International Environmental Solutions Corporation and Neoteric Environmental Technologies, Inc. (hereinafter referred to as “IES” and "NET", respectively) are environmentally oriented companies whose primary purpose is to commercialize "waste-to-energy" pyrolytic systems in the world market using the unique patented technology of the continuous-feed waste treatment system referred to as the IES "Advanced Pyrolytic System".  Our companies will manufacture, sell, and operate these systems worldwide along with several other environmentally related products, such as thermal oxidizers, wastewater treatment plants, and add-on units for detoxifying asbestos.  IES is dedicated to the marketing and sales of the Advanced Pyrolytic System and custom engineering environmental applications for our customer’s specific needs, while NET is the operating company for our processing and fabrication facility in Southern California.  At the project site in Romoland, California in the County of Riverside, we will have a 250-Gallon Per Minute Industrial Wastewater Treatment Plant as well as a 50-TPD Advanced Pyrolytic System, which will be devoted to the Reactivation of Carbon.  In addition, a complete state-of -the-art Wet and Dry certified Laboratory will be on site and a fully equipped Fabrication facility.  Once processing plant is operational we will be preparing to expand the plant for the co-generation of electricity to be sold as well as for use in the operation of the plant.  The processing plant will begin operation Summer 2002.

 We are committed to bringing our customers the most advanced technology in pyrolysis. With changing regulations and a growing need for commercial pyrolytic waste systems, our Advanced Pyrolytic System (also referred to as "APS) is being acknowledged as one of the leading waste technologies.  Pyrolysis, unlike incineration, allows for waste destruction in an oxygen-free atmosphere, making this system highly efficient with no harmful substances remaining, either in the atmosphere or as a residue.  Our unique ability to provide a continuous-feed has eliminated the problems that have plagued other pyrolytic systems, such as found in the batch systems.  The Advanced Pyrolytic System is designed for trouble-free operation and minimal down time.  In addition, our exclusive safety features surpass any other pyrolytic processes, and are designed and engineered to control the temperature in every stage of the process with automatic shutdown safety mechanisms built in.

 This technology serves dual purposes by helping to address the growing worldwide problem of waste disposal, while utilizing the waste product to generate energy in the form of electricity for the surrounding communities.  It has been approved by federal, state, and local agencies in the USA for air quality, and complies with all environmental regulations and guidelines above their standards.

Pyrolysis has been known for hundreds of years.  The singular advantage of pyrolysis, unlike incineration, is the destructive decomposition of waste materials using indirect heat in the absence of oxygen.  Burning wastes through incineration with direct flame in the presence of oxygen can be explosive, causing turbulence in the burn-chamber, which fosters a recombination of released gases.  Waste destruction in an oxygen-rich atmosphere makes conversion far less complete, is highly inefficient and creates harmful substances.  Pyrolysis is the solution.

 Pyrolytic Thermal Converter Systems, historically have been plagued with an assortment of operating problems, are maintenance-intensive, inefficient and sometimes even dangerous to operate.  International Environmental Solutions (IES) is systematically engineering solutions to produce efficient, reliable, continuous and safe pyrolytic systems for processing a variety of waste materials, including industrial hazardous, non-hazardous solid and liquid, toxic solid and liquid, municipal solid, medical, PCBs, petrochemical, and many other waste streams.

 We are using a pyrolytic process, which applies high temperatures (from 1,200°F to 1,800°F) indirectly to a retort chamber which houses an environment free of flame and oxygen.  Inside, hydrocarbons and other waste components are converted into gases and basic elemental solids via destructive distillation and molecular decomposition.  All of the off-gases are diverted to a thermal oxidizer operating at 2,250°F for conversion to carbon dioxide, oxygen and water vapor.  The remaining solid residues passing out of the retort are typically carbon, sterile sands and fixed, non-leachable metals.

 Waste materials are fed through airlocks to the horizontal retort chamber, which houses a proprietary rotating auger.  The retort has been specifically designed to allow the upper portion to transport the generated gases to the thermal oxidizer, while the bottom portion contains suspended screws (augers) that convey the waste through the retort as pyrolysis occurs.  Another set of airlocks is positioned at the "solids discharge" end of the retort chamber to prevent the introduction of oxygen.  The Advanced Pyrolytic Systems are designed for trouble-free operation and minimal down-time.

 The Advanced Pyrolytic Systems, in addition to destroying waste materials, facilitate the cost-effective use of all processing by-products.  For example, the heat from the thermal oxidizer can be routed to waste-heat boilers to produce "process steam" or electricity via steam turbine generators.  Solid residues, depending on composition, can often be recycled, sold as commodities, or formed into construction material.

 Our Advanced Pyrolytic Systems are environmentally sound, have outstanding energy efficiency and portability, and they provide up to 92% volume reduction of many feed materials.  Specialized processing lines have been engineered to treat industrial wastes, PCBs, medical wastes, petrochemical wastes, municipal solid wastes and a variety of other waste materials. IES’s individual processing systems range in sizes from 5 TPD (tons per day) to 250 TPD through-put.  By using multiple processing lines with our modular-style units, the total design capacity can be virtually unlimited.

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