Please view the glossary of terms used herein which is copied below.
I spent many hours studying pyrolisis for gasification.
The process is very interesting.
I will compare the competition between a Pyrolysis gasification apparatus, hereinafter referred to as PGA, and my pyrolysis EEPPAA.tech new novel innovative, (100% completely-enclosed clean conversion-100%CCC), invention which when used with a biomass, (natural renewable resource wood), steam-electric generator emits NO smoke, pollutants or carbons into the atmosphere. EEPPAA.tech will be hereinafter referred to as EPA.
FEEDSTOCK: The most used feedstock application for PGA is plastic and rubber a recurring resource for feedstock. Plastic and rubber is a giant negative for the environment. The EPA uses wood from trees. Trees produce many positive benefits to the environment, oxygen, soil erosion abatement from wind and water, windbreakers and food and shelter for animals. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
INFRASTRUCTURE: The PGA uses twice the infrastructure than the EPA. The cost, time and labor are double for the PGA when compared to the EPA. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
ENERGY TO OPERATE: The energy required to operate the PGA is 300-500% more than the EPA. The operating temperature for a typical PGA is +1,000 degrees centigrade. The cost is 3x or 5x the amount of EPA. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
ELECTRICITY PRODUCTION: The PGA gasifies vapors which result in a fuel that can be used to generate electricity using a steam turbine and generator. However, most PGA`s use, the gasified vapors or cooled fuel to continuously heat the reactor and do not generate electricity. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
EXHAUST GASES: The PGA emits exhaust gases into the atmosphere, Beston, Researchgate, Doinggroup. EPA emits NO gases, pollutants, smoke or carbons into the atmosphere and is 100%CCC. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
SIZE: The PGA has a very small size and is not a competitor against EPA. PGA has not demonstrated its scalability. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
USEFUL LIFE OF APPARATUS: The useful life of EPA is fifty years. The useful life of PGA is 10 years. Pyrolisis useful life. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
EXHAUST HEAT ENERGY: The EPA utilizes the energy from the exhaust heat energy to produce income streams from two, 2, different direct, and more indirect, applications in the amount of a minimum of US$2,000,000,000.00 per year. The PGA produces NO income from the exhaust heat energy. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
STEAM HEAT ENERGY: The PGA produces NO income streams from the steam heat energy. EPA produces a minimum of US$5,400,000,000.00 per year income from the steam heat energy. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
RECYCLING: PGA uses the plastics and rubber to incinerate with no residual value. EPA recycles the plastics and rubbers into useful products that generate an income stream in the hundreds of millions of dollars. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
CONCLUSION: PGA is NO competition for EPA. The PGA process is an underwhelming disadvantage, while EPA has an overwhelming advantage.
GLOSSARY OF TERMS
What is the pyrolysis process?
Pyrolysis Process – BioEnergy Consult
Pyrolysis – Wikipedia
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Pyrolysis is the thermal decomposition of materials at elevated temperatures in an inert atmosphere. It involves a change of chemical composition. The word is coined from the Greek-derived elements pyro “fire” and lysis “separating”. Pyrolysis is most commonly used in the treatment of organic materials. Wikipedia