INTERNATIONAL ENVIRONMENTAL TECHNOLOGIES, INC. Environmental Solutions.
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Transcript of INTERNATIONAL ENVIRONMENTAL TECHNOLOGIES, INC. Environmental Solutions.
INTERNATIONAL ENVIRONMENTAL TECHNOLOGIES, INC.
Environmental Solutions
About IET
IET’s Best In Class Technology Solutions IET’s Core Technologies are cutting edge solutions to the world’s growing demand for
effective and environmentally conscious waste disposal and water treatment requirements IET’s Core Technologies offer superior performance to all of today’s available alternatives
Increased efficiency & operating effectiveness
Reduced operating costs – minimal material handling, simple process with low maintenance requirements
Broad application scope, quick installation, and highly scalable design
IET’s Bundled Technology Solution Proprietary technology portfolio of complementary products and solutions
CORE TECHNOLOGIES Thermal Waste Gasification (WG/TO) – Solid Waste Disposal
Process generates significant quantities of recoverable heat and scrap - opportunities include the commercial resale of electric power and recycled metals/glass
Electrocoagulation Water Purification & Treatment (EC) Instantaneous treatment of large volumes of water; requires no chemicals
COMPLEMENTARY TECHNOLOGIES Nataprene space-age polymer & EC113 Concrete Treatment Highly complementary to the design & construction of IET’s core technology projects
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About IET
IET’s Unique Opportunity IET is a “Diamond in the Rough”
Historical focus on technology R&D NOT sales & marketing Substantial project pipeline despite limited sales & marketing resources to date 3rd party verification of Best In Class claims – State of PA, State of FL, International Governments
IET’s Waste & Water Treatment Focus Capitalizes on the positive global reputation regarding WG/TO & EC as industry best practices Financially Attractive – Recession proof industry, large capital allocations/mandates, high profit margins Best of the Best - bundled offering of proprietary technologies that are the Best in Class of the best practices
Business Development Strategy Sales – Attain sales & revenue potential through strategic partnerships and internal
expansion Strategic Investors – Resources necessary to promote business growth internally and externally Strategic Engineering Partners – Meet current and future demand
Growth & Acquisition – leverage it’s core technologies, robust project pipeline, and strong profit margins
Goals – Worldwide Waste & Water Treatment Portfolio of $5 billion via tax-efficient strategy utilizing retained earnings
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IET Products4
Mechanics of Thermal Waste Gasification
What is Thermal Waste Gasification? The chemical conversion of organic solids and liquids into synthetic gases is achieved through
highly controlled conditions of heat and availability of oxygen Disassociates the molecules of a complex waste substance into simple gases Highly efficient method of breaking down hazardous organic substances such as Dioxins and Furons
A Two Step Process
Primary Gasification Cell The waste is unloaded the primary cell (16 cells with varying holding capacity depending on facility);
municipal waste doesn’t require specific organization Each cell is surrounded by a steel box where a refractory will insulate, but not hold the heat for a
long time The oxygen-starved process allows combustible waste to be converted to gas and sterile, white ash
which is recyclable The released gas is predominantly composed of CO and H2
Secondary Gas Processor Cell Outside air is then mixed with the gas from the primary and flared off at a temperature up to 2000 F This efficient method allows for leftover metals to be further recycled Finally, the introduction of turbines into this process provides new forms of renewable energy for
surrounding areas
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Process Flow Diagram of IET’s Waste Gasification System
GasifierThermal Oxidizer
Waste Heat Boiler
Proprietary
Scrubber
Power Generatio
n
Syn Gas
Air
MSW In
Bottom Ash
Recyclables
Flue Gas
Flue Gas
Flue GasFlue Gas
Fly Ash
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Proven Technology
The state of the art IET System IET’s technology was recently approved by The Florida Department of
Environmental Protection following rigorous 3rd party due diligence by world renowned environmental engineering firm Golder Associates (www.golder.com)
The State of Pennsylvania commissioned a $2M research report on 35 hazardous/solid waste processing technologies. It concluded that IET's gasification process would clearly serve as the best technology
Proven application of technology – First facility online in Anchorage, AK (1996)
How the IET System is superior to alternative technologies: Patented waste gasification process (2002) Lower capital investment costs than less efficient alternative technologies Lower operating expenses result in higher profitability
Multiple cell units working simultaneously – highly scalable & efficient to maintain
Emissions from IET’s system are lower than federal regulations without the use of scrubbers
More types of waste can be gasified with IET’s system than the competitors’ systems – ranging from tires to plastics to large furniture items
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Thermal Waste Gasification-Process Facts and Advantages
Supported by the United States Department of Energy Eliminates 98.5% of all combustible waste materials Large scalability (modular cells range from 2 to 2500 ton systems) Average installation time is 4 to 6 months, depending on the size Provides for 100% recycling of aluminum, metals, and gases Clean and quite operation-no noise or obnoxious odors No pre-sorting or trash separation before processing Moisture in the waste does not affect performance Eliminated animals, birds, and insect scavenging in the waste Kills all pathogens in medical waste No special handling of medical waste is required Reduces volume of medical waste by over 98% Eliminated future need for landfills for combustible waste Small land requirements are less than 1% of landfill sites Very inexpensive operating costs/low cost of installation. Operator training and installation provided by IET Service and warranty provided by IET
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Water Purification throughIET’s Electrocoagulation
Electrocoagulation Defined: EC is based on the principle of introducing an electrical current to
induce a chemical reaction in water This reaction causes the destabilization of most suspended
particles, bacteria, viruses, cysts, dissolved materials, metals, most hydrocarbons and many organics
Once destabilized, positively charged ions react with negatively charged particles in the water resulting in floc precipitates that approach a highly stable state
The floc created is highly stable and can therefore be easily separated from the water by a number of conventional secondary separation techniques
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Advantages of IET’sElectrocoagulation
IET’S technology reduces or eliminates the need for the use of chemicals and polymers that are normally used for this treatment; therefore, resulting in reduced sludge production and easier operation
IET’S technology can be used as a pre-treatment to remove TOC’S prior to adding chlorine, thus greatly reducing the formation of trihalomethanes (THM) and haloacetic acids (HAA)
IET’S Electrocoagulation kills virus, cysts, and coliform bacteria; eliminating one of the largest problems with water contamination that face many communities
The sludge formed during the use of IET’S electrocoagulation is easier to handle and to dewater due to the absence of chemicals and bound water
Finally, the sludge has been repeatedly tested and proven to be leachant-free; thus ensuring sludge doesn’t repeatedly dissolve in the water again
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Effectiveness of IET’s ElectrocoagulationTechnology
Systems are available in a wide range of sizes, from portable Emergency Drinking Water Unit, to permanent installations with over 10,000 gallons per minute of capacity
Removes arsenic from drinking water-lined to cancer of bladder, lungs, and skin
Removes pesticides, complex organics, and suspended solids Effective breaking of oil/water emulsions Removes coal fines and slurry from process water Waste water treatment to eliminated hog, cattle, and poultry
sewage lagoons Replacement of chemical flocculants in water treatment plants Pre-treatment of salt, or brackish, water before filtration Proven treatment of landfill leachate
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Nataprene
What is Nataprene Nataprene is a proprietary, premium-grade, high
performance TDI-PTMEG polyether polymer advanced material with extreme versatility which was formulated and developed by Marnat Industrial Company, LLC
It contains urethane groups and is created by reacting isocyanates with polymers and chain extenders. By varying the nature of these components, many properties can be created for variety of applications
Performance and use Has outworn ordinary rubbers and plastics, often
by a factor of 8:1 Products are distinctive with respect to their
abrasion and corrosion resistance as well as it’s load-bearing capacity and hardness
Offers high-impact resistance, elasticity, translucence, and high resistance to oils, ozone degradation, and gamma ray radiation
Is used in such industries as power, utilities, sand and gravel companies, pulp and paper processing, mining, marine, and aeronautics
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IET’s EC113 Concrete Treatment
The Deterioration of Concrete: As concrete ages and is exposed to the elements of heat, cold, carbon
dioxide, chlorides and other chemicals it begins to deteriorate When these chemicals penetrate the concrete there is a drop in pH that
results in the corrosion of the steel rebar. This corrosion expands to many times the size of the original steel, causing the surface to spall and exposes this corroded steel
The IET Concrete Injection System: This system is able to transform corrosion active concrete to a passive
state, measured by a industry accepted corrosion rate. ECII3, a water soluble proprietary formulation, penetrates and migrates through the cement micro gel pores and lining structure to the rebar level
Reverses the conditions that affect the durability of concrete by protecting against freeze/thaw damage, salt scaling, and sulfate attacks
Protection is provided both at the reinforcing steel and by a reduction of chloride ion ingress
It reacts at the rebar surface to convert rust into a strong chemically inert protective surface
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Performance Traits of EIT’S EC 133
Establish a protective film on the rebar surface Convert rust to a hard inner shell Purge and stabilize contaminants Reduce water penetration Evaluate and/or control pH Increase compressive strength Provide resistance to acid Substantially reduce porosity Increase hardness Increase surface adhesion Seals micro-cracking
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IET – Principal Biographies
Bob Gorley
Roger Kolb
F. William Gillmore
Eugene Markovics – Nataprene Anthony Fiasco & Robert Walde – EC113 Concrete Treatment
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Financial Projections – Waste Gasification & Electrocoagulation16
Year 1 Year 2 Year 3 Year 4 Year 5IET - Sales Revenue
Thermal Waste Gasification Technology (WG) 52,000,000$ 150,000,000$ 250,000,000$ 350,000,000$ 500,000,000$ Electrocoagulation Water Treatment Technology (EC) 25,000,000$ 50,000,000$ 75,000,000$ 100,000,000$ 150,000,000$
Equipment & Material Costs 33,500,000$ 90,000,000$ 147,500,000$ 205,000,000$ 295,000,000$
43,500,000$ 110,000,000$ 177,500,000$ 245,000,000$ 355,000,000$
General & Administrative 60,000$ 120,000$ 120,000$ 120,000$ 120,000$ Offi ce & Rent 120,000$ 150,000$ 150,000$ 150,000$ 150,000$ Sales & Travel 250,000$ 500,000$ 500,000$ 500,000$ 500,000$ Marketing Materials 250,000$ 250,000$ 250,000$ 250,000$ 250,000$ Legal & Accounting 150,000$ 250,000$ 250,000$ 250,000$ 250,000$ Misc. Expenses 250,000$ 500,000$ 500,000$ 500,000$ 500,000$ Salary - Existing Management Team
Bob Gorley - CEO 200,000$ 200,000$ 200,000$ 200,000$ 200,000$ Roger Kolb - Waste Gasification Engineer 120,000$ 120,000$ 120,000$ 120,000$ 120,000$ William Gilmore - Electrocoagulation Engineer 120,000$ 120,000$ 120,000$ 120,000$ 120,000$
Salary - Personnel RequirementsCOO 125,000$ 250,000$ 250,000$ 250,000$ 250,000$ Senior Project Engineer 75,000$ 150,000$ 150,000$ 150,000$ 150,000$ Project Engineer -$ 120,000$ 120,000$ 120,000$ 120,000$ CFO 100,000$ 150,000$ 150,000$ 150,000$ 150,000$ Admin - Offi ce Manager/HR 65,000$ 65,000$ 65,000$ 65,000$ 65,000$ Admin - Offi ce Support -$ 55,000$ 55,000$ 55,000$ 55,000$ V.P. of Sales & Marketing 100,000$ 200,000$ 200,000$ 200,000$ 200,000$ Sales Associate 60,000$ 120,000$ 120,000$ 120,000$ 120,000$ Sales - WG Service & Support -$ 120,000$ 120,000$ 120,000$ 120,000$ Sales - EC Service & Support -$ 120,000$ 120,000$ 120,000$ 120,000$ Sales Assistant 30,000$ 60,000$ 60,000$ 60,000$ 60,000$
2,075,000$ 3,620,000$ 3,620,000$ 3,620,000$ 3,620,000$
41,425,000$ 106,380,000$ 173,880,000$ 241,380,000$ 351,380,000$
Net Revenue
Total Expenses
Net Profit (Pre-Tax)
International Environmental TechnologiesProject Pipeline – Waste Gasification & Waste Gasification-To-Energy
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1 - All permits issued by the state of
Florida and Dixie County
- Contract executed
- All Due Diligence completed
- In process of obtaining funding
2 - Land owned and improvements
under construction
- Contract signed800 tons per day $5 million First Phase - Permits partially received, balance
(200 tons per day First Phase) 33% at initiation of contract expected within 30 days
3 - Site owned; Funding in place
- Pushing to finalize contract and
fund $600,000 pilot plant at site
100 tons per day - I taly has mandate for this type of
(First out of 16 plants in process) plant with significant financial rewards
4 Monangahella Power - Proposal agreed upon
Valley - Contract & Funding in process
- Company underwent state funded $2
million study of technologies in this area.
IET chosen as best by a wide margin.
Gasification to PowerBucks County, Pennsylvania
$100 million $50 million
1000 tons per day 33% at initiation of contract
Gasification to Energy Italy E.J. Greensystem, S.R.L. $10 million $5 million
33% at initiation of contract
Waste Gasification Ensenada, MexicoTratamientos Ambientale de
Scorpion, S.A.$47 million $23 million
$11 First Phase
Waste Gasification Dixie County, Florida Dixie Waste Serives, Inc. $5.25 million $2 million
150 tons per day 33% at initiation of contract
PROJECT DESCRIPTION LOCATION CLIENTQUOTED
PRICEPROJECTED GROSS
PROFIT/TERMSSTATUS/NOTES
International Environmental TechnologiesProject Pipeline – Waste Gasification & Waste Gasification-To-Energy
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5 - Government has funding in place
for the plant
200 tons per day 33% at initiation of contract
6 - 15 separate projects in Italy under
government mandate. Government
7752 tons per day allows high return and quick
(16 projects) 33% at initiation of contract payback from electricity purchase
7 Shadi Arnita of Kuwait - Projects to process waste piled up
Has first right to handle this from the Iraq War
600 tons per day + project. Funded by Kuwait. 33% at initiation of contract
8 - Multiple projects
- Haiti pushing to move ahead
- Funding in place from World Bank
3000 tons per day 33% at initiation of contract as a priority project
9 Abu Dhabi Government - This area needs this technology
Environmental Committee and governments are pushing
1600 tons per day 33% at initiation of contract - Funding in place
10 - Brazil in significant push for waste
and water projects
- Representative owns significant
Waste to Energy Projects U.A.E., Abu Dhabi $160 million $80 million
Waste to Energy Porto Lasa, Brazil Government of Brazil $220 million $110 million
Waste Gasification Kuwait $36 million$18 million
Waste to Energy Projects HaitiGovernment of Haiti/
World Bank$300 million $150 million
Gasification to Power Turkey Government of Turkey Daniel Park, Agent
$20 million $10 million
Gasification to EnergyItaly E.J. Greensystem, S.R.L. $600 million $300 million
PROJECT DESCRIPTION LOCATION CLIENTQUOTED
PRICEPROJECTED GROSS
PROFIT/TERMSSTATUS/NOTES
International Environmental TechnologiesProject Pipeline – Electrocoagulation Water Treatment
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1 - Prime Minister of Haiti and Environmental
Minister pushing to meet IET together with
World Bank in Washington D.C.
- $80 million already set aside for Water
Projects in Haiti by World Bank
2 - Negotiations in process with government
- These systems are necessary to help meet
new water standards which must be in
place by the end of 2008
- IET needs to bring a demo system to Brazil
to finalize the deal
3 $50 million - Funding in place
- IET is the most competitive bidder with
the best technology
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(Multiple Systems) (Total Work) 33% at initiation of contract
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STATUS/NOTESPROJECT DESCRIPTION LOCATION CLIENTQUOTED
PRICEPROJECTED GROSS
PROFIT/TERMS
33% at initiation of contract
Pre-Treat Drinking Water HaitiGovernment of Haiti -
World Bank$50 million $35 million
5000 + Separate Systems 33% at initiation of contract
Pre-Treat Drinking Water Brazil Government of Brazil $90 million $63 million
Waste Water Treatment Plant
Panama City, Panama
Government of Panama with funding from Trust
$35million
33% at initiation of contract
- Significant demand in India from multiple clients
- This is part of quoted price for Waste to Energy
(prevent scaling/mineral deposits in boilers)
33% at initiation of contract
Waste to Energy Plants All Locations IET $20 million $14 million
Pre-Treatment and Waste Water Treatment
India Hydro Labs/ Government $200 million $140 million
- Unlimited projects
E.C. Water Treatment Italy E.J. Greensystem S.R.L. $50 million $35 million
Waste Water Treatment (Oil & Sand Water)
Canada Creative Energy $200 million $140 million
International Environmental TechnologiesProject Pipeline – Key Developments
Golder Associates is the top environmental engineering, permitting, and construction company in the world with 130 offices in 26 countries. Golder handled the engineering due diligence and permitting with Dixie County Florida and the Florida Department of Environmental projection. They have been so impressed by the technology, they want to represent IET world-wide
E.J. Greensystem, S.R.L. in addition to working with 16 current projects in Italy wishes to represent IET for all of Italy and Mediterranean Basin
Representatives of Haiti and the World Bank including the Prime Minister and the Environmental Minister have selected IETs Waste Gasification and Water. Technology and funding is in place from the World Bank
M.J. Aslan Environmental Engineering with significant relationships in the Middle East and Europe wishes to represent IET in the U.A.E., Abu Dhabi, Europe, and North Africa
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3rd Party Verification of Technology
The following list of IET’s WG/TO technology benefits were taken directly from 3rd party statements after a careful study of the process commercially proven with mixed waste streams particularly MSW and waste tires requires minimal presorting and processing of waste including tires environmentally appropriate - yielding low air emissions well within EPA and EU standards
and sterile ash recapture of recyclables after gasification reduces material handling requirements relatively low operating costs robust primary cells with relatively few moving parts very good utilization of the feed stock with high yield of useable energy minimal waste disposal requirements, i.e., approximately 10% of incoming volume modular, scalable and easily expandable to accommodate increased demand
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