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Integra Global Ventures Inc. ENERGY FROM WASTE / POWER GENERATION PLANT. Prepared and Presented by Ab Quraishi President/CEO August 2007. Agenda. Introduction Facts and Figures Energy From Waste/Power Plant Details Financial Information Conclusion Contact. Introduction.
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Integra Global Ventures Inc.ENERGY FROM WASTE / POWER GENERATION PLANT Prepared and Presented by Ab Quraishi President/CEO August 2007
Agenda • Introduction • Facts and Figures • Energy From Waste/Power Plant Details • Financial Information • Conclusion • Contact
Introduction • Energy-from-waste technology (EFW) is the most viable and sustainable solution to the increasing demand and shortage of the Electrical power supply. • EFW generation is forecast to provide upwards of 25% of the electricity to the world within the next 20 years. • The proprietary Thermodynamic Energy Converter "TEC" system eliminates mounting waste issues in landfills and produces electricity without the burning of fossil fuels.
Introduction • TEC systems operate more economically and efficiently than any other similar system available. Permanent plants as well as mobile TEC systems may be deployed anywhere in the world. • TEC systems exceedthe highest possible environmental standards with proven technology that is certified by the US EPAand is approved by the Canadian Ministry of Environment, and in November of 2007 will be the only Waste to Energy technology in the world to obtain an ISO 14064 rating. • Systems are installed in months versus the years required to construct large central power plants.
Introduction • New laws being adopted in most countries specify that renewable energy must be a specific percentage of the utility companies' electricity generating capacity. • Finding more effective ways to distribute electricity is also critical to solving the worldwide energy problem. Aging transmission lines break down more frequently and are creating longer power outages. • Building several micro generation plants locally instead of one large plant miles away will help reduce distribution costs and increase reliability.
Introduction • Energy locked in the waste stream is converted from one form to another and can power our homes in the form of electricity. • We can all benefit from the reduction in greenhouse gas emissions and the additional availability of power. • Our goal is to provide municipalities and industries with sustainable, reliable and economical solutions for solid waste (non-recyclable garbage) that simultaneously converts energy in one form to another for the production of electricity. • We can even remediate the emissions from existing coal/gas fired power generation industry and create another revenue stream for the proprietor.
Introduction • If garbage is a renewable resource that can be recycled into electricity and at the same time greenhouse gas emissions can be drastically reduced, why dump it in a landfill ?
Energy From Waste/Power Plant • Originally developed 20 years ago by the US Military to dispose of stockpiles of biological weapons such as agent orange, this is the only waste remediation technology in existence that far surpasses all environmental standards and is the only such technology that is US EPA and Canadian approved. The addition of the cogeneration unit, Babcock & Wilcox high-pressure steam boiler systems and General Electric high power generators, has resulted in the most efficient and greenest method of producing electrical energy available to municipalities and industries today. • The technology is fully Canadian owned and the facilities are designed and constructed by the same. • EFW/Power plants can be built on approximately 5 to 10 acres of land. The plants are scalable to fit the need of the client… from a small size transportable remediation only units to full large 2,000+ ton daily capacity plants that can be deployed with a maximum power generation output of 400 Megawatts per hour. • If necessary EFW/Power plants can supplement the MSW with higher carbon content fuels such as coal, diesel fuel, crude oil, old used tires, etc to increase the BTU values with zero emissions.
Energy From Waste/Power Plant • High level Process • MSW is processed to remove the metals. • Sorted and blended to obtain the highest balanced BTU levels possible. • Shredded and made into fuel pellets that can also be stored for a later date if necessary. • The entire process is continuously fuelled by MSW. Initially Liquid Natural Gas is used only during the initial start up to help increase temperature… after mass balance is achieved it does not require any other fuel to run other than the MSW. • The process has a Destruction Removal Efficiency (DRE) of 99.9999998%, meaning that the emissions from the plant is many times cleaner than a single car’s exhaust. • Can completely remediate and destroy 307 different toxic compounds and chemicals including PCBs, Agent Orange toxin, low level radioactive material from hospitals, pharmaceutical and military wastes.
Energy From Waste/Power Plant • The only residual products that remain are an inert clean ash (similar to fly ash used for cement), and steam. • The average power generation of a 1,000 tonnes of a MSW per day facility is 60 Megawatts per hour (1440 megawatts per day) based on a constant MSW fuel input value of between 8,000 to 12,000 BTUs per pound. • A plant can be completed and ready for operations in 12 to 18 months after breaking ground, instead of the usual 5 to 10 years needed to build a regular coal or gas fired power generation plant. • Upon completion of the construction phase of the project, we train the staff of 26 personnel necessary for smooth operation of the facility. • After startup we continuously monitor all of the plants processes 24/7 to ensure that all parameters are maintained for optimum performance and safety. • Projects are currently underway in Ghana, Malaysia, and an existing plant in Colborne, Ontario is to be upgraded starting in late 2007.
Financial Information • Cost of an EFW/power generation plant is approximately $120 to 130 million (not including land) depending on the volume of MSW capacity required, power generation capabilities desired, local labor costs, etc. • Initially, a sublicense of $5 million is required for each plant, with this amount being credited toward the total construction costs of the project. • The plant can pay for itself within 2 to 3 years compared to the 10+ years for a conventional coal, gas or hydro power plant. • After 2-3 years of successful operation, the plant can have an equity value of 5 to 7 times the revenue. For example, based on a revenue of $70 million per year, the plant will have a valuation of approximately $350 to $490 million.
Financials information • One ERW/power generation plant conservatively has the potential to generate $70 million per year using several revenue streams. A plant dedicated to remediating toxic materials only and charging an average of $400 per ton can realistically generate 3 times that amount. • Revenue from power generation based on $0.06 per kilowatt hour is $86,400 per day... this is over $31,356,000 per year for one plant. In North America green energy is subsidized at typically $0.03 per kilowatt/hr which would add another $15,768,000 annually to the revenue. • Tipping fees collected from municipalities is typically $35 per ton… 900 tons per day will generate $31,500 generating $11,497,500 of revenue per year. • Remediating various toxic wastes averages $400 per ton… typically 100 tons per day will generate $40,000 for a yearly total of $14,600,000 revenue. • This totals $73,221,500 of revenue per annum… not including other revenue from sales of scrap metal, Green Technology carbon or displacement credits (about $37 per metric ton) and Energy Credits (about $18 per megawatt) where available.
Financials information • One aspect to keep in mind is that a waste to energy plant has a dual purpose as compared to a coal or gas fired power plant. A coal or gas fired plants’ purpose is solely to generate power. With a waste to energy plant, we can generate power and also remediate waste material (MSW and toxic wastes), presenting additional revenue streams. For example, according to a 1997 report by Procter and Redfern Limited on contaminated sites and stores of PCBs and other toxins in North America, there is a potential market in the neighborhood of $800 billion plus for remediation. • A waste to energy power generation plant dedicated to remediating toxic wastes has an additional large revenue stream compared to a large expenditure for fossil fuel for a coal or gas fired power plant. • Purchasing a TEC system is an advantage for companies who have large volumes of toxic materials that require remediation… in effect turning red ink into black ink. What was originally an expense to dispose of toxic materials has now become a revenue stream from the sale of electrical power to the utility.
Conclusion • Demand for additional power sources has grown dramatically around the world, especially in India, China and the Middle East. • In India, the practice of ‘Power Shedding’ is a daily occurrence where the power is cut off shutting down industrial production for hours at a time. Sixty percent of the population in India still is without power. • In Dubai, new building permits are delayed by as much as 3 years because there is not enough electricity to meet the demand. • The EFW/power generation plants are a sensible, profitable, environmentally clean solution that can provide an answer for much of these energy requirements and at the same time help to reduce the municipal waste problem.
Contact • Integra Global Ventures Inc. • Abdulaziz Abbas Quraishi, CEO. • Edmonton Main office • Tel. +1 (780) 440 – 9474 • Cell. +1 (780) 935 – 4762 • Fax. +1 (780) 988 – 2761 • integraglobalventures@gmail.com • Gilles de Champlain, VP of Marketing. • Montreal office • Tel. +1 (514) 634 – 6964 • Cell. +1 (780) 938 – 4362 • EFax. +1 (270) 717 – 2692 • gillesdec@gmail.com