presentation development - 1st

PRESENTATION(AN IMPLEMENTED INNOVATIONS/IGV INITIATIVE)

The Humanitarian and DevelopmentPLATFORM

CONTENTS

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Executive Summary

The Team (short)

InfrastructureWaste2Energy

Solar Foil

Water Plasma Reactor

Watermill

Wave Energy

Hydro PowerRiver TurbinesWave Energy - 2

Sewage water treatment (renewable)

Air to Water

Water Purification

Special concrete

HealthcareCultivation

Permaculture

The Team (extended cv)

© 2013 – 2016 IMPLEMENTED INNOVATIONS/IGV 2

EXECUTIVE SUMMARY

Both Implemented Innovations, a Dutch based company, and Integrated Global Vision Ltd, along with Niche Media Ltd, UK based companies, are very committed to better the plight and increasing the welfare and living standards for our fellow man who have to subsist in deprived conditions.

As a result of our many contacts that have been accumulated over the years, we actually ARE able to make a difference. Our contacts cover a wide range in the general international business market, from buyers of commodities to suppliers of systems and equipment to financial vehicles and more. But importantly we concentrate on renewable sensible “green” technologies

We are, therefore, offering herewith, our assistance to the Government and the people of the Federated States of Micronesia.

Our presentation will start with a short description of various solutions for power generation on both a large scale and small scale. Placed exactly where it is needed, at the point of use and consumption. Then there are special building materials, recycling systems, agriculture, and many others. We have more skills and opportunities in-house, but will limit ourselves to the above mentioned subjects.

A one or two part documentary should be made about the whole process in the Federated States of Micronesia. It will show the world that the Federated States of Micronesia can lift up the standard of living and contribute to a green environment, into the 22nd century, but also it will attract the attention of formative industries to seriously investigate the Federated States of Micronesia as a tactical base for their international operations throughout the region. If the people and government of the Federated States of Micronesia have the drive and ambition – we have the means.

God helps those that help themselves (Benjamin Franklin – 1706-1790 Scientist and Statesman)

Max BoekholtBeatrixlaan 1243721 XH BilthovenThe [email protected]: implemented.innovations

Murray Brand145-157 St Johns Street London EC1V 4PYUnited [email protected]


http://www.igvltd.com/

mailto:[email protected]

THE TEAM

There is a tide in the affairs of menWhich, taken at the flood, leads on to fortune;Is bound in shallows and miseries.On such a full sea we are now afloat,And we must take the current when it servesOr lose our ventures(William Shakespeare (1564 – 1616 )

Herewith you will find an introduction to the team members participating in this project.

MURRAY BRAND

Project Management – Marketing – Acquisition – Security

Murray is a Christian.

MAX BOEKHOLT International Business – Sustainable, renewable energy – Permaculture – Cultivation (Moringa O.) – Exploration

Max is Christian and from Indonesian descent

PETER MARSLAND

Dip.CHyp, HPD, NLPP, CMP AMT – Independent Security Consultant – Project Manager – Health and Safety Advisor

Peter is a Christian


INFRASTRUCTUREWe have contact with companies which are specialized in infrastructure, both Britishand Dutch companies.

GREEN, SUSTAINABLE EMISSION-FREE POWER

Our possibilities to bring green sustainable energy, however, is so wide of focus that we can supply energy sources starting with single household up to communities of a couple of 10,000’s, with various feedstocks, no fossil fuels, like MSW (municipal solidwaste) to seawater (delivering electricity and distilled water).

WASTE2ENERGY

Worldwide and also in Micronesia, waste is a big problem. All types of waste. Using this type of plant will solve that problem immediately and convert a substantial problem into a significant opportunity:

It produces saleable by-products. Inert slag for construction or road applicationsZero emission power production. Eligible for carbon credits!!!All kinds of waste can be used as a feedstock. No landfills are needed – in fact quite the opposite: The existing landfills can be excavated and the matter utilised. New Industries will produce will produce their waste which will then be used as a supply: no problem.


This can be a very profitable enterprise with many benefits for the community atlarge.

SMALL WASTE PLANT (can also be converted to waste2energy)

The Plasma Arc Waste Destruction System (PAWDS) uses plasma energy, with temperatures over 5,000 °C, to rapidly and efficiently destroy combustible waste. PAWDS has proven itself to be a viable alternative to traditional incinerators. The milled waste “fuel” is conveyed by air and injected into the plasma-fired eductor. In the eductor, this “fuel” is exposed to the high temperature of the plasma plume thatresults in rapid gasification of the solid waste into a synthesis gas composed primarily of carbon monoxide (CO) and hydrogen (H2). This gas flows into the combustion chamber, where more air is added tocomplete the combustion and convert the synthesis gas into carbondioxide (CO2) and water vapour (H2O). The gas temperature at the exit of the combustion chamber is typically about 1,000°C. Any inorganic substances in the waste are transformed into an inert ash.

System overview

A feature of the PAWDS technology is its use of air and/or water-cooled walls instead of heavy refractory for the eductor and combustion chamber. Internal to the water-cooled jacket for the combustion chamber is an air-cooled liner made of a super-alloy.These unique design features result in a reduction of weight of approximately 90 % ofthe thermal section compared to a traditional refractory incinerator with the same processing capacity. Upon exiting the combustion chamber, the gases enter the

quench, where water is sprayed to reducethe temperature of the gas to 80 °C typically. Rapid cooling of the gas prevents any dioxin and furan formation,which typically occurs at temperatures between 200 and 500°C. The cooled gases then enter a Venturi scrubber where particulates are removed from the gas stream by trapping and collecting them in the water stream. A cyclonic separator separates the water/ash streamfrom the gas stream prior to its discharge


building overview system into a stack.The ash/water stream inside the cyclonic separator is pumped through an in-line strainer (a deep bed filter is used in the Montreal set-up) to separate the inert ash fraction from the water. The strained water is recirculated to the quench spray nozzles to decrease the water consumption.

ADVANTAGES: Compact Treats a wide variety of waste streams Rapid start up and shut down Scalable solution Easy to operate (fully automated)

Endless and sustainable energy from solar foil

Applications of the solar cell foil Thanks to its lightweight, unbreakable and flexible properties the solar cell foil can be easily applied to or integrated into countless products like building materials. Large low-pitched roof areas are abundant and ideally suited for application of the solar cell foil. The durable foil will supply clean energy for dozens of years.

Advantages of the solar cell foil1. Lightweight: weighs only 600 gram per square metre2. Flexible: flexible and unbreakable, resulting in easier handling, transportation and installation3. Ideal for BIPV: easy to integrate into building products like roofing and facade materials4. Durable: weather resistant and dirt-repellant encapsulation5. Better performance: generates more kWh in real world conditions 6. High temperature compatibility: excellent kWh output with high temperatures 7. Great aesthetics: attractive dark homogeneous appearance

One of the alternative energy sources for local use can be solar energy. The latesttechniques can be used which are, finally, cost-effective:We are busy with research and development of production on a large scale to produce solar-cell foil. This flexible material includes ultra thin active layers (30 to 50 times thinner than a human hair) which converts light intoelectricity. The production on a large scale will make this foil cost-effective

solar foil

ApplicationsThe flexible, lightweight and unbreakable solar-cell foil is ultimately suited to be integrated ina fast variety of products. Because of the low weight the foil can be used on large rooftop surfaces without having to strengthen the construction of the building. It is also possible to apply the foil on bend surfaces. This will make it possible to apply the solar cells in i.e. roofing, sun blocking- and sound screens.


ProductThe solar foil is very suited to be integrated intoother products. It can be used on rooftopscovering materials etc. The advantages of thesolar-cell foil:light weightunbreakable and easy to handlepliant and flexiblelots of freedom to design and esthetical valuemade from feedstock available in abundancewhich will not jeopardise the environment

Advantages of Solar Foil Cells

Costprice vs capacity Single Layer Double Layer€/m² kWh/m²/annum


Capacity is based on:

direct influx of sunlight in Holland: 1,000 h/m²/annum

Spain has a 1,500 h/m²/annum, making the cost price per kWh 1/3 cheaper

Production line solar foil

PLASMA WATER REACTOR Can use any type of water Produces zero emission power. Eligible for carbon credits!!! Produces saleable by-products. Extreme pure oxygen for medical industry.

Exit water is extreme pure, distilled, suitable for human consumptionPortable power plant (can be fitted on truck)Small power plant (in a 40' container). For remote villages, each industry might get its own power supply. Even strategic objects, like the airport, can have its own unit, like also the government- and embassy area.The MASTER STROKE: all power issues are solved for Micronesia, in a surgical way (right there where it is needed).

WatermillAdvantages over solar and wind energy

Over 70% of our earth's surface consists of water. It means that there are a lot of places where energy can be generated. The watermill is an innovative hydropower plant that permanently generates renewable energy out of flowing water. This installation can be installed in river cribs, tidal or in forced streams. Installing a © 2013 – 2016 IMPLEMENTED INNOVATIONS/IGV 9

watermill is customization, which means it can be adapted to almost any location. A site survey will always be performed in advance. In this way the best place, where the highest efficiency can be achieved, will be determined to install the watermill.

Generating renewable energy with a watermill has advantages over generating energythrough solar or wind. Incidentally, we also see many situations where a smart grid is constructed with combinations of different types of renewable energy generation.

The infographic shows what is needed to provide 1,000 households (Western Europe) with electricity, which is equivalent to around 3,500 MWh per year. How many solar panels, windmills or water mills are needed? And how much space these plants take? What energy efficiency they have and what are the cost per kWh?

A watermill actually consists of three main components

1. vertical axis turbine with housing;2. control unit;3. online monitoring software.

Depending on the local situation a Venturi accelerator can be installed before the

entrance of the watermill housing. This increases the water velocity and the electricaloutput.

Generating energy from waste water

Residual water often has enough speed and water pressure to generate energy with the assistance of a watermill. Companies that make use of cooling water or other water that must be drained, often do not make use of the possibility to generate their ownenergy. This residual water has enough speed and water


pressure to generate energy with a watermill. With the Watermill companies will become self-sufficient in their energy supply and are less dependent on external supply (and price) by an electrical power company. This eventually leads to significant cost savings. In addition watermill gives companies a positive image, because they generate their own energy with a sustainable system.

Energy out of tidal currents

Without any adjustment the watermill turns from any water flow direction.

The watermill is also suitable for generating energy out of tidal currents. Unique to this system is that the installation does not require anyadjustments and automatically generates energy out of thewater, whether it is high or low tide. Without any adjustment,the watermill keeps the same rotation direction, also bydifferent water flow directions. This is because of the uniquepatented system and has an input and output that worksexactly reversed. The watermill can be installed in dikes, dams and other locations where tidal currents occur.

Rivers are very suitable for power generation

Unlike power plants at dams or other axial turbines, the watermill is 100% fish-friendly.

Rivers are very suitable for power generation, an inexhaustible source. The watermill can be placed in rivers, in cribs or civil works such asdams and large fixed pump stations. Unlike power plantsat dams or axial turbines is the watermill 100% fish-friendly and the natural ecosystem remains unaffected.Combined with the invisibility and high efficiency, makesit the unique hydropower solution.


WAVE ENERGYPractical, affordable wave energy

We will develop and deliver the technology of choice for utility scale generation of offshore wave power. We are driven by finding solutions to all of the challenges present in creating a practical affordable wave energy device and approach this in an evolutionary manner. Our strategy is endorsed by Alstom, our major OEM backer and contrasts with that of other developers who doggedly pursue a single invention no matter how obvious the flaws.

The result of this approach is the Wave Swing-III: A multi-cell array of flexible membrane absorbers which covert wave power to pneumatic power through compression of air within each cell. The cells are inter-connected, thus allowing interchange of air between cells in anti-phase. Turbine-generator sets are provided to convert the pneumatic power to electricity.

A typical device will comprise an array of 12 cells, each measuring around 16m wide by 8m deep, arranged around a circular structure with overall diameter of 60m. Such a device is capable of producing an average of 2.5 MW from a rough sea whilst havinga structural steel weight of less than 1300 tonne. The Wave Swing-III will be slack moored in water depths of around 100m using standard mooring spreads.

Visualisation of an AWS-III farm at sea on a calm day

Devices will be arranged in arrays or ‘farms’ of up to several hundred MW total rating. Each Wave Swing-III will be connected to a central offshore substation via a high-voltage umbilical link.

The Wave Swing-III is designed for practical operation and maintenance by utility power generators. The large, stable vessel structure provides a safe environment for on-board maintenance of generation equipment and ancillaries whilst our patented system for cell maintenance allows rapid exchange of the flexible wave absorber cells.

We do not make wild claims about cost of energy. What we will say however is that the Wave Swing-III has a power to weight ratio double that of any other offshore wave energy device. It has no exposed moving parts and uses simple, proven power take-offtechnology and is designed for practical maintenance – key factors for high availability. Device scale mans that fixed costs such as moorings and power umbilicals are lower per MW installed.

At the moment we are developing a Wave Swing with an output capacity of 10 MW.


In the design evolution of the Wave Swing-III we have addressed the key requirements for utility scale offshore wave energy generation. Hence the Wave Swing-III offers the following essential features:

SurvivabilityThe Wave Swing-III naturally sheds load andde-tunes in large waves. Our compliant mooring system reduces wave loadings The sealed air system ensures that there are no exposed moving parts.

Reliability built-inThe Wave Swing-III uses proven air turbine technology. The flexible wave absorbers useestablished truck tyre technology. Ancillary systems are housed within a ‘ship hull’ environment and hence are both protected from the environment and available for practical maintenance and inspection cell

ScaleThe multi-cell Wave Swing-III configuration shares air volume and structure, thereby achieving significant reduction in steel requirementDevice specific maintenance costs are spread over several MW, thereby reducint the cost of energy.Our multi-MW output is genuinely utility scale, enabling rapid MW deployment and spread infrastructure cost MaintenanceThe large, stable Wave Swing-III structure allowing access on station for inspection, maintenance and repair of on-board systemsOur patented absorber cassette system allows rapid replacement with the device at anchor in sheltered waters. Hence dry-docking is not required.The Wave Swing-III offers a maintenance regime which is more practical than offshore wind as major dockside refurbishment will be possible without involving offshore heavy lifts.

EconomicsThe Wave Swing-III has a significant lead over other concepts in terms of MWh per tonne of steel and on a par with offshore wind. Large scale spreads maintenance costs, thus further improving prospects for economic power.

Our current models predict capacity factors in the region of 25% for a 2.5MW device deployed in a 44kW/m resource indicating an average annual energy production of around 5.1GWh per device.

HYDRO POWER RIVER TURBINE (for remote areas)(Right-there-where-it-is-needed)


These small turbines are easy to install in remote areas where a river is nearby. The turbines can deliver from 50 KW up to 500 KW and in a group, like 2, it is possible to get 1 MW output.

LIMPET Facility

There are various principals for producing electricity by means of waves. All is of course also subject to the heights of the waves.

ECO WAVE

More wave power stations are in our portfolio!!


RENEWABLE SEWAGEWATER TREATMENTTechnology

This wastewater treatment technology satisfies the highest ecological requirements. We offer a logical and economical solution with lower installation costs and maintenance expenses. The biologically treated water can be reused because of the high quality of the effluent.

After treatment, there are two principal residues, being harmless and odourless sludge which can be used as an organic fertilizer and clear, odourless water.

1) Sludge: the treated sludge can now be used as a fertilizer, a highly sought after product in development countries

2) The water can be used for irrigation, but since water fit for human consumption is very scares in this region, we can recycle this water to make it fit for human consumption. We can do this by implementing either a UV- or Ozone system.

FULLY OPERATIONAL SEWAGE TREATMENT SYSTEMS

Advantages:√ High standard of effluent√ No harmful chemicals used√ Sludge is suitable for fertilizer√ Uses very little electricity√ No impact on the vernacular√ Odourless


All certifications of the sewage water treatment plant


AIR TO WATER (AW)

The concept is a system whereby a stand-alone wind turbine is placed in rain lacking regions. This system is especially suited for such environments without proper infrastructure and access to water sources.

This system, literally, makes freshwater from air!

The system’s wind turbine does not drive a generator to produce electricity, as is commonly the case. Instead it drives a heat pump which is directly powered by the wind turbine’s blades. With the heat pump the water vapour in the air is condensed and collected for domestic or irrigation purposes.

Depending on local ambient temperatures and humidity conditions air always contains a certain amount of water. This makes it possible to make water from air almost anywhere in the

world. For example, air at 20 0C and 50%RH (relative humidity) contains approximately 7 grams of water per Operating principle

kilogram of air whereas air of 30 0C and 50% RH contains almost 14 grams of

water/1 kg of air. (1 m3 of air weighs approx. 1.3 kg).

Because the turbine forces air through a heat exchanger — where the air is cooled, condensation takes place. When the temperature falls below its dew-point, water droplets will form and will be collected in a water storage compartment.

Warm ambient air, in particular, may contain large amounts of water. Lowering the temperature of air requires relatively little energy. By doing so large volumes of water become available by condensation and can be utilized as drinking water or irrigation water.


http://dutchrainmaker.nl/about/aw75-1-2010-05-10/

WATER PURIFICATION

Reverse Osmosis plant 70m3/h Municipal drinking water

We can provide water treatment solutions for all type of applications, from domestic equipment to industrial turnkey plants up to 5000 m3/day.

Our wide range of technologies and extended know-how in all water-related sectors will guarantee you a cost-efficient solution meeting your water quality requirements.Manufacturer deals daily with clients from various origin: municipalities, water bottlers, hotels and resort requiring safe drinking water for their visitors, farmers needing specific irrigation water for their plants, but also industries like power plants,oil and gas, chemical factories, requiring specific process water for their equipment.

We take care of complete turnkey projects from intake to application, such as surface water treatment or seawater desalination for municipalities or industries.

Small Ozone production unit 10g/h

Based on your specifications, we deliver free budgetary quotation including:

- Process flow diagram- Mass balance- General footprint- Basic engineering data

Scope of supply is defined by battery limits and most of the equipment (pumps, tanks, filters, modules, etc..) are skid-mounted to ease and quicken installation

Specialty Building material

This very special concrete has various strength ratios, so it can be used for multiple disciplines.

The lightest concrete is as strong as normal concrete, but actually it floats on water, making ita major product for marine projects, like floating fish farms, peers and more.

The strongest concrete has five times the strength of normal concrete. This and the other concretes make it an excellent building material. The purchase per Mt is slightly more expensive than normal concrete, but because of its weight/strength ratio, lesser concrete has to be used, making it for a building more cost effective than normal concrete.


On top of this, it has excellent insulating properties, ergo less costs for cooling or heating, it isfire resistant up to 1350°C, while normal concrete explodes at 600° C.It does need no maintenance.

The types of concrete

Surface protecting mortar Fire proof concrete Lightweight concrete

The specialty lightweight concretes are LC-10 (floats), LC-25 and the strongest LC-35

Example of one product:Fireshield LC-05 is one of a range of fire proofing and insulating lightweight concretes that have been tested under fire conditions for durations of up to four hours. The product is a cement-based mortar containing high performance cement, polystyrene beads, alkali resistant glass fibres and LCK-Mix. Fireshield’s performance does not rely on asbestos or other mineral fibres.

ADVANTAGESThis specialty concrete has very advanced features and advantages over regular concrete. The concrete has already widely been used in fire hazardous environments, housing and floating objects, like a floating fish farm. This concrete is ideally suited tobuild public buildings (hospitals, malls etc.), apartment blocks and housing estates. The specialty concrete has further the same properties as and is worked and handled as regular concrete. The main advantages over regular concrete are:

√ Weight/strength ratio. The strength runs up to 4 x of normal concrete√ Very high insulating properties√ Fire protective up to 1,400° C√ Maintenance free√ Easy to work with√Can be worked with/on after 7 hours

√ Prefab on site√ Very cost-effective√ Can be easily sprayed to a thickness of 15 cm without sacking√ Can easily be moulded to create special figures, ornaments and shapes.

A significant benefit of Fireshield material is that it can be used for spray application as well as pouring or trowelling. This removes the need for obtaining a range of materials to cover allrequirements.

Application Fireshield LC-05 is ideal for use in offshore conditions, shipbuilding, petrochemical applications & the building industries where steel & concrete structures need protection fromextreme temperatures (up to 1100oC) & exposure to fire or where reduced material density is required. Fireshield offers excellent effective durable insulation over a range of thicknesses from 10mm to 100mm.

Our product range: For years our technology has been solving complex engineering problems, that has resulted in the production of a unique range of concrete compounds, specifically designed for applications that would have been considered virtually impossible until now.


One fine example of its specialty:

A special oil rig had to bebuild, but could not be build with regular building materials. Simply because the constructionhad to be very strong and yet very light. In comes our lightweight strong concrete


Fire Protection up to 1350 ºC

Remains intact after repeated exposure to fire – No deterioration to exposed surfaces. Two hour fire test shows 1350ºC on exposed face and only 250ºC on unexposed face. This is used in many countries as tunnel lining (Scandinavia, Holland, UK etc.) and at the oil storage facility in Rotterdam in the fire extinguisher towers (normal concrete would explode during a fire and iron would melt.

Pumped ConcreteVarious compounds with excellent pumping qualities. Options to pump through water and achieve surface set or submersible set at invert level.

Sprayed Concrete.Exceptional bonding characteristics. Can be sprayed to thickness of 200 mm in one application. Will adhere to almost any material including steel, masonry, timber and glass.

Lightweight Concrete.Low density concrete designed for offshore applications. High bonding characteristics, ideal for concrete repairs. Floating fish farms, factories, jetties, hospitals and dry docks etc.

Floating Fishfarm, Spain


New build, Rebuilding/rejuvenating buildings without demolition

can be used as spray to rejuvenate buildings

HEALTHCAREWe can accommodate all the wishes of the Government in regards to personal, equipment, and more. A first set up could be done in association with a renowned organization, like Doctors Without Borders or Flying Doctors. Also through our various congregations, volunteers can be found who are willing to help out, from doctors, to nurses, administrators and so forth. More possibilities are present.

CULTIVATIONIn addition to the existing crops, we recommend the cultivation of Moringa Oleifera. The climate is very good and the tree will thrive. The Moringa can be grown for two ormore purposes: 1) for a growth hormone/ anti-insecticide and 2) for leaf production for human consumption.

Also each village should have at least a small cultivation of Moringa Oleifera, this solely for leaf cultivation. After 40 days the leaves can be picked and socked in water. The mix is a very powerful product,an anti-insecticide and growth hormone.MORINGA LEAF EXTRACT AS ORGANICPLANT GROWTH HORMONE & BYO-DYNAMIC ALL-PURPOSE DYNAMIZER The crops will grow faster, bigger, more crop (see photos).

For consumption, the leaves can be harvested after around 75 days, than dried(no direct sunlight) and used as a food. It tastes like spinach. It is high in vitamins, irons, minerals and more (see below+ right)

Bell Pepper with spray control

Turnip freeze-dried spray/ middle: control/ right:spray


PERMACULTURE Permaculture is the restoring of ecosystems that are completely destroyed due to our greed for more and more. Soils are completely depleted. However, we can restore thisarid, barren landscapes to its former glory (see pictures), even can make room for cultivation purposes. This restoring the ecosystem will take about 4 years.

BEFORE AFTER

We are in direct contact with the leading people who are extremely experienced in this highly specialized field.


THE TEAM - CV

Murray BrandMurray has a working history in Marketing and Management Training for some 20 or so years. Mostly in FMCG goods and markets with a number of major companies in the United Kingdom . Murray then transferred to a completely different culture, that of Security and received professional training. Whilst his primary role was in Marketing and Management Strategies he was quickly involved in Technical Orientation and Product Assessment. He was responsible for Field Testing, Installation Project Management, System Design and In-House Training. He was Team Development Project manager at a top University for two years developing blue sky ideas for Recognition and Presumptive Targeting software systems. After establishing a new company specialising in Consultant and System Design projects were undertaken throughout West Africa for both Private and Official clients. This role undertook specific projects for the systems, not only physical but electronic and personnel control and administration. Liaison with and contribution totraining of Police and Armed forces Personnel was not unusual. Airports and Sea Ports were a speciality. Latterly he has been involved with assisting raising Humanitarian Funding and acting as Liaison for Commodities Traders in order to raise the requisite funds to establish long term projects for the benefit of various countries such as Burundi. Murray is a Christian.

Max BoekholtMax worked for a Dutch broadcasting company for over 22 years,as a sound- and cameraman and spend his last 3 years setting up a Post Production department. After he has left the broadcast company, he was and is active in the international marketplace, now focussing on sustainable, renewable, green energy sources, water management – sewage water treatment, special leverage programs, permaculture, cultivation of Moringa Oleifera. Max did set up a complete post production company; hands on advisor for a full circle biodiesel company with feedstock cultivation in Ghana; hands on advisor for setting up cultivation of Moringa Oleifera and introducing the Farmers Association in Tanzania. Max is highly connected in the international arena, including sellers of airplanes, buyers of various commodities. Max is a reborn Christian and member of the Evangelical Church, and is from Indonesian descent.

Peter MarslandA proven safety and project management ability in construction across a wide spectrum of sectors, including: international airports, high voltage facilities; gas facilities, ports, waste power generation facilities, UK channel tunnel rail link, town centres, communication networks, motorways, civils streetworks projectsand underground services installations. - Strong communication and relationship building skills acrossall levels of the organization, managing project teams to take


ownership for health, safety and environmental compliance together with a proven ability to work within highly regulated industries, maintaining co-operation and co-ordination with key client managers, Senior Authorised Persons, government regulators, local stakeholders, contractors, consultants and subcontract personnel.- A comprehensive knowledge and experience working within the electric and gas industries managing safe systems of work in accordance with systems and guidelines including: Threat Evaluation and Risk Analysis, Integrated Security System Design, Control Room, Network and Technology Design and Integration, Installation, and Commissioning.- Over 30 years experience in the management of specialist disciplines, including: Electrical Installation, Closed Circuit Television (CCTV), Perimeter Intrusion Detection Systems (PIDs), Access Control Systems, Fibre Optic Systems, ANPR, Biometrics; ID Badging Systems, and Security Lighting.- Experience of running his own company for over 30 years has allowed him to gain successful budgetary and cost control management experience, with a solid understanding of the importance of integrating health & safety and commercial objectives. - The experience of working on international contracts has provided exposure to diverse cultures and customs.- Computer literate with good knowledge of business software applications and excellent verbal and written communication skills.- Specialist qualifications recently obtained include:• Energy and Utility Skills Registered (EUSR).• Basic Electrical Safety Competence (BESC) Assessed.• Utility SHEA (Gas) Passport• SCO 1 & 2 Competent Person (NG Gas sites).• SCO91 National Grid Database Registered.• NEBOSH National General Certificate• Emergency First Aid at Work Trained• Certified Project Manager• Member of the Association of Security Consultants (ASC).


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