (2) Large scale geotechnical testing and process simulation, (3) Railway foundations, (4) Jointed rock engineering, (5) Geoenvironmental engineering including remediation of acid sulphate soils, (6) Flow through porous and jointed media including dam filters, (7) Dams and embankment engineering, (7) Numerical and analytical modelling and (8) Ground instrumentation

Professor Brian Uy BE, PhD, CPEng, CEng, MIEAust, MASCE, MIStructE, MICE Professor of Structural Engineering Previous Head of the School (until Dec. 2006) From Jan. 2007: Head of the School of Engineering at University of Western Sydney Email: b.uy@uws.edu.au Tel: +61 2 4736 0228

Research Interests: (1) Composite steel-concrete structures, (2) Steel structures and (3) Structural design and stability

Professor Tim McCarthy BE (Civil) MSc PhD MIEI Professor of Structural Steel and Design Civil Engineering Discipline Advisor Office Location: Room 4.G041 Email: tim_mccarthy@uow.edu.au Tel: +61 2 4221 4591 Fax:+61 2 42213238

Research Interests: (1) Structural steel design, (2) Offshore structures, (3) Deepwater marine riser design, (4) Ecologically sustainable structural design, (5) Structural optimisation using genetic algorithms, (6) Applications of artificial Intelligence in Structural Engineering, (7)Information modelling and management in engineering and (8) Systems thinking in engineering design

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Associate Professor (Siva) Muttucumaru Sivakumar BSc (Eng) Hons, ME Hons, PhD, MAWA, FIEAust, CPEng Environmental Engineering Discipline Advisor Office Location: Room 4.125 Email: siva@uow.edu.au Tel: +61 2 4221 3055 Fax:+61 2 4221 3238

Research Interests: (1) Water quality modelling and management, (2) Sustainable design of water and wastewater treatment processes, (3) Membrane processes for water treatment and recycling, (4) Agricultural waste management and resource recovery, (5) Flow and sediment transport processes in channel junctions and (6) Onsite wastewater treatment and reuse

Associate Professor Ernest Baafi BSc, MSc, PhD, ACSM, MAusIMM Postgraduate Research Student Coordinator Mining Engineering Discipline Advisor Office Location: Room 4.134 Email: ebaafi@uow.edu.au Tel: +61 2 4221-3031 Fax:+61 2 4221-3238

Research Interests: (1) Geostatistics, (2) Mine system simulation and (3) Operations research methodologies to mine evaluation and design

Associate Professor Naj Aziz BSc (Eng) Hons, ME Hons, PhD Associate Professor Office Location: Room 4.G32 Email: naj_aziz@uow.edu.au Tel: +61 2 4221-3449 Fax:+61 2 4221-3238

Research Interests: (1) Rck mechanics and ground control, (2) Rock bolting, (3) Mine gases and coal/gas outburst control, (4) Mine dust and dust control and (5) Rock cutting technologies

Associate Professor Muhammad Hadi BSc, MSc, PhD, CPEng, MASCE, MIEAust Associate Professor Office Location: Room 4.G38 Email: mhadi@uow.edu.au Tel: +61 2 4221-4762 Fax:+61 2 4221-3238

Research Interests: (1) Strengthening structures using fibre reinforced polymer, (2) Concrete structures, (3) Optimisation (4) Neural networks and (5) Pavements

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Associate Professor Ian Porter BSc (Eng) Hons, ME Hons, PhD Sub-Dean of Engineering Office Location: Room 4.131 Email: ian_porter@uow.edu.au Tel: +61 2 4221 3491 Fax:+61 2 4221 3238

Research Interests: (1) Rock mechanics and ground control in mining and (2) Mine ventilation and the environment

Associate Professor Michael Boyd BE, PhD, CPEng, CEng, MIEAust, MASCE, MIStructE, MICE Associate Professor Office Location: Room 4.139 Email: michael_boyd@uow.edu.au Tel: +61 2 4221 3054 Fax:+61 2 4221 3238

Research Interests: (1) Development of computer program for flood studies (WBNM), (2) Identification of impervious surfaces in urban catchments using remote sensing, (3) Engineering hydrology: flood hydrology, water resources, computer modelling of catchments, (4) Civil engineering hydraulics: hydraulics of culverts, flood detention basins and river hydraulics and (5) Urban stormwater management

Dr Brett Lemass BE (Hons), PhD, MIEAust, CPEng, NPER Senior Lecturer Office Location: Room 4.130 Email: blemass@uow.edu.au Tel: +61 2 4221-3039 Fax:+61 2 4221-3238

Research Interests: (1) Conceptual Design and (2) Management and decision support

Dr Alex Remennikov BE (Hon) PhD, MIEAust, MIPENZ

Senior Lecturer Office Location: Room 4.137 Email: alexrem@uow.edu.au Tel: +61 2 4221 4221 Fax:+61 2 4221 3238

Research Interests: (1) Behaviour of structures under extreme loading (impact, shock, blast), (2) finite element modelling of structures under impact and blast loads and (3) dynamics of railway tracks, impulsive loading and response of railway track system and components

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Dr Samanthika Liyanapathyrana BSc Eng , PhD, MASCE Senior Lecturer Office Location: Room 4.129 Email: saml@uow.edu.au Tel: +61 2 4221 3035 Fax:+61 2 4221 3238

Research Interests: (1) Foundation design for seismically active areas, (2) Pile driving dynamics and (3) Numerical modelling

Dr Jan Nemcik BSc (Eng) Hons, ME, PhD Senior Lecturer Office Location: Room 4.138 Email: jan_nemcik@uow.edu.au Tel: +61 2 4221 4492 Fax:+61 2 4221 3238

Research Interests: (1) Geotechnical measurements and instrumentation for underground excavations. (2) Stress distribution and rock failure about underground openings, (3) Numerical modelling of underground excavations, (4) Numerical modelling of the longwall powered supports and their influence on strata behaviour at/ahead of the moving coal mining longwall face and (5) Evaluation of the longwall powered supports and their suitability to mine in variable ground

Dr Long Nghiem BE (Hons), GC (Bus), PhD Lecturer Office Location: Room 4.G37 Email: longn@uow.edu.au Tel: +61 2 4221 4590 Fax:+61 2 4221 3238

Research Interests:(1) Membrane filtration technology, (2) Membrane extraction and polymer inclusion membranes, (3) Trace contaminants in water recycling, (4) Acid sulfate soil remediation and (5) Monitoring of methane in coal mining

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Dr Hadi Khabbaz BSc (Hons), MSc, PhD Lecturer Office Location: Room 4.132 Email: khabbaz@uow.edu.au Tel: +61 2 4221 3385 Fax:+61 2 4221 3238

Research Interests: (1) Unsaturated soil mechanics, (2) Numerical methods in geoenvironmental engineering, (3) Membrane technology for water and wastewater treatment, (4) Constitutive modeling in geomechanics including mechanical behaviour of coarse granular materials and (5) Ground improvement techniques for problematic soils

Dr Neaz Sheikh BSc (Eng), MPhil, PhD

Lecturer Office Location: Room 4.G43 Email: msheikh@uow.edu.au Tel: +61 2 4221 3009 Fax:+61 2 4221 3238

Research Interests: (1) Optimal seismic design, (2) Performance-based seismic design and assessment, (3) Seismic vulnerability modeling, (4) Seismic hazard assessment for low to moderate seismicity regions, and (5) Site response study

Farewell

Prof. Brian Uy (fifth from right) was the Head of the School until Dec. 2006.

A/Prof. Michael Boyd (middle) retired in Dec. 2006. Ms. Burnham (financial officer) and Prof. Chris Cook (the dean) are also in

the picture.

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2.2 Research Academics

Dr Phil Flentje BSc (Eng) Hons, ME Hons, PhD

Senior Research Fellow Office Location: Room 4.129 Email: phil_flentje@uow.edu.au Tel: +61 2 4221 3056 Fax:+61 2 4221 3238

Research Interests: (1) Landslides and slope stability, (2) Slope hazard assessment and (3) Geographic Information System (GIS) applications

Dr Cholachat Rujikiatkamjorn BE, PhD (UoW)

Research Fellow Office Location: Room 4.127 Email: cholacha@uow.edu.au Tel: +61 2 4221 5852 Fax:+61 2 4221 3238

Research Interests: (1) Ground improvement techniques, (2) Geotechnical aspects of rail tracks, (3) Numerical and Analytical methods in geotechnical engineering; (4) Environmental geomechanics (soil-water interaction)

Dr Alexandra Golab BSc, MSc, PhD

Research Associate (Until Dec. 2006) Office Location: Room 4.G38 Email: golab@uow.edu.au Tel: +61 2 4221 4762 Fax:+61 2 4221 3238

Research Interests: (1) Acid sulphate soil remediation and (2) Permeable reactive barriers

Dr Daniel Palamara BE (Hons), PhD

Research Associate (Until March 2007) Office Location: Room 4.130 Email: daniel_palamara@uow.edu.au Tel: 0431 664 147 Fax:+61 2 4221-3238

Research Interests: (1) Mine planning, (2) GIS applications and (3) Engineering geomorphology

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Dr Mohamed Shahin BSc MEng , PhD, MIEAust

Research Fellow (Until Oct. 2006) Now at: Curtin University of Technology Email: m.shahin@curtin.edu.au Tel: +61 8 9266 1822

Research Interests: (1) Railway Track Geotechnology, (2) Numerical Modelling in Geotechnical Engineering, (3) Ground Improvement and Soil Stabilisation and (4) Artificial Neural Networks

Dr Kenneth Agenson BSc MEng , PhD

Research Fellow (Until Feb. 2007) Now at: Carr and Associate Consulting Engineers, Perth, WA

Research Interests: (1) Membrane technology and (2) Water chemistry and water treatment

Dr Jayan Sylaja Vinod BSc MEng , PhD Research Fellow Office Location: 4.G36 Email: vinod.js@gmail.com Tel: +61 2 4221 4089 Fax:+61 2 4221 3238

Research Interests: (1) Soil dynamics, (2) Discrete and finite element methods in geomechanics, (3) Ground improvement (4) Centrifuge modelling (5) Seismic hazard analysis and (6) Shallow and deep foundation design

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2.3 Honorary Professorial Staff

Prof Robin Chowdhury BSc (Eng) Hons, ME Hons, PhD Office Location: Room 4.G42 Email: robin_chowdhury@uow.edu.au Tel: +61 2 4221 3037 Fax:+61 2 4221 3238

Research Interests: (1) Landslides hazard and slope stability risk assessment and (2) Seismic landslide hazard assessment.

Associate Professor Maxwell Lowrey BE, PhD Office Location: Room 4.G39 Email: max_lowrey@uow.edu.au Tel: +61 2 4221 3036 Fax:+61 2 4221 3238

Research Interests: (1) Dynamic of structures and (2) Design of steel structures.

Associate Professor Denis Montgomery BE (Hons), PhD Office Location: Room 4.128 Email: denis_montgomery @uow.edu.au Tel: +61 2 4221 4186 Fax:+61 2 4221 3238

Research Interests: (1) Construction materials, (2) Waste material optimisation and (3) Concrete technology.

Associate Professor Bill Upfold BSc, MSc, PhD Office Location: Building 4 Email: bill_upfold@uow.edu.au Fax:+61 2 4221 3238

Research Interests: (1) Mining engineering and (2) Underground mining

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2.4 Honorary Fellows • Dr Hagare Dharmappa (Environmental

Engineering, Water and Wastewater Treatment)

• Mr Michael Muston (Environmental Engineering, Natural Reuse Management, Water Reuse)

• A/Prof Jerry Ongerth (Environmental Engineering, Pathogens Detection, Water Treatment)

• Dr Ross Seedsman (Mining Engineering) • Professor V. S. Vutukuri (Mining

Engineering) • Dr Joe Shonhardt (Mining Engineering) • Mr Jeffrey Tanner-Jones (Mining

Engineering) • Mr Raymond Tolhurst (Mining

Engineering) • Prof Gour Sen (Mining Engineering,

Ground Vibration)

2.5 Professional, Technical and Administrative Staff The professional, technical and administrative staffs at the Faculty of Engineering (listed below) provide the required services for the School of Civil, Mining and Environmental Engineering. Computer Support Officers

• Des Jamieson (IT Officer) • Leonie McIntyre (IT Officer) • Peter Turner (IT Officer)

<Des_Jamieson@uow.edu.au> <Leonie_McIntyre@uow.edu.au> <Peter-Turner@uow.edu.au>

Technical Staff

• Alan Grant (Senior Technical Officer, Geotechnical Engineering Laboratory) • Ian Laird (Senior Technical Officer, Geotechnical Engineering Laboratory) • Joanne George (Senior Technical Officer, Environmental Engineering

Laboratory and School Safety Committee Chair) • Norm Gal (Senior Technical Officer, Environmental Engineering Laboratory)

• Bob Rowlan (Technical Officer, Geotechnical and Structural Engineering Laboratory)

• Ian Bridge (Technical Officer, Mining and Structural Engineering Laboratory) Administrative Staff

• Lorelle Pollard (Administration Manager) <Lorelle_pollard@uow.edu.au>

• Pam Burnham (Finance Officer) • Ellen Manning (OH&S Coordinator) • Roma Hamlet (Dean’s Assistant) • Rhondalee Cambareri (Research Coordinator) • Marina Evans (Faculty Officer) • Carmelle Scott (Receptionist) • Stacey Smith (Administrative Assistant) • Christine Walkham (Administrative Assistant) • Coral Byrnes (Administrative Assistant) • Julie Curcio (Administrative Assistant) • Joy DeMestre (Administrative Assistant) • Jade Kennedy (Administrative Assistant) Until June 2007

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3 RESEARCH ACTIVITIES AND CENTRES

3.1 Key Research Areas 2006-2007 marked a significant increase in research strength of the School of Civil Mining and Environmental Engineering. With a strong focus on ground breaking research we have been able to attract more than $2.1 million in funding and the number of full time research students has increased to over 40. A record number of more than 100 peer reviewed publications further highlighted the growth of CME over the last academic year. This includes numerous keynote and landmark papers that earned researchers many prestigious awards. Significant innovations in the use of laboratory space and equipment designed to accommodate the ever growing number of research staff and postgraduate students have also been achieved. Research at the School of CME, University of Wollongong, focuses on five major clusters:

• Geotechnical Engineering • Railway engineering • Structure and Construction Materials • Mining Engineering • Water Quality and Treatment, and Sustainability

The multi-disciplinary nature of these foci requires teamwork across all departments within the school, other members of the University community and the region, including the corporate and technology sectors, federal research laboratories, and international collaborators. 3.1.1 Research Centre for Geomechanics and Railway Engineering (GRE) Australia’s Railway Industry is re-inventing itself to become the major mode of land transport in the 21st century with the main challenge being to create a competitive edge through imaginative ideas, innovative leadership, and the latest technology. Because most Australians live on coastal areas where the marine clays are soft and compressible, advanced construction methods are required for the design and performance of major infrastructure such as transportation systems. The School of CME is home to a renowned and well established Geomechanics and Railway Engineering (GRE) Research Centre. Extensive collaborative research between the centre and industry bodies such as RailCorp, Snowy Mountains Engineering Corporation, Department of Main Roads (Brisbane), Queensland Rail (QR), Australian Rail Track Corporation (ARTC), Douglas Partners (Wollongong), and Polyfabrics (Australia) have resulted in many modern ground improvement techniques. National and International recognition gained through awards such as the Swedish Geotechnical Society Award for Ground Improvement, plus numerous Keynote addresses in reputable Conferences have brought immense prestige to the research being undertaken in geotechnical and railway engineering. The 2006-2007 academic year was highlighted by a rewarding recognition for the centre and its partners within CRC Railway Engineering and Technologies with the announcement of Commonwealth Funding support of $21 million over the next 7 years. Given the design, construction, and maintenance challenges associated with dams, roads and rail tracks along terrain characterised by adverse ground conditions, the optimum functioning of this research centre is imperative. The Research Centre for GRE at UoW has been built around several inter-disciplinary research phases (i.e. geotechnical, geological, mining, mechanical, structural and environmental). Existing and proven research by a team

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of focused academics, research fellows and high calibre students places the GRE Research Centre at the top of the region in a number of key areas including: Rail Track Engineering

• Ballast-track interaction and the effective use of geosynthetics • Rail track foundation soil properties and stabilisation • Dynamic analysis of track and assessment of its capacity • Improving rail infrastructure by introducing native vegetation and ‘green’ corridors • Stress-strain and filtration characteristics of sub-ballast under cyclic loads • Effect of slope movements on rail tracks • Decision support systems applied to track maintenance scheduling • Development of novel insulated joints • On-board wheel-wear and wheel-rail-noise assessment system

Outcome of the School’s cutting-edge research work conducted by Prof. Buddhima Indraratna, his colleagues and research students on ballast and track degradation under high speed heavy haul trains has modernised future track design.

Field trial: Installation of geogrids and geotextiles (left) and LVDT transducers (right) at Bulli site near Wollongong Geotechnical Engineering

• Landslides hazards and risk management • Chemical stabilisation of problematic soils including erodible, dispersive, collapsible

and unstable soils • Behaviour of granular materials under cyclic loads including particle degradation and

cyclic densification • Stabilising soft clay embankments using prefabricated vertical drains combined with

vacuum preloading • Remediation of acid sulphate soils to prevent corrosion of track components • Stability assessment of embankments • Stabilisation of soft and weak foundation soils using native vegetation exploiting root

suction • Use of synthetic materials for improving subsurface drainage • Role of filtration in eroded soil retention

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• Jointed rock engineering with applications to rock excavations including tunnelling and mining

• Deep foundations and pile driving dynamics • Earthquake effects on foundations • Computational geomechanics

A cyclic filtration apparatus being used by

Dominic Trani (PhD student) to simulate the behaviour of granular filters under cyclic

conditions.

Anass Attya (PhD student) using the large-scale cylindrical triaxial apparatus to quantify the performance of vertical drains in soft clay

under static and cyclic loads. 3.1.2 Advanced Structural Engineering and Construction Materials (ASEAM) Group

Founded in 2005, the Advanced Structural Engineering and Construction Materials (ASEAM) Group couples the existing research strengths of structural engineering and construction materials within the School of CME. The focus of this group is to undertake advanced structural analysis and evaluate the materials used in civil engineering construction. Much of the research undertaken by this group has been funded through the Australian Research Council and associated industry partners. The group consists of six full time academic staff, two visiting members and also includes numerous BE (Hons), Masters and PhD students. The group also has approximately five technical staff associated with its two structural engineering laboratories. The group has a very strong research record with a total of $5 million in funding from National Competitive Grants and have produced over 300 publications and supervised more than 50 theses over the last five years.

Four primary strands of research of the ASEAM group include:

• Advanced analysis and design of structures: This research considers the non-linear analysis of concrete, steel and composite steel-concrete structures and the behaviour of

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structures under extreme loading. ASEAM group is also developing novel techniques for optimising structural design

• High performance concrete: This research is associated with the constitutive behaviour and application of high strength concrete, self compacting concrete, fibre reinforced concrete and fibre reinforced polymer (FRP) wrapped concrete members.

• High performance steels: High performance steel research and applications in civil engineering construction is being conducted using high strength steels, stainless steels and titanium based alloys.

• Soil-structure interaction investigating the interaction between foundations with soil under variable loading.

Academics from the School of CME examining the Lawrence Hargrave construction site

Revolutionising the Design of Railway Sleepers

Innovative research by engineers at the School of CME is set to change the design of concrete sleepers and possibly save the industry millions of dollars. Dr Alex Remennikov from the School of Civil, Mining and Environmental Engineering and his PhD student, Sakdirat Kaewunruen, are completing their research in collaboration with Queensland University of Technology and have been sponsored by the CRC for Railway Engineering and Technologies. Sleepers are a major component of railway tracks; they are the cross-tie beam built to distribute the load from the rails to the underlying ballast bed. Although sleepers can be made of timber, steel, or concrete, the current trend is towards concrete because of its high durability and ratio of benefit to cost. Concrete sleepers can last from 50 to over 100 years under extreme environmental conditions. Their high mass also helps stabilise the tracks against the thermal expansion of rails and vibration from rolling stock.

The initiative for this research project came from a wide spread notion based on general industry experience that concrete sleepers have reserves of untapped strength. The current design was based on experience, with little or no science or theory to back it up. This has resulted in an over estimation of the strength required and the high cost of their extensive use.

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As part of the research a new, high capacity drop-weight impact machine was constructed at UoW, it has a maximum drop of 6m and is currently the largest of its kind in Australia. It can accommodate full size building/structural members such as a concrete sleeper, a steel-concrete composite beam and column, or a pre-cast concrete slab. High technology sensors and devices are used to measure and monitor the behaviour of any test specimen under a variety of dynamic impact loading spectra. An estimate by STEM partnerships (2006) showed that the new design would help the rail industry save over $7 million dollars in the short term.

Dr Alex Remennikov (right) and Sakdirat Kaewunruen (PhD student) are investigating the

impact resistance of a prestressed concrete sleeper.

A helically reinforced concrete beam after the test

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3.1.3 Mining Research Group Wollongong has a very strong mining research group. Our laboratories offer students, researchers, and the industry, access to the latest equipment and facilities. A number of government and industry sponsors are currently supporting our on-going research efforts that cover the following categories:

Outburst Control • Computer modeling and simulation of

methane and carbon dioxide drainage • Permeability and sorption testing

equipment • Gas composition analysis

Rock Mechanics and Ground Control • Subsidence prediction and control • Longwall mining • Characterization of new grouts for

ground control • Bump prediction associated with

mines under strong roofs • Slope stability in open-pit mines • Multi-seam mine design

Ventilation • Improved recovery of coal-bed

methane • Design of jet fans • Ignition of explosions in coal mines A polymer sheet supporting a tonne of bricks

(Brendan Rolls, a mining student)

A/Prof Naj Aziz (2nd from left) and his students visiting Cadia Ridgeway Mine

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Coal mine gas drainage experimentation for outburst control in underground coal mines

Rock bolting research for ground control

3.1.4 Sustainable Water and Energy Research Group (SWERG) Engineers have a special role in the assessment as well as in the design and construction of major and minor development projects that may give rise to profound changes to the environment. As such their contribution to sustainable development is invaluable. SWERG brings together researchers interested in integrated water and energy related environmental problems and in the practical aspects of projects and processes in the civil, environmental and mechanical engineering areas.

The Sustainable Water and Energy Research Group’s (SWERG) vision is to advance high calibre research and training with an interdisciplinary focus using modern environmental and

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other engineering and scientific techniques to find solutions that directly contribute to ecologically sustainable development.

Research work at UoW investigating the

removal of trace contaminants like pharmaceuticals and hormones by

reverse osmosis membranes is providing vital information to evaluate risks

associated with the indirect potable water reuse.

From left: A/Prof Sivakumar, Ilche Grasevski (honours student) and Kalyani Dissanayake (PhD student) are conducting experimental research on flow and sediment behaviour in

open channel junctions.

The major research areas of SWERG are: 1. Integrated water cycle management

• Recycling and reuse • Catchment, river and lake water quality • Microbial risk assessment • Social aspects

2. Membrane filtration

• MF/UF/NF/RO systems and modelling • Trace contaminants removal • Fouling processes • Leachate treatment • Electrodialysis • Membrane distillation

3. Sustainable water treatment and recycling technologies: • Dairyshed waste treatment and recycling • Solar electrocoagulation • Ballast water treatment • Mine water treatment • Residuals drying and reuse

4. Decentralised wastewater treatment & reuse: • Nutrient removal • Greywater treatment • Membrane bioreactors (MBRs)

5. Renewable energy technologies

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• Vertical axis wind turbines • Wave power systems • Bio-energy development from dairy shed wastes

6. Geo-environmental engineering

• Soil contamination modelling • Permeable reactive barriers • Solidification of wastes

2006-2007 has been a remarkable year of growth and success for the environmental engineering group in many fronts: research student enrolment, laboratory space and facilities, publication output, awards, research recognition, fundraising and revenues. The group maintained a large number of postgraduate students, focusing on the areas of water quality, water resources, non-potable and indirect potable water reuse, advanced water and wastewater treatments, and ecological engineering. 3.2 Research Students The list of current research students, their topics and supervisors are given in the following table.

Student Name Research Topic Supervisor Cosupervisor

Jawad Al-Rifai (PhD)

Characterisation and treatment of Reverse Osmosis concentrates from water recycling applications

William Price

Hadi Khabbaz

Anass Attya (PhD)

Performance of vertical drains in soft clay under cyclic loads

Buddhima Indraratna

Cholachat Rujikiatkamjorn

Dennis Black (PhD)

Improving drainage efficiency of coal seam by hydro-fracturing

Naj Aziz

Beatrice Bodhinayake (PhD)

Finite element analysis of flexible pavements

Muhammad Hadi

Dieter Bruggemann (ME)

Assessment of field parameters for predicting gas outburst conditions in coal mines

Naj Aziz

Thidarat Bunsri (PhD) Completed in 2007

Contaminant transport processes in on-site waste disposal systems

Muttucumaru Sivakumar

Hagare Dharmappa

Jose Dominguez Davila (PhD)

Behaviour of alkaline permeable reactive barriers

Buddhima Indraratna

Long Nghiem

Angela Dejong (ME)

Slope stability in mines Jan Nemcik

Kalyani Dissanayake (PhD)

Experimental and numerical modeling of flow and sediment characteristics in open channel junctions

Muttucumaru Sivakumar

Ajit Godbole

Mohammad Mahdi Emamjomeh (PhD) Completed in 2006

Electro-coagulation technology as a process for defluoridation in water treatment

Muttucumaru Sivakumar

Behzad Fatahi (PhD)

Numerical and analytical models of soil suction on rail track stability and movement using native vegetation

Buddhima Indraratna

Hadi Khabbaz

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Student Name Research Topic Supervisor Cosupervisor

Julian Fyfe (PhD)

Dairy shed waste treatment and recycling Muttucumaru Sivakumar

Ali Garaibeh (PhD)

Mathematical and experimental investigation of drying of water treatment residuals

Muttucumaru Sivakumar

Ali Ghandeharioon (PhD)

Effect of mandrel penetration on the development of smear zone and the associated pore pressure and deformation of the surrounding soil

Buddhima Indraratna

Cholachat Rujikiatkamjorn

Zakir Hossain (PhD)

Constitutive modelling for ballast degradation under cyclic loading

Buddhima Indraratna

Hossein Jalalifar (PhD) Completed in 2006

A new approach in determining the load transfer mechanism in fully grouted bolts

Naj Aziz

Alireza Jalayer (ME)

Waste minimisation and pollution control in regional Australia: The case of a mustard oil and flavour extraction plant

Long Nghiem Muttucumaru Sivakumar

Mohammad Javdan-Mowlaei (ME)

Nutrient removal in aerated wastewater treatment system

Muttucumaru Sivakumar

Ross Jeffry (PhD) Enhancing the strength and ductility of reinforced concrete beams by helical reinforcement

Muhammad Hadi

Shane Jordan (PhD)

Factors controlling the effectiveness of resin encapsulation in ground control

Naj Aziz

Sakdirat Kaewunruen (PhD)

Dynamic characteristics of railway track and its components

Alex Remennikov

Walter Keilich (PhD)

Numerical modelling of mine subsidence using UDEC

Naj Aziz

Kourosh Kianfar (PhD)

Stabilisation of rail tracks using vertical drains and geosynthetics

Buddhima Indraratna

Hadi Khabbaz

Martin Kimber (ME)

Improving operations through online knowledge management of board and pillar mining methods characteristics

Naj Aziz

Joannn Lackenby (PhD) Completed in 2006

Triaxial behaviour of ballast and the role of confining pressure under cyclic loading

Buddhima Indraratna

Tie Ling (PhD) Anaerobic digestion of dairy shed waste Muttucumaru Sivakumar

Daniel May (PhD)

Prediction of storm water quality in urban catchments

Muttucumaru Sivakumar

Thevaragavan Muttuvel (PhD)

Behaviour of chemically stabilised erodible and dispersive soils

Buddhima Indraratna

Hadi Khabbaz

Jayanathan Mylvaganam (PhD) Completed in 2007

Shear behaviour of normally consolidated and overconsolidated infilled rock joints under undrained triaxial conditions

Buddhima Indraratna

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Student Name Research Topic Supervisor Cosupervisor Mathias Nagy (PhD)

Influence of pore pressure in the shear behavior of rock joints

Ian Porter

David Oliveira (PhD)

Effects of internal pore pressure on the shear behaviour of infilled clay joints

Buddhima Indraratna

Mark Peterson (PhD)

Remediation techniques for acid sulphate soils

Buddhima Indraratna

Debashis Raha (PhD) Completed in 2007

A model for improving wastewater treatment plant performance from ‘command & control’ to managing in compliance with ESD principles

Muttucumaru Sivakumar

Ashok Kumar Raut (PhD) Completed in 2007

Mathematical modelling of granular filters and constriction-based filter design criteria

Buddhima Indraratna

Hadi Khabbaz

Chihiro Sakata (ME)

Minimisation of fouling rate in reverse osmosis membrane plants

Hadi Khabbaz Muttucumaru Sivakumar

Luke Scott (PhD)

Development of low energy water purification for remote communities

Muttucumaru Sivakumar

Nichanan Tadkaew (PhD)

Removal of Trace Organic Contaminants by Membrane Bioreactors

Long Nghiem Muttucumaru Sivakumar

Faham Tahmasebinia (ME)

Improving deformation capacity of concrete slabs using shear reinforcement

Alex Remennikov

Pramod Thakur (PhD)

Cyclic densification of ballast and associated deformation and degradation

Buddhima Indraratna

M. Shahin H. Khabbaz

Laricar Dominic Trani (PhD)

Application of constriction size based filtration criteria for railway subballast under cyclic conditions

Buddhima Indraratna

Hadi Khabbaz

Devendra Vyas (PhD)

Factors controlling the effectiveness of resin Encapsulation in Ground Control

Naj Aziz

Rhon Walker (PhD) Completed in 2006

Analytical solutions for modeling soft soil consolidation by vertical drains

Buddhima Indraratna

Melanie Werner (PhD)

Small water systems sustainability in regional Australia

Greg Hampton Long Nghiem

Veysel Yazici (ME)

Strengthening reinforced concrete columns by Fibre Reinforced Polymers

Muhammad Hadi

3.3 Selected Strategic Grants Aziz, N. “Mine Gas Drainage and Outburst Control”. BHP Billiton - Illawarra Coal Holdings Pty Ltd, $300,000. Aziz, N. “Rock Bolting in Soft Rocks”. Minova International, $200,000. Baafi, E. and Porter, I. “Web Based Roadway Development Information System” Australian Coal Association Research Program (ACARP), $193,000. Flentje, P. and Baafi, E. “GIS-based Decision Support Systems for Mine Subsidence Management”, Australian Coal Association Research Program (ACARP), $147,000.

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Indraratna, B., Wijeyakulasuriya, V. and Armstrong, R. “Improvement of Dispersive and Erodible Soils with Wood Processing By products”. ARC-Linkage, QLD. Dept. of Main Roads, and Chemstab Pty Ltd, $214,000. Indraratna, B. and Darve, F. “Assessment and Prediction of Particle Breakage under Cyclic Loading”. ARC-Discovery, $180,000. Indraratna, B., Papworth, W. and Lugg, G. “Tidal Buffering and Sub-surface Alkaline Barrier to Enhance Acid Sulphate Soils Management. ARC-Linkage, with Shoalhaven City Council and Manildra Ltd. $280,000. Indraratna, B. and Khabbaz, H. “Analysis of Formation-Ballast Interaction (2005-2007). CRC for Railway Engineering, with RailCorp (Sydney), ARTC (Adelaide), and QR (Brisbane): $408,000. Indraratna, B. and Haque, A. “Stress-strain and Filtration Characteristics of Capping or Sub-ballast layer”. CRC for Railway Engineering, with RailCorp (Sydney): $172,000. Indraratna, B., Cameron, D. and Khabbaz, H. “Improvement of Rail Corridors using Native Vegetation” (2003-2006). CRC for Railway Engineering, with RailCorp (Sydney), ARTC (Adelaide), and QR (Brisbane), $153,000. Liyanapathirana, S. “New Design Guidelines and Simplified Analysis Methods for Geosynthetic Reinforced Pile Supported Embankments”, URC (near miss ARC-DP grant), $15,000. McCarthy, T., Nightingale, S., Cooper, P. and Carew, A. “Teaching and Assessing Meta-attributes in Engineering”. Carrick Institute, $134,000. McCarthy, T., Vickers, R. and Kennedy, O. “Collaborative Design Spaces”, Teaching and Learning Fund, $67,000. Nghiem, L. and Sivakumar, M. “Wastewater Treatment and Reuse at a Vegetable Oil Extraction plant; Palos Verder and UoW; $19,000. Poter, I., Baafi, E., Spinks, J., Nemcik, J. and Lukey, C. “Alternative Polymeric Skin Reinforcement and Confinement System”, BMA, Xstrata, Austar, Rio Tinto, Centennial Anglo Coal, Helensburgh Coal, Oaky Creek Coal, NRE Minerals and UoW URC grant, $150,000. Remennikov, A. “Dynamics of Railway Tracks and Impact Response of Prestressed Concrete Sleepers”, CRC for Railway Engineering, with Rocla and QR, $85,000.

3.4 Laboratory Facilities 3.4.1 Geotechnical Engineering Geotechnical Engineering group has upgraded its soil and rock mechanics laboratories to be most suitable for modern undergraduate teaching and postgraduate novel experimental research. Specific Laboratories:

• Undergraduate Soil Mechanics Laboratory • Postgraduate GDS Triaxial Laboratory • Large Scale Triaxial and Consolidation Laboratory • Railway Track Testing Laboratory • Unsaturated Soil Laboratory

The GRE Research Centre under the leadership of Prof. Indraratna previously received extensive support from the University, the ARC, the CRC for Railway Engineering and Technologies, rail organisations (e.g. RailCorp, Queensland Rail and Australian Rail Track

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Corporation) and several Industry partners. Accordingly, many unique laboratory facilities have been designed and built at the School of CME.

Large scale cyclic prismoidal triaxial rig

Large scale cylindrical triaxial apparatus with dynamic actuator

Large scale consolidometer

Unique Geotechnical Laboratory Facilities:

• Large scale cylindrical triaxial rig with dynamic actuator (300 mm in diameter) • Large scale cyclic prismoidal triaxial rig with Unrestrained Sides (600×600×800mm) • Large scale consolidometer (650 mm in diameter for soft soil testing) • Constant normal stiffness shear apparatus • Large scale direct shear box • Large scale permeability apparatus (500 mm in diameter) • GDS controlled triaxial apparatus • Automated Rowe cell consolidometer • Cracked erosion apparatus • High pressure filtration apparatus for monotonic loads • Cyclic filtration apparatus (250 mm in diameter) • Pressure plate apparatus (for determining soil-water characteristic curves) • High pressure rock testing apparatus (universal testing machine) • Soft soil grouting equipment (for lime injection) • Dynamic rail simulator • Geosynthetics pull out test rig

Global digital system (GDS) controlled triaxial

apparatus Automated hydraulic consolidation

system (Rowe cell)

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3.4.2 Structural Engineering The specific laboratories of structural engineering group are:

• Structural dynamics laboratory • MTS Compression and Tension Rigs • Drop hammer machine for impact tests • Structural Mechanics Laboratory • Concrete Laboratory • High Bay Laboratory for Testing Large Scale Model Structures

Large drop hammer

machine Modal testing to identify the critical dynamic parameters of

concrete sleepers 3.4.3 Mining Engineering Mining laboratories at the School of CME are:

• Rock Mechanics Laboratory • Gas Flow Simulation and Ventilation Laboratory • Underground Support Testing Laboratory • Coal Testing Laboratory

3.4.4 Environmental Engineering The special equipment and testing facilities of water and environmental engineering group are:

• Lab Scale Cross-flow Reverse Osmosis Filtration • Dead-end Stirred Cells for Membrane Testing • Microfiltration System • Pilot and lab scale elctro-coagulation units • Lab Scale Elctrocoagulation-Ultrafiltration Hybrid System • TOC/TN Analyser • HPLC System with UV-V and Fluorescence Detector • GC/MS System • Laser Doppler Velocitimeter with a Fibre-optic Probe • Atomic Adsorption Spectrometer • Aerobic and Anaerobic Bioreactors • Onsite Wastewater Treatment Systems

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• Open Channel Junction with Sediment Feeder • Filtration Columns • Membrane Biological Reactors (MBRs)

3.5 Selected Doctoral Student Profiles The School of Civil, Mining and Environmental Engineering offers a wide rage of research programs for postgraduate students. Our school offers an excellent environment for students to work in theoretical, numerical, and experimental aspects of research. Under the supervision of academic staff and senior technical officers, postgraduate students have unrestricted access to the well designed and equipped laboratories to further their skills. The School of CME has consistently attracted many high caliber research students and graduates of this School have performed extremely well in their professional life. Selected past PhD student profiles are given in this section. Dr William Glamore

William received his PhD in the area of Geo-environmental Engineering in 2003. He was then offered a position at the Water Research Laboratory, School of Civil and Environmental Engineering, at the University of New South Wales (UNSW), a leading international hydraulics research and consulting laboratory, to help solve complex water related problems for industry and government for the next 50 years. As a Senior Research Fellow, William manages over 20 water engineering projects per year with an annual turnover of $300,000. His field of expertise and research includes hydrology, wetland design and creation, tidal restoration, groundwater dynamics, estuarine and coastal processes,

hydro-dynamics, and water quality in reservoirs and estuaries. In 2004 he was awarded the Thesis of the Year award at the University of Wollongong and in 2005 was awarded a prestigious Churchill Fellowship to investigate international wetland restoration practices in 6 countries. In 2006 he was invited to join the American Society of Civil Engineering Committee on Wetland and Sediment Management, which aims to publish a Wetland Engineering Manual. He was also nominated as an “International Expert in the field of Hydrodynamic Processes” by the International Atomic Energy Agency (IAEA). In 2007, William was nominated as an “Expert of International Standing” by the Australian Research Council’s College of Experts. He is also a committee member of Engineers Australia’s NSW Water Panel (2004-present). Since completing his PhD, William has presented research findings at many international and Australian conferences, published more than 30 Technical Reports to Government and Industry representatives and co-authored 5 international journal papers, including two invited papers. He also reviews several international journal papers, ARC grants and governmental documents.

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Dr Joanne Lackenby Joanne began her studies at the University of Wollongong in 1998 with an undergraduate degree in Environmental Engineering. She received first class honours and a number of awards including top of the class in her first and fourth years. Following successful undergraduate studies, she commenced a PhD in 2002 in the area of Geotechnical Engineering where she focused on the degradation and deformation characteristics of granular materials under cyclic loading. During these studies Joanne published a number of journal and conference papers, including two articles in Géotechnique, a top journal in the geotechnical field. This is a wonderful achievement for a person in their twenties. Joanne has been working as a consulting Geo-

Environmental Engineer at Douglas Partners (DP) since September 2005. DP is a leading geotechnics, environmental, and groundwater consultancy with 13 offices throughout Australia. At present, Joanne is involved in a number of activities including field investigations, design and analysis, and report writing for a vast range of geotechnical and environmental projects. Dr Ashok Raut

Ashok received his PhD in Civil Engineering in 2006. Even before submitting his thesis, Ashok was offered a position as Senior Water Engineer for the Snowy Mountain Engineering Corporation (SMEC) Australia. SMEC Australia is a leading Australian engineering firm that offers the latest technical solutions to all engineering problems world wide. So far he has been involved in projects such as modelling for the Sydney Catchment Authority to facilitate a more affective management of their water supply system, and a feasibility study to augment the capacity of the Yass Valley water supply system to help cope with the prolonged drought. Currently, he is working on the development of the GIS-based computer Decision Support System (DSS) tool for the

Irrigation Department of Uttar Pradesh state of India. This World Bank scheme focuses on alleviation of socio-economic status of 160 million farmers of the northern Indian state through agriculture diversification and intensification through efficient resource management. Based on his performance and the satisfaction of the client and the World Bank, the SMEC India has nominated Ashok as a full-time team leader position for a similar DSS project in the central Indian state (Madhya Pradesh), scheduled to commence towards the end of this year. In 2007, Ashok was awarded the Australian Geomechanics Society prize (Wollongong award) for the best postgraduate performance in geotechnical research at the University of Wollongong. So far, Ashok has co-authored three technical papers in the Journal of Geotechnical and Geoenvironmental Engineering, ASCE, and several other papers are in the pipeline.

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4 TEACHING AND LEARNING PROGRAMS The University of Wollongong is one of two universities in the top tier of three categories for the Federal Government’s Learning and Teaching Performance Fund for 2007, announced by Education Minister Julie Bishop in December 2006. The University of Wollongong and the Australian National University in Canberra were the only two institutions ranked as Band A1 in the Performance Fund, which rewards higher education providers that best demonstrate excellence in teaching and learning for domestic undergraduate students. This achievement is a tribute to the outstanding quality of teaching staff at the UoW.

4.1 Undergraduate Teaching Programs Undergraduate students at the School of CME are taught to be critical thinkers, problem solvers, and innovative. They develop skills that will enable them to make competent decisions on their future careers as related to the analysis and design of a wide range of engineering projects, and to understand the delicate balance and sustainability that exists in the environment. Civil Engineering Civil Engineering graduates at UoW can apply their knowledge to plan, design. construct, operate, and maintain buildings, bridges, dams, harbors, water supply systems, waste management systems, airports roads, tunnels and railways. The subjects cover engineering design and innovation, geotechnical engineering, hydraulics and hydrology, and structural design. APPLIED CIVIL ENGINEERING SUBJECTS:

• Mechanics of Solids • Engineering Materials • Structures 1, 2 & 3 • Structural Design 1, 2 & 3 • Engineering Computing 1 & 2 • Applied Engineering Computing • Civil Engineering Design • Geomechanics 1 & 2 • Applied Geotechnical Engineering • Advanced Foundation Engineering • Construction Materials and Construction Techniques • Hydraulics and Hydrology • Roads Engineering • Surveying

Mining Engineering This degree builds knowledge of mining methods, ventilation, environmental engineering, planning and development, and the environmental impact of mining and rock mechanics; with a focus in later years on mine planning, occupational health and safety, and mining economics.

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APPLIED MINING ENGINEERING SUBJECTS:

• Mine Planning & Development • Special Topics in Mining Engineering • Mine Water • Geostatistical Ore Reserve Estimation • Environmental Impact of Mineral Operations • Advanced Studies in Mining Engineering • Simulation of Mining Operations & Problems • Rock Mechanics • Environmental Control in Mines • Mining Engineering Techniques

Environmental Engineering The Environmental Engineering course is concerned with assessing, planning, and managing the effects of human and other activities on the natural and built environment; through applications such as environmental impact assessment, pollution control and cleaner production, management of hazardous waste, and environmental engineering design. APPLIED ENVIORNMENTAL ENGINEERING SUBJECTS:

• Engineering Fluid Mechanics • Water Quality Engineering • Air and Noise Pollution • Site Contamination and Remediation Technologies • Pollution Control and Cleaner Production • Solid and Hazardous Waste Management • Water Engineering (Coastal and Groundwater Engineering) • Environmental Engineering Design 1 & 2 • Membrane Science and Technology • Sustainable Energy Technologies

The following link can be used for more details on subjects available in the Faculty of Engineering at UoW: http://www.uow.edu.au/handbook/yr2007 4.2 Postgraduate Teaching Programs The School of CME offers PhD and Masters Degrees, and comprehensive teaching and research activities to train postgraduate students. Masters degrees in Civil, Mining, and Environmental Engineering can be conducted either by research or coursework. Two coursework Master degrees program that we offer are: Master of Engineering (Civil, Mining and Environmental Engineering) Master of Engineering allows the student to combine specialist post-graduate subjects with project work according to their undergraduate background. This one year program comprises a 24-credit point dissertation and at least 24 credit points of coursework. The dissertation typically requires rigorous research in a specialised area, normally where coursework components are undertaken.

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A/Prof Boyd in a tutorial class teaching hydraulics and hydrology

Master of Engineering Practice Master of Engineering Practice has been designed to meet the needs of leaders of the future. This program allows practicing engineers to build on, update, and acquire additional knowledge in areas not covered by their first degree. This is a one year full-time or part-time equivalent (48 credit point) program. The core program comprises four, 6-credit point subjects. The remaining 24 credit points can be selected from the Postgraduate Engineering subjects. With approval from the Course Advisor, students can undertake a 12 credit point dissertation as part of the elective subjects. This dissertation is a research project that allows students to pursue a particular area in-depth to develop skills in information retrieval, project planning and organisation analysis, problem solving, and effective communication of the results. Graduate Diploma in Engineering The Graduate Diploma in Engineering is intended to provide specialised studies in engineering. It may provide entry to the Masters Research program for students who do not have the necessary entry qualifications, particularly if studying this discipline for first time. Students enroll in one of the following 48 credit point subjects according to their discipline area:

• Civil Engineering CIVL899 Advanced Topics in Engineering

• Mining Engineering MINE899 Advanced Topics in Engineering

• Environmental Engineering ENVE899 Advanced Topics in Engineering

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5 AWARDS AND HONOURS

5.1 Students Awards Every year students, staff, and guests attend the University of Wollongong's Faculty of Engineering Awards Presentation to recognize outstanding and high achieving students and graduates succeeding in the field of engineering. The 2007 Prize winners of the School of Civil, Mining and Environmental Engineering, one of three schools in the Faculty of Engineering, are listed below.

Faculty of Engineering Awards

Engineering Undergraduate Scholarships

William Alexander Ben Dowling Mark Pensini

Work Integrated Learning Scholarships

BlueScope Steel Amber-Rose Crowley

NSW RTA Matthew Adamson Philip Stolk

Rural NSW RTA Benjamin Kresevic Lindsey Stewart Brendan Young

Engineers Australia Award, Illawarra/Sutherland Regional Group Prize Highest weighted average mark in an Engineering Course

Paul Knight

Women in Engineering Bursaries

Civil Engineering Lindsey Stewart

Environmental Engineering Kylie White

David Charles Davies Memorial Prize

The prize is awarded to the group with the highest average mark for the ENGG101 projects which require an innovative and/or ecological approach to engineering.

Emelia Fabris Troy Symons Carl Zacher

Spruson & Ferguson Intellectual Property Prize

Highest mark in ENGG461 – Management and Human Factors in Engineering

Tina Eddowes

Faculty Postgraduate Thesis Prize

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Best postgraduate thesis award. Vahid Mottaghitalab

Engineering Alumni Awards

The selection of the recipient is based on significant improvement and on the interest the recipient has shown in the profession

Civil Engineering Ryan Lindfield

Mining Engineering Dane Traeger

Environmental Engineering Stephen Reynolds

Civil, Mining and Environmental Engineering Awards

Australian Geomechanics Society – Wollongong Award

Best postgraduate performance in geotechnical research Ashok Raut

Australian Steel Institute Prize

Best performance for a structural steel project Edward Crossley

Coffey Geotechnics Award

Best performance in geomechanics Adam Clarke

The Matthew Thomas Biasutti Memorial Prize

Best performance in CIVL245 - Construction Materials David Sawkins

Professor Lewis C Schmidt Memorial Prize

Best performance in CIVL352 - Structures 1 Paul Draper

Peter Schmidt Memorial Scholarship

Best performance – Postgraduate Research (Civil Engineering)

Anass Attya

Steel Reinforcement Institute of Australia Prize

Best performance in CIVL314 - Structural Design 2 Derek Gentile

Con Martin Memorial Prize

Highest weighted average mark for mining subjects Alexander Steciuk

Elizabeth Tague Prize (Shared)

Best performance in MINE422 - Mine Planning Project Craig Shales Wiebe Wilbers

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Ted William Scholarship

Environmental Engineering (Undergraduate) Liam Pettigew Poppy Coleman

Civil Engineering Discipline Prizes

Best performance in Year 1 Nathan Casanova

Best performance in Year 2 David Sawkins

Best performance in Year 3 Derek Gentile

Best performance in Year 4 Paul Draper

Mining Engineering Discipline Prizes

Best performance in Year 1 Luke Viglione

Best performance in Year 2 Brendan Rolls

Best performance in Year 3 Marie Boisclair St-Onge

Best performance in Year 4 Thomas Secheny

Environmental Engineering Discipline Prizes

Best performance in Year 1 James Archer

Best performance in Year 2 Xin Guan

Best performance in Year 3 Shanin Neveling

Best performance in Year 4 Andrew Rode

Railway Technical Society of Australasia Young Engineer Award

Behzad Fatahi has been awarded the 2007 Railway Technical Society of Australasia (RTSA) Young Engineer Award for his research and professional achievements. This Award recognises engineers, technologists or associates in Australia and New Zealand under thirty who have reached a demonstrated level of achievement and involvement in railway engineering, exhibited technical competence, good character and integrity, and helped develop or improve public and/or other engineer’s attitudes towards railway

engineering. Behzad is supervised by Prof. Buddhima Indraratna and Dr. Hadi Khabbaz, and his research is part of a larger project under the CRC for Railway Engineering and Technologies. Behzad has developed a numerical model for ground conditions close to native vegetation around railway corridors. These findings will result in significant environmental benefits and cost savings for the rail industries.

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In September 2006 Behzad was also awarded the first prize at the Young Geotechnical Professional’s Night – a prestigious geomechanics award from the Australian Geomechanics Society and Engineers Australia. 5.2 Staff Awards OCTAL Teaching and Learning Award 2006

Dr Brett Lemass has won the Engineering section of the Outstanding Contribution to Teaching and Learning (OCTAL) awards for the second time. Dr Lemass is a Senior Lecturer in Engineering and a past OCTAL winner. His practical background in design and project management, applied research and ability to motivate and effectively teach students have made him a valued member of the Engineering staff since 1999. Between receiving these awards Brett has written two books on design that serve the needs of students inside and outside his classroom, as well as industry professionals. Both books have been warmly received

as a necessary contribution to teaching resources by staff at other universities. He has been a driving force in overhauling the management stream and revised Engineering Management subject to provide a framework for engineering education and thus align the attributes of UoW graduates with the formal competency expectations required by international and domestic certifying authorities. Carrick Australian Award for University Teaching 2006 Dr Lemass was also awarded the 2006 Carrick Australian Award for Outstanding Contribution to Student Learning for “Practical Books on design and management for engineering students and professionals, coupled with low cost work books that combine engineering theory and tutorial exercises”. Thomas Middlebrooks Award 2007 (American Society of Civil Engineers)

Dr Samanthika Liyanapathirana (School of Civil, Mining and Environmental Engineering), and Professor Harry Poulos (University of Sydney and Coffey Geotechnics) have been selected by the American Society of Civil Engineers to receive the 2007 Thomas A. Middlebrooks award. This award is made to the authors of a paper judged worthy of special commendation for its contribution to the field of Geotechnical Engineering. The title of the paper is: Liyanapathirana, D. S. and Poulos, H. G. (2005). "Pseudostatic approach for seismic analysis of piles in liquefying soil," Journal of Geotechnical and Geoenvironmental

Engineering, ASCE, Vol. 131 No. 12, pp. 1480-1487. This paper is based on the finite element method and presents a numerical approach to obtain the internal response of pile foundations subjected to earthquake loading, an essential part of the overall seismic design process of structures. GN Alexander Medal (Engineers Australia) Associate Professor Michael Boyd and his former PhD student Dr Nanayakkara Bodhinayake were the winners of the prestigious 2006 GN Alexander Medal for their outstanding work on predicting flooding in a wide range of catchments. The GN Alexander Medal for Hydrology and Water Resources was created in 1987 and is dedicated to the memory of Mr Geoffrey Newman Alexander (1908-1975), in recognition of his contribution to Australian hydrology.

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The Award takes is an inscribed bronze medal and certificate(s) which are conferred by Engineers Australia on the author(s) of the best paper in hydrology and/or water resources published in Engineers Australia over the period from, and including the previous Hydrology and Water Resources Symposium. Michael and Nanayakkara won the medal for their paper: M.J. Boyd & N.D. Bodhinayake (2006) "WBNM runoff parameters for South and Eastern Australia", Australian Journal of Water Resources, Vol. 10, No. 1, pp. 35-48.

A/Prof. Michael Boyd (right) and his former PhD student Dr Nanayakkara

Bodhinayake, winners of the 2006 GN Alexander Medal.

Award-winners Mark Gaykema (front row, 3rd from left), Anass Attya (middle) and Dr

Cholochat Rujikiatkamjorn (2nd from right) are pictured with the 2006 Trailblazer competition

finalists. Trailblazer Award 2006 A low cost drainage system and a self cleaning water filter were the two innovative research projects that won top honours at the University of Wollongong's Trailblazer competition in July 2006. This competition promotes innovative thinking with the potential to benefit community, industry or business, and generate financial returns. Dr Cholochat Rujikiatkamjorn, Professor Buddhima Indraratna, and PhD student, Mr Anass Attya from UoW's School of Civil Engineering won the open category, while Engineering PhD student Mark Gaykema and his colleague Mr Joseph Polder, won the student division. Dr Rujikiatkamjorn's efforts have resulted in a low cost drainage system that can significantly improve the stabilisation of soft soils in the construction industry. Mr Gaykema's invention is a self-cleaning water filter that removes debris from water tanks, limits the volume of water lost, and removes potential bacteria developing sediments. Marie Lewis Award Ms. Joanne George, a senior technical officer, was the recipient of the Marie Lewis Award at the University of Wollongong in 2007. The Marie Lewis Award is in honour of the late Marie Lewis and recognises the achievement of a member of the general staff completing a degree. Selection is based on academic performance and service to the University. Joanne played a major role as the first Environmental Engineering Technical Officer at the School of CME. Her direct contribution and assistance to academic staff in the launch of the Environmental Engineering degree was an imperative, given her enthusiasm, dedication, and sound training (BSc majoring in environmental chemistry and ecology). The Environmental Engineering laboratories began as small units but it soon became clear that more space was needed as the Environmental Engineering degree gained in popularity.

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Joanne graduated in 2006 with a Graduate Diploma in Environmental Engineering and immediately began broadening her knowledge and by taking part in complex laboratory practices. She is very keen on professional development and is currently completing an MSc degree in Occupational, Health and Safety. Joanne is the Chair of the School of CME Safety Committee and also a Faculty of Engineering Work Advisory Committee member. She is the engineering representative on the University Bio-safety Committee and also sits on the Hazardous Substances Review Panel. Joanne is also an active member of the University social club and actively contributes to the social life of the School and University.

From Left: Professor Gerard Sutton, the Vice Chancellor, Ms. Joanne George and Emeritus

Professor Don Lewis 25 Years Service Award

Mr Des Jamison, a senior technical officer (Information Technology Service), received a 25 Years Service Award at the 2007 University of Wollongong Vice-Chancellor's Awards to formally recognise the outstanding contribution and service of staff members. Most students and staff will always remember Des as a very helpful and dedicated member of the School’s IT team. Des Jamison is pictured with Professor Gerard Sutton, Vice Chancellor of the University of Wollongong.

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6 VISITING ACADEMICS AND INTERACTION WITH INDUSTRY 6.1 School Visiting Academics The School of CME regularly hosts visiting academics that enrich the research culture of the School through interaction and collaboration. Several leading academics from various institutions and universities around the world were invited to our school in 2006-07. They delivered technical presentations, participated in research activities, and promoted joint publications.

Sarah Springman, Professor of Geotechnical Engineering from ETH Zurich (Switzerland)

visited UoW in May 2006 (middle row, fourth from right). She delivered a technical presentation on “Geotechnical characteristics of selected Swiss soils” during her visit at UoW. Following is a selected list of many scholars visited the School recently:

• Prof. Sarah Springman, University of ETH Zurich, Switzerland

• A/Prof. Mohamed Sakr, Tanta University, Egypt

• Prof. Dave Chan, University of Alberta, Canada

• Prof. Berd Bikitewski Technische Universitat Dresden, Germany

• Prof. Gerd Braun, Cologne University of Applied Science, Germany

• Prof. David Nethercot, Imperial College London, UK

• Dr. Ala Aljorany, University of Bagdad, Iraq

• Dr. Retnamony Robinson, Indian Institute of Technology Madras, India

• Prof. Chen Youliang from University of Shanghai, China

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A/Prof. Mohamed Sakr (first from left)

of Tanta University, Egypt, actively collaborated in the School research projects during his 6-month visit at

UoW in 2006.

Prof. Dave Chan, visiting academic, from University of Alberta, Canada (first row, 4th

from left) delivered a presentation on “Modeling the moving ground” at UoW in May

2007.

Endeavour Research Fellowships Dr. Retnamony Robinson

Dr. Retnamony G. Robinson is currently a Visiting fellow in the School of CME under the 2007 Endeavour India Research Fellowship scheme, which is aimed at promoting research in areas with mutual benefits for Australia and India. Dr. Robinson graduated from Madurai Kamaraj University, India with first class Honours in Civil Engineering. He obtained his Masters and Doctoral degrees in the area of Geotechnical Engineering from the Indian Institute of Science, Bangalore, India. He then worked at the National University of Singapore (NUS) for about five years in the area of centrifuge modelling and was involved in some major land reclamation projects. Since 2004 he works as an

Assistant Professor at the Indian Institute of Technology in Madras, India. He is an experimentalist with an particular interest are physical modelling, stabilisation of expansive soils and soft clays, and the cyclic behaviour of fine grained soils Dr. Ala Aljorany

Dr. Ala N. Aljorany is a Visiting Fellow in the School of Civil, Mining and Environmental Engineering. He is an Assistant Professor in the Department of Civil Engineering at the University of Baghdad, IRAQ and was awarded a 2007 Endeavour Research Fellowship that sponsored by the Australian Government to promote research areas with mutual benefits for Australia and Iraq. He received a BSc. in 1979 and an MSc. in 1987, both in Civil Engineering. He completed his PhD degree (Geotechnical Engineering) in 1996 from the University of Baghdad. His field of interest is the finite element analysis of different geotechnical problems including consolidation and improvement of soft soils, pile

foundation, and slope stability. He is currently working with Prof. Indraratna and Dr. Cholachat on the modelling and analysis of prefabricated vertical drains for improving soft soil.

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6.2 Industry Links The School of CME has had a remarkable and successful collaboration with both industry and government sectors in recent years that covers a large number of research and consulting projects. They include the following:

• RailCorp (NSW)

• Queensland Rail (QR)

• Roads and Traffic Authority of New South Wales (RTA)

• Wollongong City Council

• Shoalhaven City Council

• BlueScope Steel

• Snowy Mountains Engineering Corporation (SMEC)

• Queensland Department of Main Roads (QDMA - Brisbane)

• Australian Rail Track Corporation (ARTC)

• Douglas Partners, Wollongong (Geotechnical consulting engineers)

• Polyfabrics Australia Pty Ltd (Geosynthetics manufacturer and distributor)

• Rocla Pty Ltd (Manufacturer of concrete products including concrete sleepers)

• Coffey Partners, Wollongong (Geotechnical consulting engineers)

• Arup Geotechnics (Geotechnical engineering services)

• Chemstab Pty Ltd, Wollongong (Chemical stabilisation of unstable soils)

• Environment Protection Authority (EPA), Wollongong

• Sydney Water Corporation

• Violia Water

• Sydney Catchment Authority

• Department of Climate Change Environment and Water

• Water Quality Research Australia

• Clear Water Technologies

• Energetec Australia (Renewable energy technology development advisor)

• Port Kembla, Port Corporation

• BHP Billiton-Illawarra Coal

• Zenon Environmental

• Geoscience Australia

• Manildra Group, New South Wales

• Austrack, (Concrete railway sleeper manufacturer)

• Australian Geological Survey Organisation (AGSO)

• National Precast Concrete Association Australia (NPCAA)

• Palos Verder

• Helensburgh Coal Pty Ltd

• Gany Gibson and Associates

• Anglo Coal

• Gujarat NRE Minerals

• Oaky Creek Coal Pty Ltd

• Austar Coal Mine Pty Ltd

• Centennial Coal

• Rio Tinto (Coal Australia)

• Minova International (Mining technology)

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Appendix A School Publications (from January 2006 to June 2007)

Books and Book Chapters: Aziz N. Keilich, W. (2006) Editors of 7th Underground Coal Operators Conference, Coal 2006,

Wollongong, University of Wollongong Press, 366p. Indraratna, B., Fatahi, B. and Khabbaz, H. (2007) “Finite Element Modelling of Soil-Vegetation

Interaction”, Theoretical and Numerical Unsaturated Soil Mechanics, Schanz, T. (Editor). Springer Berlin Heidelberg, pp. 211-224.

Uy, B. (2006) “Local and Interaction Buckling in Composite Columns”, Chapter 8, Stability of Plated Structures: Analysis and Design, Woodhead Publishing Company, ISBN 1 85573 967 4, (edited by N.E. Shanmugam and C.M. Wang).

Refereed Journal Papers: Arfiadi, Y. and Hadi, M.N.S. (2006) “Continuous Bounded Controllers for Active Control Structures”,

The International Journal of Computers and Structures”, Vol. 84, Issue 12, pp. 798–807. Bunsri, T., Sivakumar, M. and Hagare, D. (2007) “Numerical Modelling of Tracer Transport in

Unsaturated Porous Media”, Journal of Applied Fluid Mechanics, Vol. 1, No. 1, pp. 62-70. Chen, J., Young, B. and Uy, B. (2006) “Behaviour of High Strength Steel at Elevated Temperatures”,

Journal of Structural Engineering, ASCE, 132 (12), pp. 1948-1964. Doulati Ardejani, F., Singh, R., Marandi, R. and Baafi, E. (2007) “A Three Dimensional Finite Volume

Model for Acid Mine Drainage Simulation in Opencast Mine”, Proc. Water in Mining Environments, Cagliari Italy.

Doulati Ardejani, F., Singh, R., Baafi, E., Safaei, Z. and Aryafar, A. (2007) “Prediction of Post-mining Groundwater Recovery Pattern in an Unconfined Aquifer to Predict Opencast Mine Backfill Settlement”, Proc. Water in Mining Environments, Cagliari Italy.

Gharaibeh, A., Sivakumar, M. and Dharmappa, H.B. (2007) “Mathematical Modelling of Solids Content of Water Treatment Residuals during Drying”, Journal of Environmental Engineering, American Society of Civil Engineers (ASCE), Vol 133, No. 2, Feb. 2007.

Golab, A., Peterson, M and Indraratna, B. (2006) “Selection of Potential Reactive Materials for Permeable Reactive Barrier for Remediating Acidic Groundwater in Acid Sulphate Soil Terrains”, Quarterly Journal of Engineering Geology and Hydrogeology, Vol. 39, pp. 209-223.

Hadi, M.N.S. and Elbasha, N.M. (2007) “The Effect of Helical Pitch on the Behaviour of Helically Confined HSC Beams”, Construction and Building Materials Journal. (in Press). Letter of acceptance 29 Jan 2007.

Hadi, M.N.S. (2007) “The Behaviour of FRP Wrapped HSC Columns under Different Eccentric Loads. Journal of Composite Structures”, Vol. 78, Issue 4, June 2007, pp. 560-566.

Hadi, M.N.S. (2007) “Behaviour of FRP Strengthened Concrete Columns under Eccentric Compression Loading”, Journal of Composite Structures. Vol. 77, Issue 1, pp. 92-96.

Hadi, M.N.S. and Elbasha, N.M. (2007) “Effects of Tensile Reinforcement Ratio and Compressive Strength on the Behaviour of Over Reinforced Helically Confined HSC Beams”, Construction and Building Materials Journal. Vol. 21, Issue 2, pp. 269-276.

Hadi, M.N.S. (2007) “Using Fibres to Enhance the Properties of Concrete Columns”, Construction and Building Materials Journal. Volume 21, pp. 181-125.

Hadi, M.N.S. (2006) “Comparative Study of Eccentrically Loaded FRP Wrapped Columns”, Journal of Composite Structures”, Vol. 74, Issue 2, pp. 127–135.

Hadi, MNS. (2006) “Behaviour of FRP Wrapped Normal Strength Concrete Columns under Eccentric Loading”, Journal of Composite Structures, Vol. 72, Issue 4, pp. 503-511.

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Halim, A.H., Igori, K., Nagasawa, H., Ongerth, J. and Karanis, P. (2007) “Molecular Characterization of Cryptosporidium from Animal Sources in Qinghai Province of China”, Parasitology Research, 16 July 2007 (Epub ahead of print).

Houssain, M.Z., Indraratna, B., Darve, F. and Thakur, P. (2007) “DEM Analysis of Angular Ballast Breakage under Cyclic Loading”, International Journal of Geomechanics and Geoenvironmental Engineering (in press).

Immamjomeh M. M. and Sivakumar, M. (2006) “An Empirical Model for Defluoridation by Batch Monopolar Electrocoagulation Flotation (ECF) Process”, Journal of Hazardous Materials, Elsevier, B131, pp.118-125.

Indraratna, B, Shahin, M. A., and Salim, W. (2007) “Stabilising Granular Media and Formation Soil using Geosynthetics with Special Reference to Railway Engineering”, Journal of Ground Improvement, ISSMGE Vol. 11(1), pp.27-44.

Indraratna, B. and Raut, A. K. (2006) “Enhanced Criterion for Base Soil Retention in Embankment Dam Filters”. Journal of Geotechnical and Geoenvironmental Engineering, ASCE, Vol. 132(12) pp.1621-1627.

Indraratna, B., Raut, A.K. and Khabbaz, H. (2007) “Constriction-Based Retention Criterion for Granular Filter Design”, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, Vol. 133(1) pp. 266-276.

Indraratna, B., Rujikiatkamjorn C., and Sathananthan, I., (2006). “Reply to: Analytical and Numerical Solutions for a Single Vertical Drain Including the Effects of Vacuum Preloading”, Canadian Geotechnical Journal, Vol. 43, pp. 1404-1405.

Indraratna, B., Fatahi, B. and Khabbaz, H. (2006) “Numerical Analysis of Matric Suction Effects Induced by Tree Roots”. Geotechnical Engineering Journal, Proc. of Inst. of Civil Engineers, Vol. 159, No.2, pp. 77-90.

Indraratna, B., Khabbaz, H. and Salim, W. (2006) “Geotechnical Properties of Ballast and the Role of Geosynthetics”, Journal of Ground Improvement, ISSMGE, Vol. 10(3), pp. 91-101.

Indraratna, B., Golab, A., and Banasiak, L. (2006) “Installation of a Lime Injection Barrier for the Remediation of Acid Sulphate Soil Problems”. Quarterly Journal of Engineering Geology and Hydrogeology, Vo. 39 (4), pp. 391-401.

Jalalifar, H., Aziz, N.I. and Hadi, M.N.S. (2006) “The Effect of Surface Profile, Rock Strength and Pretension Load on Bending Behaviour of Fully Grouted Bolts”, Geotechnical and Geological Engineering Vol. 24, pp. 1203–1227.

Kaewunruen, S. and Remennikov, A.M. (2006) “NDT: A Tool for Health Monitoring of Railway Track Structures”, Journal of Materials Australia, Vol. 39, No. 6, pp. 14-16.

Kaewunruen, S. and Remennikov, A.M. (2006) “Sensitivity Analysis of Free Vibration Characteristics of an in-situ Railway Concrete Sleeper to Variations of Rail Pad Parameters”, International Journal of Sound and Vibration, Vol. 298, pp. 453-461.

Karanis, P., Thekisoe, O., Kiouptsi, K., Ongerth, J., Igarashi, I. and Inoue, N. (2007) “Development and Preliminary Evaluation of Loop-mediated Isothermal Amplification (LAMP) for Sensitive Detection of Cryptosporidium Oocysts in Faecal and Water Samples”, Journal of Applied and Environmental Microbiology, Vol. 73 (17), (in press, Sept. 2007).

Lackenby, J., Indraratna, B and McDowel, G. (2007) “The Role of Confining Pressure on Cyclic Triaxial Behaviour of Ballast”, Geotechnique, Institution of Civil Engineers, UK Vol. 57, Issue 6, pp. 527-536.

Lam, D. and Uy, B. (2006) “Use of Hollowcore Flooring in Composite Steel-Concrete Construction, Part 2 – Design Considerations”, National Precaster, National Precast Concrete Association of Australia, Number 39, pp. 2-3.

Leitz, A.S., Sotiriadou, I., Ongerth, J. and Karanis P. (2007) “An Evaluation of Primers Amplifying DNA Targets for the Detection of Cryptosporidium spp. Using C. Parvum HNJ-1 Japanese Isolate in Water Samples”, Parasitology Research, 19 May 2007 (Epub ahead of print).

Liang, Q.Q., Uy, B., and Liew, J.Y.R. (2006) “Nonlinear Analysis of Concrete-Filled Thin-Walled Steel Box Columns with Local Buckling Effects”, Journal of Constructional Steel Research, An International Journal, Vol. 62 (6), pp. 581-591.

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Loh, H.Y., Uy, B. and Bradford, M.A. (2006) “The Effects of Partial Shear Connection in Composite Flush End Plate Joints: Part I: Experimental Study”, Journal of Constructional Steel Research, An International Journal, Vol. 62 (4), pp. 378-390.

Loh, H.Y., Uy, B. and Bradford, M.A. (2006) “The Effects of Partial Shear Connection in Composite Flush End Plate Joints: Part II: Analytical Study and Design Appraisal, Journal of Constructional Steel Research, An International Journal, Vol. 62 (4), pp. 391-412.

May, D. and Sivakumar, M. (2007) “Prediction of Urban Stormwater Quality Using Artificial Neural Network”, Water Environment Research Journal, Water Environment Federation (WEF), USA (in press).

Mursi, M. and Uy, B. (2006) “Behaviour and Design of Fabricated High Strength Steel Columns Subjected to Biaxial Bending, Part 1: Experiments”, International Journal of Advanced Steel Construction, Hong Kong Institute of Steel Construction, 2 (4), pp. 286-315.

Mursi, M and Uy, B. (2006) “Behaviour and Design of Fabricated High Strength Steel Columns Subjected to Biaxial Bending, Part 2: Analysis and Design Codes”, International Journal of Advanced Steel Construction, Hong Kong Institute of Steel Construction, Vol. 2(4), pp. 316-354.

Nghiem, L.D., Schafer, A., Elimelech, M. (2006) “Role of Electrostatic Interactions in the Retention of Pharmaceutically Active Contaminants by a Loose Nanofiltration Membrane”, Journal of Membrane Science, Vol. 286(1-2), pp. 52-59.

Nghiem, L.D., P. Mornane, I.D. Potter, J.M. Perera, R.W. Cattrall. and Kolev, S.D. (2006) “Extraction and Transport of Metal Ions and Small Organic Compounds Using Polymer Inclusion Membranes (PIMs)”, Journal of Membrane Science, Vol. 281(1-2), pp. 7-41.

Nghiem, L.D., Schäfer, A.I. (2006) “Fouling Autopsy of Hollow-fibre MF Membranes in Wastewater Reclamation”, Desalination, Vol. 188, pp. 113-121.

Nghiem, L.D., Oschmann, N. and Schäfer, A.I. (2006), “Fouling in greywater recycling by direct ultrafiltration”, Desalination, Vol. 187, pp.283-290.

Nghiem, L.D. and Schäfer, A.I. (2006) “Critical Risk Points of Nanofiltration and Reverse Osmosis Processes in Water Recycling Applications”, Desalination, Vol. 187, pp. 303-312.

Palamara, D, Baafi, E, Flentje, P. and Brassington, G. (2006) “An Overview of the Application of Geographic Information Systems to Coalmine Subsidence Impact Assessment”, Bulletin of the Australian Institute of Mining and Metallurgy. January/February, Number 1. pp. 50-54.

Palamara DR, Nicholson M, Flentje P, Baafi E, Brassington GM. (2007) “An Evaluation of Airborne Laser Scan data for Coalmine Subsidence Mapping”, The International Journal of Remote Sensing. (In press)

Pi, Y.L, Bradford, M.A., and Uy, B. (2006) “Second Order Nonlinear Inelastic of Composite Steel-Concrete Members. I: Theory”, Journal of Structural Engineering, ASCE, 132 (5), pp. 751-761.

Pi, Y.L, Bradford, M.A. and Uy, B. (2006) “Second Order Nonlinear Inelastic of Composite Steel-Concrete Members. II: Applications”, Journal of Structural Engineering, ASCE, 132 (5), pp. 762-771.

Raha, D. and Sivakumar, M. (2006) “Comparative assessment of Artificial Intelligence Models in Forecasting Performance of Activated Sludge and BNR Sewage Treatment Plants”, Journal of Waste Disposal and Water Management in Australia, Vol. 33, No. 1, pp. 16-26.

Raha, D. and Sivakumar, M. (2006) “Artificial Intelligence Approach to Modelling a Biological Wastewater Treatment Plant for Forecasting Effluent Suspended Solids”, Journal of the Society for Sustainability and Environmental Engineering, Institution of Engineers, Australia, Vol. 7, No. 1, pp. 11-14.

Ranzi, G., Bradford, M.A. and Uy, B. (2006) “Analytical Solutions for the Viscoelastic Response of Composite Beams Including Partial Interaction”, Advances in Structural Engineering, An International Journal, Vol. 9(1), pp. 11-18.

Remennikov, A.M. and Carolan, D. (2006) “Blast Effects and Vulnerability of Building Structures from Terrorist Attacks”, Australian Journal of Structural Engineering, Vol. 7, No 1, 2006.

Remennikov, A.M. and Kaewunruen, S. (2006) “Experimental Investigation of Dynamic Railway Sleeper-Ballast Interaction”, Journal of Experimental Mechanics, Vol. 46, No. 1, pp. 57-66.

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Rujikiatkamjorn, C., Indraratna, B. and Chu, J. (2007) “Numerical Modelling of Soft Soil Stabilised by Vertical Drains, Combining Surcharge and Vacuum Preloading for a Storage Yard”. Canadian Geotechnical Journal, Vol. 44, pp. 326-342.

Rujikiatkamjorn C. and Indraratna, B. (2007) “Analytical Solutions and Design Curves for Vacuum-Assisted Consolidation with both Vertical and Horizontal Drainage”, Canadian Geotechnical Journal, Vol. 44, pp. 188-200.

Schafer, A., Nghiem, L.D. and Oschmann, N. “Bisphenol A Retention in the Direct Ultrafiltration of Greywater”, Journal of Membrane Science, Vol. 283(1-2): pp. 233-243.

Shahin, M. and Indraratna, B. (2006) “Modelling the Mechanical Behaviour of Railway Ballast Using Artificial Neural Networks”, Canadian Geotechnical Journal, Vol. 43, pp. 1144-1152.

Sathananthan, I. and Indraratna, B. (2006) “Plane Strain Lateral Consolidation with Non-Darcian Flow”, Canadian Geotechnical Journal, Vol. 43, pp. 119-133.

Sathananthan, I. and Indraratna, B. (2006). “Laboratory Evaluation of Smear Zone and Correlation between Permeability and Moisture Content”, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, Vol. 132(7), pp. 942-945.

Sen, G.C. and Hossaini, S.M.F. (2006) "A Study of the Influence of Different Blasting Modes and Explosives Types on Ground vibrations", Iranian Journal of Science and Technology, Vol. 30, No. B3, pp. 313 – 325.

Sen, G.C. Hossaini, S.M.F. (2007), "A Comparative Study of Ground Vibration Arising from ANFO and Slurry Use", Explosives Engineering, Journal of the Institute of Explosives Engineering, U.K., March 2007, pp. 4-6.

Walker, R. and Indraratna, B. (2006) “Vertical Drain Consolidation with Parabolic Distribution of Permeability in Smear Zone”, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, Vol. 132(7), pp. 937-941.

Walker, R. and Indraratna, B. (2007) “Vertical Drain Consolidation with Overlapping Smear Zones”, Geotechnique, Institution of Civil Engineers, UK, Vol. 57(5). pp. 463-467.

Zahiri H., Palamara D.R., Flentje P., Brassington G.M., Baafi E. (2006) “A GIS-based Weights-of-Evidence model for mapping cliff instabilities associated with mine subsidence”, Journal of Environmental Geology. Vol. 51, No. 3, pp. 377-386.

Conference Papers: Al-Rifai J.H., Price, W. E. and Khabbaz, H. (2007) “Input-output of Acidic and Neutral Pharmaceuticals

in Water Recycling Plants in Australia”, Water and Health Specialty Conference III, Water Quality, Public Health and Water Treatment, Australian Water Association (AWA) 23 &24 May 2007 Sydney, Australia (in CD-R).

Attya, A., Indraratna, B. and Rujikiatkamjorn, C. (2007) “Behavior of Improved Soft Soil Deposits by Vertical Drains under Cyclic Loading Conditions”, 10th Australia New Zealand Conference on Geomechanics, Brisbane, Australia, 21-24 Oct 2007, (Accepted).

Attya, A., Indraratna, B. and Rujikiatkamjorn, C. (2007) ”Behavior of Improved Soft Soil Deposits by Vertical Drains under Cyclic Loading Conditions”, 16th Southeast Asian Geotechnical Conference, Malaysia (May 8-11), Edited by Yee, K., Aun, T.O., Hui, T.W., Fatt, C.S., 447-451.

Attya, A. and Indraratna, B. (2006) “Large-scale Cyclic Triaxial Testing of Soft Clay”, Soft Ground Engineering Proceedings, Australian Geomechanics Society, Sydney, pp. 167-172.

Aziz, N.I. and Jalalifar, H. (2007) “The Importance of Bolt Profile Spacing on Load Transfer Mechanism”, 20th International Mining Congress of Turkey, Ankara, June 6-8, pp.15-20.

Aziz, N.I., Caladine, R., Tome, L. and Vyas, D. (2007) “Online Information Management on Coal and Gas Outburst”, 20th International Mining Congress of Turkey, Ankara, June 6-8, pp. 209-216.

Aziz, N.I. and Jalalifar, H. (2006). “Bolt Surface Configurations and Load Transfer Mechanism, 2nd International Conference on Advances in Mineral Resources Management and Environmental Geotechnology,, Hania, Greece, 25-27 September, pp. 413-420.

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Aziz, N.I., Jalalifar, H. and Concalves, J. (2006) “Bolt Surface Configurations and Load Transfer Mechanism”, Proc. 7th Underground Coal Operators Conference, Coal 2006, Wollongong, 5-7 July, (Eds, Aziz and Keilich), pp. 236-244.

Bradford, M.A., Filonov, A., Hogan, T.J., Uy, B. and Ranzi, G. (2006) “Strength and Ductility of Shear Connection in Composite T-beams with Trapezoidal Steel Decking”, 8th International Conference on Steel, Space and Composite Structures, Kuala Lumpur, Malaysia, (Keynote Lecture), 15th-17th May, pp. 15-26.

Chen, J., Young, B. and Uy, B. (2006) “High Strength Structural Steel at Elevated Temperatures”, International Symposium on Design and Application of High Performance Steel in Construction, 24 February 2006, Hong Kong, (Invited paper), pp. 45-57.

Chowdhury ,R. and Flentje, P. (2007) “Perspectives For The Future of Geotechnical Engineering”, Keynote Paper, Proceedings of the Conference, Civil Engineering For the New Mellenium,150 year anniversary conference of Bengal Engineering College, Shibpur, January 11-14, 2007, 20 Pages.

Dwight, R. A., McCarthy, T. J., Ferry, B. and Carew, A. (2006) “Providing a Context for First Year Engineering Students: A Report on Attempts at Course Inversion”, 17th Annual Conference of Australasian Association for Engineering Education, Auckland, New Zealand, Dec 10-13 2006, Editors: Gerard Rowe and Gillian Reid, ISBN 978-0-473-11881-5, Paper 27.

Favetta, M. and Sivakumar, M. (2007) “A Simple Greywater Treatment: Gravity Filtration”, Proc. Stormwater Industry Association Conference, Wollongong, Wollongong, 8 pages.

Flentje, P. and Chowdhury, R.N. (2006) “Observational Approach for Urban Landslide Management”, Engineering Geology for Tomorrow's Cities, The 10th International Association of Engineering Geology and the Environment (IAEG) Congress, Nottingham, United Kingdom, 6-10 September 2006.

Flentje, P., Stirling, D. and Chowdhury, R.N. (2007) “Landslide Susceptibility and Hazard Derived from a Landslide Inventory Using Data Mining – An Australian Case Study”, Proceedings of the First North American Landslide Conference, Landslides and Society, Integrated Science, Engineering, Management, and Mitigation, Vail, Colorado June 3-8, 2007, Paper number 17823-024, 10 pages (in CD-R).

Fatahi, B., Indraratna, B. and Khabbaz, H. (2007) “Analysing Soft Ground Improvement Caused by Tree Root Suction”, GeoDenver, Colorado GeoDenver, Colorado ASCE Special Publication, No. 173 (Edited by Olsen, H.W.), (in CD-R).

Fatahi, B., Indraratna, B. and Khabbaz, H. (2006) “Modelling of Soil Improvement Induced by Tree Root Suction”, Soft Ground Engineering Proceedings, Australian Geomechanics Society, Sydney, pp. 155-166.

Fyfe, J., Sivakumar, M, Hagare, D., and Jenkins, A. (2006) “Dynamic Variation of Supernatant Quality in a Dairy Shed Waste Stabilisation Pond System”, Proc. 7th IWA specialist Conference in Ponds Technology, Sept. 2006, AIT, Bangkok, Thailand.

Fyfe, J., Smalley, J., Hagare, D. and Sivakumar, M. (2006) “Physical and Hydrodynamic Characteristics of a Dairy Shed Waste Stabilisation Pond System”, Proc 7th IWA Specialist Conference in Ponds Technology, Sept. 2006, AIT, Bangkok, Thailand.

Hadi, M.N.S. (2007) “Eccentric Loafing of Externally Confined Fibre Reinforced Concrete Columns”, Progress in Mechanics of Structures and Materials. Proceedings of the 19th Australasian Conference on the Mechanics of Structures and Materials. Editors Peter J Moss and Rajesh P Dhakal. Christchurch, New Zealand, 29 Nov. – 1 Dec. 2006, pp. 63-68.

Hadi, M.N.S. (2006) “Eccentric Loading of FRP Wrapped Concrete Columns”, 7th International Congress on Advances in Civil Engineering, ACE 2006, Yildiz Technical University, October 11-13, 2006. Paper ACE-403, 10 pages.

Hadi, M.N.S. (2006) “Behaviour of FRP Wrapped HSC Concrete Columns under Eccentric Loading” Materials, Experimentation, Maintenance and Rehabilitation. Proceedings of the Tenth East Asia-Pacific Conference on Structural Engineering and Construction (EASEC-10). August 3-5, 2006, Bangkok, Thailand, pp. 785-790.

Hadi, M.N.S. (2006) “Behaviour of FRP Wrapped Concrete Columns under Eccentric Loading”, Concrete Solutions, Proceedings of the Second International Conference, BRE Press. Editors

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MG Grantham, RM Jauberthie and C Lanos, St Malo, Brittany, France. 27-29 June. Paper 17, pp. 131-137.

Hadi, M.N.S. (2006) “Fibre Reinforcing the Cover of Concrete Columns”, 1st International Structural Specialty Conference. 2006 Annual Conference of the Canadian Society for Civil Engineering. Calgary, Canada, 23-26 May 2006. Paper number ST131, 10 pages.

Hadi, M.N.S. (2006) “Behaviour of FRP Wrapped HSC Columns under Eccentric Loads”, 1st International Structural Specialty Conference. 2006 Annual Conference of the Canadian Society for Civil Engineering. Calgary, Canada 23-26 May 2006. Paper number ST130, 10 pages.

Indraratna, B., Rujikiatkamjorn, C. and Walker, R. (2007) “Radial Consolidation Theories and Numerical Analysis of Soft Soil Stabilisation via Prefabricated Vertical Drains”, International Workshop on Constitutive Modelling, Hong Kong, January 2007 (Edited by Yin, J.H., Li, X.S., Yeung, A.T. and Desai, C.S.), pp. 155-167.

Indraratna, B., Salim, W. and Rujikiatkamjorn, C. (2007) “Development and application of constitutive model for railway ballast”, Invited Theme Lecture and Panelist, International Workshop on Constitutive Modelling, Hong Kong, January 2007 (Edited by Yin, J.H., Li, X.S., Yeung, A.T. and Desai, C.S.), pp. 685-696.

Indraratna, B, Lackenby, J. and Shahin, M. (2007) “Cyclic Behavior of Railway Ballast for Modern Trains”’ 16th Southeast Asian Geotechnical Conference, Malaysia (May 8-11), Edited by Yee, K., Aun, T.O., Hui, T.W., Fatt, C.S., pp. 387-392.

Indraratna, B., Rujikiatkamjorn, C. and Chu, J. (2007) “Critical Review of Analyses in Soft Clay Stabilisation with Geosynthetic Vertical Drains beneath Road and Railway Embankments”, Invited Keynote Paper, GeoDenver, Colorado ASCE Special Publication, No. 173 (Edited by Olsen, H.W.) (in CD-R).

Indraratna, B., Rujikiatkamjorn, C. and Shahin, M. (2006) “Geotechnical Aspects of Rail Track Engineering”, Indian Geotechnical Conference, Chennai, December 2006.

Indraratna, B, Rujikiatkamjorn, C., Shahin, M., and Christie, D. (2006) “Soft Soil Stabilisation with Special Reference to Railway Embankments”, Proc. of 4th International Conference on Soft Soil Engineering, Vancouver, Canada, Taylor and Francis Publishers (Edited by D. Chan and K. T. Law), pp. 35-56.

Indraratna, B., Fatahi, B. and Khabbaz, H. (2006) “Numerical Prediction of Vadose Zone Behaviour Influenced by Vegetation”, 4th International Conference on Unsaturated Soils, Arizona (in CD-R).

Indraratna, B., Fatahi, B. and Khabbaz, H. (2006) “Parametric Study on Suction Effects Induced by Tree Roots”. Geo-Congress’2006, Atlanta (in CD-R).

Indraratna, B, Shahin, M., and Rujikiatkamjorn, C. (2006) “Stabilisation of Ballasted Rail Tracks and Underlying Soft Formation Soils with Geosynthetic Grids and Drains”, Geo-Shanghai 2006, China, ASCE Special Publication, No. 152 (Edited by Porbaha et al.) pp. 143-152.

Indraratna, B, and Rujikiatkamjorn, C. (2006) “Predictions and Performances of Prefabricated Vertical Drain Stabilised Soft Clay Foundations”, Symposium on Rigid Inclusions in Difficult Soft Soil Conditions (ISSMGE TC36), Mexico City (in CD-R).

Indraratna, B. and Fatahi, B. (2006) “Sensitivity Analysis to Examine Tree Root Effectiveness in Soft Ground Stabilisation”. Proceedings of 6th European Conference on Numerical Methods in Geotechnical Engineering, Graz, Austria (Edited by H.F Schweiger), pp. 735-742.

Indraratna, B. Khabbaz, H. and Rujikiatkamjorn, C. (2007) “Reconstruction Methods for Tsunami Affected Coastal Soils with Special Reference to Low-cost Dwellings and Rail Tracks”, Invited Special Lecture, 16th Southeast Asian Geotechnical Conference, Malaysia (May 8-11), Edited by Yee, K., Aun, T.O., Hui, T.W., Fatt, C.S. , pp. 211-220.

Indraratna, B, Shahin, M., and Salim, W. (2006) “A Study of Geotechnical Characteristics of Particulate Media in Rail Track Substructures”, International Symposium on Geomechanics and Geotechnics of Particulate Media, Yamaguchi, Japan, pp. 381-387.

Indraratna, B., Golab, A.N., Shahin, M. and Rujikiatkamjorn, C. (2006) “Developments in Geotechnical and Geo-environmental Research in Relation to Low-lying Floodplain Improvement, with Special Reference to Acidic Soil Improvement”, International Environmental Expertise Forum, Tanta, Egypt (in CD-R).

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Jalalifer, H., Aziz, N.I. and Hadi, M.N.S. (2006). “An Assessment of Load Transfer Mechanism Using the Instrumented Bolts”, Proc. 7th Underground Coal Operators Conference, Coal 2006, Wollongong, 5-7 July , (Eds., Aziz and Keilich), pp. 255-265.

Jalalifer, H., Aziz, N.I. and Hadi, M.N.S. (2006) “Bolt Failure Mechanism under Lateral Loading Conditions”, 2nd International Conference on Advances in Mineral Resources Management and Environmental Geotechnology, Hania, Greece, 25-27 September, pp. 397-405.

Kaewunruen, S. and Remennikov, A.M. (2006) “Post-failure Mechanism and Residual Load-Carrying Capacity of Railway Prestressed Concrete Sleepers under Hogging Moment”, Proceedings of the International Conference on Structural Integrity and Failure (SIF 2006), 27-29 September 2006, Sydney, pp. 331-336.

Kaewunruen, S. and Remennikov, A.M. “Laboratory Measurements of Dynamic Properties of Rail Pads Subjected to Incremental Preloads”, The 19th Australasian Conference on the Mechanics of Structures and Materials (ACMSM), Christchurch, New Zealand, November 2006, pp. 319-324.

Kaewunruen, S. and Remennikov, A.M. (2006) “Non-linear Finite Element Modelling of Railway Prestressed Concrete Sleepers”, Proceedings of the 10th East Asia-Pacific Conference on Structural Engineering and Construction, 3-5 August 2006, Bangkok, Vol. 4, pp. 323-328.

Kaewunruen, S. and Remennikov, A.M. (2006) “Rotational Capacity of Railway Prestressed Concrete Sleepers under Hogging Moment”, Proceedings of the 10th East Asia-Pacific Conference on Structural Engineering and Construction, 3-5 August 2006, Bangkok, Vol. 4, pp. 399-404.

Kaewunruen, S. and Remennikov, A.M. (2006) “Non-destructive Evaluation of Dynamic Integrity of Railway Track Structures”, Proceedings of the International Conference on Structural Integrity and Failure (SIF 2006), 27-29 September 2006, Sydney, pp. 294-299.

Keilich, W. and Aziz, N.I. (2007) “Numerical Modelling of Mining Induced Subsidence, 20th International Mining Congress of Turkey, Ankara, June 6-8, pp. 21- 32.

Keilich, W., Seedsman, R. and Aziz N.I. (2006) “Impacts of Longwall Mining to Rivers and Cliffs in the Southern Coalfield”, Proc. 7th Underground Coal Operators Conference, Coal 2006, Wollongong, 5-7 July, (Ed, Aziz and Keilich), pp. 313- 326.

Keilich, W., Seedsman, R. and Aziz N.I. (2006) “Numerical Modelling of Mining Induced Subsidence in Areas of High Topographical Relief”, Proc, 2nd International Conference on Advances in Mineral Resources Management and Environmental Geotechnology, Hania, Greece, 25-27 September, pp. 379-384.

Lemass, B. and Gardner, A. (2006) "Stranded Structural Analysis and Design: An Alternative Teaching Approach." 17th Annual Conference of Australasian Association for Engineering Education, Auckland, New Zealand, Dec 10-13, 2006, Editors: Gerard Rowe and Gillian Reid, Paper 75, ISBN 978-0-473-11881-5.

Liu, M.D., Carter, J.P., Horpibulsuk, S., and Liyanapathirana, D.S. (2006), “Modelling the Behaviour of Cemented Soft Clay”, Geo-Shanghai 2006: Ground modification and seismic mitigation, Shanghai, China, 2-4 June, 2006, pp. 65-72.

Lius, I., Bradford, M.A., Uy, B., Filonov, A. and Vrcelj, Z. (2006) “Shear Connection in Composite Secondary Beams with Trapezoidal Profiled Fibre Reinforced Concrete”, The 19th Australasian Conference on the Mechanics of Structures and Materials, 29 Nov. - 1 Dec. 2006, Christchurch New Zealand, pp. 95-101.

Liyanapathirana, D.S. and Poulos, H.G. (2006), “Pile Behaviour in Liquefying Soil”, GeoCongress 2006: Geotechnical Engineering in the information technology age, Atlanta, GA, 26 Feb. – 1 March, 2006, pp. 1-6.

Liyanapathirana, D.S., Carter, J.P. and Liu, M.D. (2006), “Numerical Modelling of Soft Ground Improved with Cement”, Geo-Shanghai 2006: Ground modification and seismic mitigation, Shanghai, China, 2-4 June, 2006, pp. 37-44.

Mowlaei, M.J., Sivakumar, M. and Hagare, D. (2006) “Performance Evaluation of a 5 Stage Onsite Nutrient Removal Process”, Proc. International Conference on Decentralised Water and Wastewater Systems, International Water Association (IWA), July 2006, Perth, Australia.

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Nemcik, J.A. , Gale, W.J. and Fabjanczyk, M.W. (2006) “Methods of Interpreting Ground Stress Based on Underground Stress Measurements and Numerical Modelling”, Coal 2006, 7th Underground Coal Operators Conference, University of Wollongong, Australia 5-7 July 2006, pp. 104 -112.

Nghiem, L.D. and Khan, S.J. (2007) “Effects of Operating Conditions on Removal of Trace Organic Contaminants by Nnanofiltration Membranes”, AWA Membranes Specialty Conference II, February 2007. Melbourne, Australia.

Palamara D.R., Brassington G., Flentje P. and Baafi E. (2006) “High-resolution Topographic Data for Subsidence Impact Assessment and SMP Preparation: Methods and Considerations”, Coal 2006: 7th Underground Coal Operators’ Conference. University of Wollongong, 5-7 July 2006, pp. 276-292.

Raha, D. and Sivakumar, M. (2006) “Measuring Water Pollution from Chemical Industries in Economic and Environmental Terms”, Proc. 59th Indian Chemical Engineers Congress (in conjunction with Canadian Society of Chemical Engineers), Dec. 2006, Gujarat, India.

Raha, D. and Sivakumar, M. (2006) “Performance of Artificial Intelligence Models in Forecasting Effluent Total Suspended Solids for Primary”, Chemically Assisted Primary, Activated Sludge and Advanced Biological Nutrient Removal Sewage Treatment Plants, Proc. 59th Indian Chemical Engineers Congress (in conjunction with Canadian Society of Chemical Engineers), Dec. 2006, Gujarat, India.

Remennikov, A.M. and Rose, T.A. (2006) “An Engineering-level Tool for Predicting Air Blast Loads behind Blast Perimeter Barriers and Their Effectiveness”, Recent Advances in Security Technology, Proceedings of the 2006 RNSA Security Technology Conference, Canberra, September 2006, pp. 65-75.

Remennikov, A.M. and P. Mendis (2006) “Prediction of Air Blast Loads in Complex Environments Using Artificial Neural Networks”, 9th International Conference on Structures Under Shock and Impact, SUSI 2006, 3-5 July, The New Forest, UK, pp. 269-278.

Remennikov, A.M. and Kaewunruen, S. (2006) “Deterioration of Dynamic Rail Pad Characteristics”, Conference on Railway Engineering (CORE 2006), Melbourne, 30 April-3 May 2006, pp. 185-190.

Remennikov, A.M. and Kaewunruen, S. (2006) “Impact Resistance of Reinforced Concrete Columns: Experimental Studies and Design Considerations”, The 19th Australasian Conference on the Mechanics of Structures and Materials (ACMSM), Christchurch, New Zealand, pp. 817-823.

Reynolds, S, Boyd, M, Sivakumar, M and Muston, M. (2006) “Perceptions of Environmental Impact Assessment in New South Wales”, Victoria and Tasmania, Proc. ERE06 Conference, Dec 2006, Sydney, Australia.

Rujikiatkamjorn, C. and Indraratna, B. (2006) “Improvement of Soft Clays Using Vacuum-Assisted Consolidation Method”, Geo-Congress’2006, Atlanta (in CD-R).

Rujikiatkamjorn, C. and Indraratna, B. (2006) “Performances and Predictions of Soft Clays Behaviour under Vacuum Condition”, Soft Ground Engineering Proceedings, Australian Geomechanics Society, Sydney, pp. 179-194.

Rujikiatkamjorn, C. and Indraratna, B. (2006) “Three-Dimensional Numerical Modelling of Soft Soil Consolidation Improved by Prefabricated Vertical Drains”, Geo-Shanghai 2006, China, ASCE Special Publication, No. 152 (Edited by Porbaha et al.) pp. 161-168.

Rujikiatkamjorn, C. and Indraratna, B. (2007) “Analysis of Radial Vacuum-assisted Consolidation Using 3D Finite Element Method”, GeoDenver, Colorado ASCE Special Publication, No. 173 (Edited by Olsen, H.W.), (in CD-R).

Rujikiatkamjorn, C. and Indraratna, B. (2006) “Elastic Visco-Plastic Consolidation Modelling of Soft Clays Improved by Geosynthetic Vertical Drains”, 8th International Conference on Geosynthetics, Yokohama, Japan, pp. 439-443.

Shahin, M. and Indraratna, B. (2006) “Parametric Study on the Resilient Response of Ballasted Railway Track Using Numerical Modelling”, Geo-Congress’2006, Atlanta (in CD-R).

Sen, G.C. and Hossaini, S.M.F. (2006), "Ground Vibrations Arising from Using Two Types of Explosives - A Comparative Study", Proceedings of 7th Underground Coal Operators Conference, AusIMM, Wollongong, July 2006, pp. 349 - 356;

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Sivakumar, M., Bunsri. T. and Hagare, D. (2006) ”Numerical Modelling of Contaminant Transport in Unsaturated Porous Media”, Proc. 11th Asian Congress on Fluid Mechanics, May 2006, Kuala Lumpur, Malaysia.

Sivakumar, M., Diassanayake, K., Godbole, A. and Hawkins, P. (2006) Flow processes at an Open Channel Junction, Proc 11th Asian Congress on Fluid Mechanics, May 2006, Kuala Lumpur, Malaysia.

Sivakumar, M. and Immamjomeh M.M. (2006) “Speciation and Mechanisms of Defluoridation by an Electrochemical Method”, Proc. 2nd International Conference, Advanced Technology in the Environmental Field, International Association for Science and Technology for Development (IAESTD), Feb. 2006, Lanzorate, Spain.

Sivakumar, M. and Favetta, M. (2007) “Greywater Treatment Using Direct Gravity Filtration”, Proc. Biennial Federal Convention of AWA, Ozwater2007, Sydney, Australia.

Tadkaew, N., Sivakumar, M. and Nghiem, L.D. (2006) “Membrane Bioreactor Technology for Decentralised Wastewater Treatment and Reuse”, Environmental Research Event Conference Dec. 2006. Sydney, Australia.

Tan, E.L., Uy, B. and Bradford, M.A. (2006) “The Effects of Partial Shear Connection on Composite Steel-Concrete Beam Behaviour under Combined Flexure and Torsion”, ASCCS’2006 8th International Conference on Steel-Concrete Composite and Hybrid Structures, 12th-15th August 2006, Lian-tong Hub of Communication, Harbin, China, pp. 404-410, (Part of Special Issue of Steel Construction Editorial Magazine, Volume 21 Supplement, 2006, ISSN 1007-9963).

Tie, L. and Sivakumar, M. (2006) “Dairy Shed Wastewater Treatment by Anaerobic Digestion Technology”, Proc. ERE06 Conference, Dec. 2006, Sydney, Australia.

Tie, L. and Sivakumar, M. (2007) “Modelling Bioreactor Treating Dairy Shed Wastewater”, Proc. Biennial Federal Convention of AWA, Ozwater2007, Sydney, Australia.

Tie, L. and Sivakumar, M. (2007) “Dairy Shed Wastewater Treatment Using Anaerobic Bioreactors”, Proc. Biennial Federal Convention of AWA, Ozwater2007, Sydney, Australia.

Uy, B. (2006) “Successful Applications of High Strength Steel in Australia and Design Using High Strength Steel”, International Symposium on Design and Application of High Performance Steel in Construction, 24 February 2006, Hong Kong (Invited paper), pp. 1-17.

Uy, B. (2006) “Novel Composite Steel-Concrete Structural Systems Incorporating High Performance Materials: Applications, Behaviour and Design”, The 9th International Symposium on Structural Engineering for Young Experts, August 18-21 2006, Fuzhou & Xiamen, China, (Keynote lecture), pp. 11-20.

Uy, B. (2006) “The Use of Composite Steel-Concrete Construction & High Strength Steel for Industrialised Building Systems in Australia”, APSEC, Kuala-Lumpur, Malaysia, 4-6 September, (Keynote lecture), ISBN 983-42613-1-4 (in CD-R).

Uy, B. (2006) “Behaviour and Design of Concrete Filled Steel Columns Incorporating Special Steels”, Symposium on Tubular Structures, 15 May 2006, organized by ACEM (Association of Consulting Engineers, Malaysia) and supported by MSSA and IEM (Invited paper).

Uy, B. (2006) “Advances in Steel and Composite Structures in Australia: Applications, Design and Research”, International Symposium on Advances in Steel and Composite Structures, NTU, 19 May 2006 Organized by: Centre for Advanced Construction Studies, School of Civil and Environmental Engineering, Nanyang Technological University, Supported by: Building and Construction Authority (BCA), Singapore Structural Steel Society, Sponsored by: Corus South East Asia and Continental Steel, pp. 18-35.

Uy, B. (2006) “A Treatise on Some Recent Findings into the Effects of Partial Interaction and Partial Shear Connection in Composite Steel-Concrete Elements”, Professor Aribert Retirement Symposium, INSA de Rennes, July 3-5, Rennes, France (Invited paper).

Uy, B. (2006) The Australian Codes of Practice for the Design of Steel Structures, International Symposium on Worldwide Trends in Codified Design of Steel Structures 2006, 2-3 October 2006, Jointly organized by: Centre for Infrastructure Systems, Nanyang Technological University, Singapore Building and Construction Authority, Singapore Structural Steel Society, (Invited paper), pp. 167-186.

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Uy, B. (2006) “The Australian Codes of Practice for the Design of Steel Structures”, Association of Consulting Engineers Malaysia, International Symposium on Worldwide Trend and Development in Codified Design of Steel Structures, Kuala Lumpur, 5 - 6 October 2006, (Invited paper), pp. 46-65.

Uy, B. (2006) “High Performance Steels and their Use in Steel and Steel-Concrete Structures”, Innovative Structural Materials and Systems, Proceeding of the 1st International Forum on Advances in Structural Engineering, 12-13 November 2006 at Tsinghua University, Beijing, (Invited paper), pp. 296-313.

Uy, B., Becher, L. and Wu, J. (2006) “The Effects of Steel Fibre Reinforcement on the Strength of Shear Stud Connectors for Composite Steel-Concrete Construction”, 8th International Conference on Steel, Space and Composite Structures, Kuala Lumpur, Malaysia, 15th-17th May, pp. 549-556.

Uy, B. and Tuem, H.S. (2006) “Behaviour and Design of Composite Steel-Concrete Beams under Combined Actions”, ASCCS’2006, 8th International Conference on Steel-Concrete Composite and Hybrid Structures, 12th-15th August 2006, Lian-tong Hub of Communication, Harbin, China, (Part of Special Issue of Steel Construction Editorial Magazine, Volume 21 Supplement, 2006) pp. 286-291.

Uy, B. (2006) “Stability and Ductility of High Performance Steel Sections with Concrete Infill”, International Colloquium on Stability and Ductility of Steel Structures (SDSS’06), Lisbon, Portugal, September 6-8, 2006, pp. 993-1000.

Uy, B. (2006) “Behaviour and Design of High Performance Steel Sections with Concrete Infill Subjected to Abnormal Loading”, The 19th Australasian Conference on the Mechanics of Structures and Materials, 29 Nov. - 1 Dec. 2006, Christchurch New Zealand, pp. 127-132.

Vogel, D., Bilitewski, B. and Nghiem, L.D. (2006) “Membrane Fouling in the Nanofiltration of Landfill Leachate and Its Impact on Trace Contaminant Removal”, Environmental Research Event. 2006. Sydney, Australia.

Vyas, D., Aziz, N.I., Caladine, R. and Tome, L. (2006) “A Website on Coal and Gas Outburst Management”, Proc. 7th Uderground Coal Operators Conference, Coal 2006, Wollongong, 5-7 July, (Eds, Aziz and Keilich), pp. 231-235.

Ward, K. and McCarthy, T.J. (2006) “Fitness Evaluation for Structural Optimisation Genetic Algorithms Using Neural Networks”, 5th International Conference on Engineering Computational Technology, Las Palmas, Spain, 12-15 Sept 2006, B. H. V. Topping Ed., Publ. Civil Comp Press, Stirling, Paper 91, 11 pages.

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