Slide 1:Introducing a Dramatic new Waste to Energy Technology ILS, Inc copyright @ 2003 Rev 1.5


HISTORY :HISTORY 1989 Development of patented waste neutralization and solidification system 1992 First demo plant operational in Switzerland 1993 Start of development of pyrolysis technology 1995 Development of ultra high temperature gasification by means of induction electricity 1996 construction of a demo plant in Brentwood, England 1999 Development of industrial plant and delivery of plant to a municipal waste water treatment plant in Germany 2003 Partner with ILS, Inc. for North America launch ILS, Inc.


PATENTSAND TECHNOLOGIES :PATENTSAND TECHNOLOGIES The Pyromex process and technologies are patented worldwide The Group possesses 68 patents, patent applications and know-how related to solving waste and environmental problems ILS, Inc.


MISSIONSTATEMENT :MISSIONSTATEMENT To safeguard human health and the environment by using the latest technology to provide efficient and cost-effective, environmentally friendly industrial and domestic waste management and disposal. ILS, Inc.


Slide 5:SOME WASTE STATISTICS


WASTE STATISTICS :WASTE STATISTICS ILS, Inc.


WASTE STATISTICS :WASTE STATISTICS ILS, Inc.


WASTE STATISTICS :WASTE STATISTICS This picture illustrates the quantity of trash produced by an average American family per year (over 3 tons) ILS, Inc.


Slide 9:THE PYROMEX TECHNOLOGY THE SOLUTION!


ULTRAHIGH TEMPERATURE GASIFICATION :ULTRAHIGH TEMPERATURE GASIFICATION Ultrahigh temperature gasification is the destructive distillation of an organic material. This distillation process involves the application of intense, indirect thermal energy in the absence of oxygen which reduces the material to combustible gases and a non-hazardous, non-leachable inorganic. ILS, Inc.


WHAT HAPPENSIN THE REACTOR? :WHAT HAPPENSIN THE REACTOR? CnHm – – – > CH4 + H2 + C CH4 + H2O – – – > CO + 3H2 C + H2O – – – > CO + H2 C + CO2 – – – > 2 CO ILS, Inc.


WHATDOES THIS MEAN? :WHATDOES THIS MEAN? ORGANIC MATERIAL Converts to a pyrogas with the following approximate composition INORGANIC MATERIAL Converts to a non-leachable, sand or basalt-like, environmentally harmless residue which can be reused ILS, Inc.


WHY GASIFICATION WITHOUT OXYGEN? :WHY GASIFICATION WITHOUT OXYGEN? Principle differences between incineration and Pyromex thermal degradation ILS, Inc.


EXAMPLE :EXAMPLE ILS, Inc.


Slide 15:EXAMPLE OF A PYROMEX PLANT (OPERATING IN GERMANY)


FEEDING SYSTEM :FEEDING SYSTEM ILS, Inc.


HIGH TEMPERATURE REACTOR :HIGH TEMPERATURE REACTOR ILS, Inc.


INDUCTIONSYSTEM :INDUCTIONSYSTEM ILS, Inc.


CERAMICREACTOR PIPE :CERAMICREACTOR PIPE ILS, Inc.


RESIDUE OUTFEED :RESIDUE OUTFEED ILS, Inc.


GENERALPLANT VIEW :GENERALPLANT VIEW ILS, Inc.


SCHEMATIC :SCHEMATIC ILS, Inc.


TYPICALMATERIAL FLOW :TYPICALMATERIAL FLOW ILS, Inc.


Slide 24:ECONOMIC CONSIDERATIONS


REVENUE SOURCES :REVENUE SOURCES Tipping fees Recycled material Services rendered Energy Production Steam Heating Any manufacturing process requiring energy AFTER Pyromex Technology ILS, Inc.


ENERGY BALANCE :ENERGY BALANCE If a gas engine is used to recover the energy from the pyrogas, the following energy balance can be assumed: Electricity production with a gas engine 1,400 kWh Required energy for the Pyromex reactor 600-800 kWh Available for sale 600 kWh Furthermore, off-heat can be used with an additional value of 1,800 kWh ILS, Inc.


ENERGY RECOVERY :ENERGY RECOVERY Utilization of the pyrogas for heating purposes or industrial applications, replacing oil and gas Operation of a high temperature afterburner with successive steam production, steam turbine and generator Operation of a gas engine combined with a generator Conversion of the pyrogas to hydrogen and production of electricity via fuel cells Pyromex offers the following energy recovery technologies: ILS, Inc.


PYROGAS TO HYDROGEN :PYROGAS TO HYDROGEN ILS, Inc.


FINANCIAL PROJECTIONS :FINANCIAL PROJECTIONS ILS, Inc.


THE PYROMEX TECHNOLOGY :THE PYROMEX TECHNOLOGY Rational Economical Environmentally compatible ILS, Inc.