fichtner wind presentation
DESCRIPTION
fitchnerTRANSCRIPT
-
Wind Power Projects
mer Emre [email protected]
-
Agenda
FICHTNERs Presentation Introduction and History of Wind Wind Market in Turkey and in Europe Introduction to Aerodynamics of Wind Turbines Wind Measurements Wind Measurements Wind Resource Assessment Components of a Wind Turbine Installation and Operation of WPPs Environmental Aspects of WPPs Financial Aspects of WPPs Selected References
-
FICHTNER Independent Engineering and Consulting
Germanys biggest independent engineering and consultancy company
Founded in 1922 and 100% family owned since then
Staff strength:Home office (Stuttgart) ca. 450Total ca. 1,800
Turn-over 2010: Home office: 133 million EURTotal: 201 million EUR
On a global level FICHTNER takes part in approximately 1,200 projects On a global level FICHTNER takes part in approximately 1,200 projects with an overall investment volume of around 60 billion EUR.FICHTNER is represented in more than 50 countries worldwide.
-
FICHTNER Turkey FICHTNER group has been working on various
projects in Turkey for more than 40 years. FICHTNER Turkey was established as a branch
of FICHTNER in Istanbul in July 2008. Completed numerous projects
mainly in the private sector Brought together experienced international
experts with local engineers/consultants toexperts with local engineers/consultants towork on the most important projects of Turkey
Vision of FICHTNER Turkey: Becoming indispensable in energy sector by providing optimum solutions
through turnkey services to its customers Provide state-of-the art engineering and technical services to meet our
costomers needs in growing energy market Permanent educational training of our personnel to keep our leading position
on an international level
-
FICHTNER Turkeys Strength
2 fully operating offices (one in Istanbul, the other in Ankara) with about 30 permanent staff members.
Combines Turkish expertise on local, regional and economical and political aspects with German know-how by working with a mixed permanent team in Turkey.
Internationally recognized in its activities, specifically on: Due diligence reports and lenders engineering services Studies from first site review up to detailed design Site supervision Assessment of operational processes
Up-to-date with all national and international performance standards (i.e. IFC, Equator Principles, etc.)
Excellent reputation among international finance institutions and banks (The World Bank, IFC, KfW, EIB, EBRD, TSKB) as well as commercial banks ( Bankas, Garanti Bankas, DenizBank, LBBW, ABN, AMRO, Deutsche Bank ...)
Ability to use all the know-how gained internationally in the worldwide FICHTNER Group for any specific project
-
Our Clients
Private investorsPrivate investors
Development banksDevelopment banks
Energy utilitiesEnergy utilitiesCommercial banksCommercial banks
AssociationsAssociations
Development banksDevelopment banks
Government institutionsGovernment institutions
Municipal utilitiesMunicipal utilities
IndustryIndustry
-
FICHTNERs Services
Hydropower
Wind Power
Solar Power: PV & CSP
Environmental Management
Climate ProtectionCO2
CH4
N2O
SF6
PFC
HFC
Biomass
Desalination
Privatization
Energy Efficiency
Geothermal Power
Thermal Power
0
100
200
300
400
500
600
700
800
900
2000 2001 2002 2003 2004 2005 Aug. 2006
G
e
s
a
m
t
e
i
n
s
t
a
l
l
i
e
r
t
e
e
l
e
k
t
r
i
s
c
h
e
L
e
i
s
t
u
n
g
i
n
M
W
Information Technologies
Desalination
Waste Management
Management Consulting
Water and Infrastructure
-
Introduction and History of Wind
1890-Denmark, Paul la Cour was first to discover the fast rotating turbines with fewer blades were more efficient in electricity generation 1927-US, Jacobs brother started producing wind turbine generators 1920s, first vertical axis wind turbine, Darrieus turbine was invented by George Darrieus 1980-US, first wind farm in the worldconsisting of 20 turbines
-
Introduction and History of Wind
Another vertical axis turbine is Savonius Less efficient but economic and compact Low noise
-
Introduction and History of Wind
One, two and three bladed concepts for horizontal axis Three bladed is known as Danish concept
-
Wind Market in Turkey and in the WorldBiggest players in the World Wind Market by 2010
-
Wind Market in Turkey and in the WorldBiggest players in the World Wind Market by 2010
Country Capacity (MW)China 41800USA 40200Germany 27214Spain 20676Spain 20676India 13065Italy 5797France 5660UK 5204Canada 4008Denmark 3752Turkey 1329
-
Wind Market in Turkey and in the World
Installed capacity (MW) in terms of energy source (end of 2010)
Natural Gas 33-34 %Coal 23-24 %Hydro 32 %Wind 3 %
-
Wind Market in Turkey and in the World
Electricity Production (GWh) in terms of energy source (end of 2010)
Doal Gaz45,9%
Kmr 17,94%
Source (GWh)Natural Gas 96470Coal 37700Hydro 51500
Hidro24,5%
Ithal Kmr6,89%
Sv Akaryakt2,43%
Rzgar-Jeotermal-Atk-Dier RES
1,84%
Dierleri0,5%
Import Coal 14490Liquid gas 5100WindGeothermalBiogas 3870Other 1040Total 210180
-
Wind Market in Turkey and in the World
Source PotentialUnder
ConstructionIn Operation
Hydro 35.000 MW 8.265MW 15.729 MW
Renewable Energy Potential inTurkey
Wind 48.000 MW 636 MW 1.246 MW
Solar 380 bi kWh/a - -
Geothermal 600 MW 20 MW 77 MW
Biomass 200 MW 15 MW 81.2 MW
-
Wind Market in Turkey and in the World
Wind Power inTurkey
-
Wind Market in Turkey and in the World
Wind Power inTurkey
Year Capacity (MW)2001 192002 192003 212004 212004 212005 202006 652007 2072008 3332009 8012010 1329
-
Wind Market in Turkey and in the World
Wind Power inTurkey
According to Elektrik Enerjisi Piyasas ve Arz Gvenlii Strateji Belgesi datedto 18.05.2009:
Minimum 30% from renewable energy sources 20000 MW of wind
-
Wind Market in Turkey and in the World
Top 10 Manufacturers in the World by 2011 Vestas
GE Sinovel Enercon Enercon
Goldwind Gamesa Dongfang Suzlon Siemens RE Power
-
Introduction to Aerodynamics of Wind Turbines
Kinetic energy in the wind is defined by:
wherewhere
E= energy in wind in joulesm= mass of air passing through the swept area in kgv= velocity of air in m/s
-
Introduction to Aerodynamics of Wind Turbines
Capacity Factor
Is the ratio of the actual output of a power plant over a period of time and its potential output if it had operated at full capacity the entire time
Around 30-40 % for the wind power plants in Turkey
-
Wind Measurements
Meteorological Mast consists of: Anemometers
Wind vanes Temperature sensor Barometric sensor Barometric sensor
Data logger
-
Wind Measurements
anemometers
wind vanes
data loggertemperaturehumiditysensor
-
Wind Measurements-Anemometers
Cup Anemometers
-
Wind Measurements-Anemometers
Cup Anemometers
-
Wind Measurements-Wind Vanes
-
Wind Measurements-Data Logger
-
Wind Resource Assessment
Wind is generated by the uneven heating of the earth surface Larger amount of solar radiation is absorbed compared to the poles Hot air rises at the tropics and flow towards the poles The Coriolis force causes the flow of hot air in the upper atmosphere to turn rightatmosphere to turn right
-
Wind Resource Assessment
-
Wind Resource Assessment - Statistics
k: shape parameterA: scale parameter
-
Wind Resource Assessment
-
Wind Resource Assessment
Preliminary assessmentalternative sites are evaluated based on wind resource maps
Onsite wind measurement for at least one year
Spatial and temporal extrapolation
Annual Energty Production (AEP) including uncertainties and losses
Output of the AEP calculation goes into the financial model
-
Wind Resource Assessment
Wind Atlas Methodology
-
Wind Resource Assessment
Source of wind data: On site measurements Weather stations
Numerical weather models NCEP and NCAR NCEP and NCAR NARR
ECMWF
-
Wind Resource Assessment
Resource Estimation Models:Microscale models
WasP
WindPro WindFarmer WindFarmer
-
Wind Resource Assessment
Resource Estimation Models:Microscale models
Scale of applicability is in the order of 100 km Regional wind climate is generated from the on site measurementsmeasurements
Inputs:ObstaclesRoughnessOrography
Wind resource and wind resource map
-
Wind Resource Assessment
Wind Rose
-
Wind Resource Assessment
Wind Profile
-
Wind Resource Assessment
Weibull Distribution and Power Curve
-
Wind Resource Assessment
Wind Resource Map
-
Wind Resource Assessment
Wind Resource Map
-
Wind Resource Assessment
Wind Turbines Micrositing
-
Wind Resource Assessment
Uncertainty Calculation
Uncertainty Conditions
Uncertainty of energy yield (%) Comment
Uncertainty of wind measurement equipments and meteorological data
Data losses and failures 9
Long Term Correlation 9
Uncertainty of wind measurement equipment, meteorological data and correlation model and long term correlation.
Long Term Correlation 9
Anemometer Calibration 3
Mast Influence 3
Uncertainty of meteorological data implementation to wind park location
Air Flow Model 5
Uncertainty of description of complex terrain, air flow model and wake effect.
Terrain Description 6
Park Efficiency Model 4
Uncertainty of wind turbine characteristics
WEC Power Curve 5 Uncertainty of WEC characteristic.
Total Uncertainty: 16.79
-
Wind Resource Assessment
Loss EstimationLoss mechanism approx. Comment
Grid loss 2.0% Assumption
Availability of the Wind Turbines 3.0% Assumption
Maintenance 1.0% Assumption
Grid availability 0.4% Assumption
Cut-out wind speed 0.0%Included in calculation
Icing / rotor blade degradation 0.6% Data
Total 7.0%
-
Wind Resource Assessment
P50-P75-P90 values are computed Economical basis of the project Uncertainty calculation is very important Uncertainty calculation is very important 12-20 % uncertainty in energy yield
-
Components of a Wind Turbine
Rotor and HubNacelle
Tower and Foundations
-
Components of a Wind Turbine
Rotor
-
Installation and Operation of Wind Power Plants
Access roads and internal roads Foundation and base ring Tower in three or four pieces Nacelle
Hub Hub Rotor
-
Installation and Operation of Wind Power Plants Delivery to the Port
-
Installation and Operation of Wind Power Plants Delivery to the Port
-
Installation and Operation of Wind Power Plants Delivery to the Port
-
Installation and Operation of Wind Power Plants Unloading
-
Installation and Operation of Wind Power Plants Unloading
-
Installation and Operation of Wind Power Plants Unloading
-
Installation and Operation of Wind Power Plants Unloading
-
Installation and Operation of Wind Power Plants Access Roads
-
Installation and Operation of Wind Power Plants Transportation
-
Installation and Operation of Wind Power Plants Transportation
-
Installation and Operation of Wind Power Plants Transportation
-
Installation and Operation of Wind Power Plants Transportation
-
Installation and Operation of Wind Power Plants Foundation
-
Installation and Operation of Wind Power Plants Foundation
-
Installation and Operation of Wind Power Plants Tower
-
Installation and Operation of Wind Power Plants Tower
-
Installation and Operation of Wind Power Plants Tower
-
Installation and Operation of Wind Power Plants Tower
-
Installation and Operation of Wind Power Plants Tower
-
Installation and Operation of Wind Power Plants Tower
-
Installation and Operation of Wind Power Plants Nacelle
-
Installation and Operation of Wind Power Plants Nacelle
-
Installation and Operation of Wind Power Plants Rotor Assembly
-
Installation and Operation of Wind Power Plants Rotor Assembly
-
Installation and Operation of Wind Power Plants Rotor Assembly
-
Installation and Operation of Wind Power Plants Rotor Assembly
-
Installation and Operation of Wind Power Plants Rotor Assembly
-
Installation and Operation of Wind Power Plants Rotor Assembly
-
Installation and Operation of Wind Power Plants Wind Farm
-
Installation and Operation of Wind Power Plants Switchyard
-
Environmental and Social Aspects of Wind Power
Noise impacts Impacts on bird species Aesthetical impacts Possible stakeholder displeasure Electromagnetic interference problems Electromagnetic interference problems Health and safety considerations Possible interaction with a sensitive site
-
Environmental Services for Wind Power Projects Environmental and Social Due Dilligence (DD) Studies Environmental Monitoring & Audits (during pre-construction, construction and operation) Environmental Risk, Sustainability and Vulnerability Analyses International Environmental and Social Impact Assessment (ESIA) Studies International Environmental and Social Impact Assessment (ESIA) Studies Public Consultation Activities Resettlement Action Plans (RAP) Environmental and Social Management Monitoring Plans (ESMP) Health & Safety Management
-
Environmental Services for Wind Power Projects
Equator Principles are linked with IFC Performance Standards
Most international financial institutions have adopted the Equator Principles
Situation with Turkish Banks either the bank has high environmental standards (consideration of either the bank has high environmental standards (consideration of
National+International Standards) or there is an international financing institution involved in the financing which
makes consideration of international standards necessary
FICHTNER has wide experience in all national and international standards like Equator Principles, IFC Performance Standards, EBRD Standards and EIB Procedures.
-
VER Project Development & CO2 Trading
CO2 Trading
is an additional cashflow,
increases the financial feasibility of the project,
increases the credibility of the project (good indicator for the technical, environmental and social aspects of the project)
helps to solve the problems during project financing
-
VER Project Development & CO2 TradingFICHTNER
has experience all over the world in development of projects under various VER standards like Gold Standard, VCS, VER+, Social Carbon..
does turnkey project development from development of the project does turnkey project development from development of the project documentation till selling of VER credits
gives assistance during VER trading, finding possible buyers
-
Fichtners Experience in CO2 Trading Services
Kazakhstan
Mexico
Mongolia
China
VietnamThailandLaos
IndiaPakistan
Iran
RussiaPoland
Turkey
BelarusUkraine
UAE
Kazakhstan
Saudi Arabia
Egypt
SlovakiaRomaniaBulgariaMoldovaSloveniaCroatiaBosnia-HerzegovinaAlbaniaMacedoniaCzech RepublicKosovo
Nicaragua
Brazil
Uruguay
ParaguayBolivia
Peru
Ecuador
South Africa
Botswana
DR Kongo
Indonesia
MalaysiaVietnamThailand
Mozambique
GeorgiaArmeniaAzerbaijan
UgandaZambia
Australia
Kenya
Legend:Fichtner CDM / JI / VER Projects Fichtner Branches / Project Offices
Liberia
KosovoGreece
For more information : www.co2-info.comwww.fichtner.com.trwww.fichtner.de
-
Financial Aspects of Wind Power Plants - CAPEXCapital Costs % of TIC $ per kW
Equipment Costs
Nacelle 44.76 895
Blades 10.48 210
Towers 11.60 232
Transportation 8.01 160
Equipment Total 74.85 $1497
Balance of Plant
Materials
Construction 10.82 216
Transformer 1.22 24
Electrical 1.29 26
Total project cost:
1.4 million Euro per MWfor USA and Europe around 1 million Euro per Electrical 1.29 26
HV line extension 2.36 47
Materials Subtotal 15.68 $314
Labor
Foundation 0.62 12
Erection 0.70 14
Electrical 1.02 20
Management/Supervision 0.53 11
Misc. 3.80 76
Labor Subtotal 6.67 $133
Development/Other Costs
HV Internconnection 0.97 20
Engineering 1.01 5
Legal Services 0.55 20
Site certificate 0.26 11
Development/Other Subtotal 2.79 56
Balance of Plant Total 25.15 $503
Total 100.00 $2000
around 1 million Euro per MW for Turkey
-
Financial Aspects of Wind Power Plants - OPEX
Operations and Maintenance Costs % of TIC $ per kW
Labor/Personnel
Field salaries 14.30 2.86
Administrative 2.30 0.46
Management 5.70 1.14
Labor/Personnel Subtotal 22.30 $4.47
Materials and ServicesMaterials and Services
Vehicles 2.20 0.44
Site maintenance 0.90 0.17
Fees, etc. 0.40 0.09
Utilities 1.70 0.35
Insurance 16.60 3.33
Fuel 0.90 0.17
Consumables 5.60 1.13
Spare parts 49.30 9.86
Materials/Services Subtotal 77.70 15.53
Total 100.00 $20
-
Wind Resource Assessment
Risks:
Correct energy yield calculationUncertainty calculationAccurate modelingAccurate modelingWind data assessment
Selection of the correct wind turbine Micrositing Operation and Maintenance Agreements
-
Lenders Engineering for 24 MW & 120 MW Wind FarmLenders Engineering Services for the 24 MW Kemerburgaz and 120 MW Karaburun Wind Parks, Turkey
For an international investor group interested in financing the existing Kemerburgaz and projected Karaburun wind parks, FICHTNER performs the following LE services:
Contractors' design and contracts review for all project components:- Wind energy converters
Ankara
Istanbul
Ankara
Istanbul24 MWKemerburgaz Wind Farm
- Wind energy converters- Access roads and crane platforms- Internal cabling- Grid connection
Verification and calculation of energy losses for wind farm and grid connection
Control and comment on provided time schedules and integration
Determination of project risks and classification
Construction supervision for Karaburun Wind Park on behalf of Lenders
Client: Confidential
Project data: 120 MW - 60 x 2 MW WECs
Period: 11.2008 - ongoing
120 MWKaraburun Wind Farm
7353P01
-
Lenders Engineering for 24 MW Wind FarmWind and energy yield assessment report for 24 MW Turguttepe Wind Farm, Western Anatolia region, Turkey
FICHTNER prepared a wind and energy yield assessment study for a lender. The scope of works included: Site visit and inspection of wind
meteorological mast and instrumentation according to MEASNET/IEC Standards
Roughness, obstacle and orography Roughness, obstacle and orography definition and verification of project area and surroundings
Completeness and integrity of data collection, validation and verification with long term correlation using MCP methods
Classification of wind park according to IEC standards
Assessment of energy yield for whole wind park and each WEC locations including pre-micrositing study
Wind Farm Performance: Uncertainty and loss calculation, efficiency and capacity factors, probability of exceedance analysis
Client: Confidential
Project Data: 24 MW 4constellations
Period: 12.2009 - 01.2010
7446P01
-
Lenders Engineering for 34 MW Wind FarmDue Diligence services for 34 MW Wind Farm, Marmara Region, North Western Anatolia, Turkey
FICHTNER prepared Due Diligence study on a wind farm for a group of lenders. The study was prepared for a 34 MW wind farm located in Marmara Region of Turkey. The scope of works include: Assessment of energy output per single
gauging position, and execution of pre-gauging position, and execution of pre-micrositing procedures
Wind farm performance, efficiency factors, and capacity factors for several WEC positions according to the given specifications
Environmental and permitting review Financial model review Technology and contracts (WECs and BoP)
review
Client: Confidential
Project Data: 34 MW - 2 constellations
Period: 09.2010 - ongoing
7477P02
-
Lenders Engineering Services for 4 HEPPsLenders Engineering Services for 4 HEPP projects, Turkey
All four HEPPs are located in the Black Sea Region of Northern Turkey with an installed capacity of 68 MW and 232 GWh/a. The works include technical review of 4 HEPP projects which were already under construction:
Technical review of the construction planning Technical review of the construction planning including hydrology, topography, geology and geotechnics, environmental and social aspects, E&M equipment, energy, contracts and licenses as well as expenses
Quarterly construction follow up reports Client: Isbank & TSKB, Istanbul, Turkey
Project data: 68 MW
Period: 10.2009 - 09.2010
7425P01
-
Lenders Engineering Services for 10 HEPPsLenders Engineering Services for 10 HEPP projects with 144 MW total capacity to be installed, Turkey
The general scope of work can be outlined as follows:
The compliance of the tender process with investors procurement, policies and rules
The compliance with the project implementation plan prepared by investorimplementation plan prepared by investor
Site visits and reviews of all documents A structured and comprehensive approach to
risk management Site geology, hydrology and design review Review of environmental impact assessment Review of EPC contract Recommended amount of contingent support Power purchase agreement, grid connection Operation and maintenance cost Review of input data for financial model Approvals and permits Project implementation Consistency of project documents Reports and process
Client: LBBW Stuttgart,Germany;Nisan Elektromekanik Enerji, Ankara, Turkey
Project Data: 144 MW
Period: 03.2008 - 04.2009
7286P01
-
Arkun Dam and HEPP ProjectTechnical and Environmental Advisory Servicesfor Arkun Dam and HEPP Project, Turkey
FICHTNER provides Lenders Engineering services in prior & post financial close phases. Services provided in prior financial close are:
Identifyication of project risks Review of hydrology/geology, sedimentation, E&M
equipment, hydraulic structures, dam design and layout, reservoir operation scheme, annual energy layout, reservoir operation scheme, annual energy generation, CAPEX & OPEX, project schedule, project agreements and permits, grid connection, financial aspects,
Review of environmental and social documentation in terms of compliance with GIIP, Equator Principles and IFC Performance Standards.Services provided in post financial close are:
Review of construction process, Technical input for waiver and amendment
requests, Assessment of the status and compliance with
the environmental, social, health and safety requirements
Client: EnerjiSA & Yapkredi
Project data: 236 MW
Period: 06.2010 - ongoing
7533A01
-
Energy Efficiency and Renewable Energy Financing FacilityAssist EIB with the implementation of Energy Energy Efficiency Financing Facility 2007.
The technical assistance to be provided under this framework agreement covers the following three areas:
Assisting the Finance Institution in screening financial proposals (sub-projects) for eligibility and prepare sub-project applications that and prepare sub-project applications that describe the projects feasibility, confirm its eligibility and in general justify the use of funding under the EEFF 2007.
Prepare an energy audit or a feasibility study/investment proposal upon request of the financial intermediary or the EIB.
After the implementation of each sub-project, verify the results against the sub-project applications.
Client: EIB
Project Data: Framework agreement amount ; 2 Million EUR
Period: 05.2010 - ongoing
6739A02
-
Kuadas Regional Solid Waste ManagementTechnical Assistance and Supervision Services for the Kuadas Regional Solid Waste Management Project, Turkey
Technical assistance to Solid Waste Management Project for the Ku-Atak Municipal Union project includes the supervision of the construction of a new sanitary landfill, a pilot composting plant, recycling plants in each municipalities, collection systems for recyclables and MSW collection equipment and the rehabilitation and MSW collection equipment and the rehabilitation of existing dumpsites.
The service contract has four main components:
Project Implementation and Construction Supervision
Technical Assistance regarding Closure and Rehabilitation of the Existing and Old Dumpsites
Capacity Building Program to the Ku-Atak Municipal Union
Assistance in Tendering Service Contracts to the Ku-Atak Municipal Union and technical support to the PIU and the CFCU
Client: CFCU (Central Finance andContract Unit), Ku-Atak Union, MoEF, ECD Turkey, Bank of Provinces
Project Data: 1.5 million m3 cap., 36 ha
Period: 2006 - 2009
7213A01
-
Water Supply and Wastewater ManagementPriority Projects on Water and Wastewater Management, Northern Cyprus
The EU has been funding several municipal water and sanitation projects in Northern Cyprus. The project tasks consisted of updating master plans as well as preparing designs and tender documents (FIDIC Red &Yellow Book and EC PRAG Rules) for a number of investments in the water supply and wastewater sector.
These investments covered 5 wastewater These investments covered 5 wastewater treatment plants and one desalination plant. Moreover, potable water network replacement and sewerage extension projects were required as a complementary part of above mentioned investments.
The scope of services provided by FICHTNER include:
Topographic survey and subsoil investigations Geotechnical calculations Hydrographic/oceanographic studies and hydraulic
analyses Environmental Impact Assessment Site selection and detailed engineering design Tender document preparation and tendering Training
Client: The European Commission Financial Unit, Brussels, Belgium
Project Data: Sewerage network area of 1,450 ha 5 WWTPs with capacity of 3,000 -45,000 m3/day
Desalination plant with capacity of 25,000 m3/day
Period: 03.2008 - 12.20096910F01
-
Due DiligenceIskenderun 2 x 605 MW Coal-Fired Power Plant, Turkey
Appraisal of contracts: FSTA, PPA, EPC, O&M, coal haulage agreements
Expert review of environmental impact assessment
Appraisal of technical concept
Review of permit documents, time schedules and principal suppliers
Evaluation of input figures for financial modelClient: kfW, West LB, Dresdner
Kleinwort Benson
Project Data: 2 x 605 MW
Period: 06.1999 - ongoing
-
Technical & Environmental Due Diligence Due Diligence Services of technical and environmental aspects for a Natural Gas Distribution Company (BASKENTGAZ), Turkey
For ABN Amro Bank FICHTNER carried out a technical and environmental due diligence of BASKENTGAZ gas distribution company. Based on existing due diligence reports and business plans, FICHTNER assessed the key business drivers such as
Gas demand projections, Tariffs, Expansion program (CAPEX) And operational issues (OPEX).
In addition, FICHTNER analyzed the EHS issues of the companies and prepared a comprehensive due diligence report.
Client: ABN Amro Bank
Period: 03.2008 - 06.2008
-
Technical & Environmental Due Diligence Due Diligence Services of technical and environmental aspects for a Natural Gas Distribution Company (IZGAZ), Turkey
For EBRD and iFC FICHTNER carried out a technical and environmental due diligence of IZGAZ gas distribution company. Based on existing due diligence reports and business plans, FICHTNER assessed the key business drivers such as
Gas demand projections, Tariffs, Expansion program (CAPEX) And operational issues (OPEX).
In addition, FICHTNER analyzed the EHS issues of the companies and prepared a comprehensive due diligence report.
Client: EBRD and IFC
Period: 01.2009 - 03.2009
-
200 MW Denizli CCGT Power PlantLenders Engineering Services for 200MW Natural Gas CCPP, Turkey
This assignment covers following tasks:
Assessment of the existing Feasibility Study, review of construction related contracts and documents, technical aspects and implications of the contracts
Review of the program for long term Review of the program for long term operation and maintenance agreement of the plant
Evaluation of project execution risks Assessment of commercial, environmental
and technical risks
Monitoring the progress during implementation
Client: Turkish Bank, Turkey
Project data: 200 MWe CCGT PowerPlant
Period: 01.2011 - 2012
-
900 MW Gebze CCGT Power PlantLenders Engineering Services for 900MW Natural Gas CCPP, Turkey
The study covers the following tasks:
Review of the feasibility study, evaluation of construction related contracts and documents, technical aspects and implications of the contract to the projectimplications of the contract to the project
Review of the program for long term operation and maintenance agreement of the plant
Assessment and evaluation input figures for financial modelling
Assessment of commercial, environmental and technical risks
Monitor project implementation Monitor the operation phase and
maintenance up to end of the warranty period
Client: Turkish Bank
Consortium
Project data: 900 MWe CCGT PowerPlant
Period: 12.2010 - 2014
7425A01
-
Thank you for your attention !
Fichtner GmbH & Co. KGFichtner GmbH & Co. KGMerkezi Almanya Trkiye Istanbul Subesi
Bdkdere Cad. Polat Han No. 87/534387 Mecidiyeky Istanbul /Turkey
Phone: +90 (212) 217 17 76E-Mail: [email protected]
Homepage: www.fichtner.com.tr