syngas Articles

  • Cleaning Up Gasification Syngas

    Documento sin título ...


    By Merichem Company

  • Using Venturi Scrubber Technology for Syngas Cleaning

    As part of our nation's program to reduce dependence on fossil fuels, various gasification technologies are being applied. These processes take renewable organic material and, through the application of heat and pressure, convert the materials into syngas for further use. Arguably, in nearly all of these processes, the most critical design aspect is the reliable and efficient removal of ...


    By Bionomic Industries Inc.

  • Proton Power 25m3 DIY Syngas Storage

    Based in Tennessee USA Proton Power Inc. (PPI) was founded by 2 remarkable entrepreneurs with previous successes in such diverse areas as aircraft brakes and neutron absorbers (don’t ask!). With this kind of history we knew their requirement was going to be beyond our usual scope. We weren’t wrong - they requested a 25m3 Base gas holder in which to store a syngas mixture with high ...


    By Base Structures Ltd

  • Thermal treatment of fleshing residue for producing syngas

    In this paper, characteristics of syngas from the pyrolysis and gasification of tannery industry fleshing residues has been investigated. Pyrolysis and gasification behaviour were evaluated in terms of syngas composition and total energy production. Dried air and pure oxygen (99%) were used as gasification agents. Experiments were also erformed in oxygen–free media. H2, CO and ...


    By Inderscience Publishers

  • Conversion of sewage sludge to commodity chemicals via syngas fermentation

    Gasification of sewage sludge allows the recovery of energy, and produces a mix of CO, CO2 and H2 called synthesis gas (or syngas), which can be fermented by acetogenic bacteria to added-value products. This work presents the conversion of syngas to organic acids and alcohols using both pure and mixed cultures. Pure culture kinetic experiments with Clostridium ...


    By IWA Publishing

  • Plasma gasification and vitrification of ash – conversion of ash into glass-like products and syngas

    The Plasma Gasification and Vitrification of Ash (PGVA) system is a patented process that uses energy generated by plasma arcs along with the controlled addition of small amounts of air and steam to convert the organic portion of ash into a synthesis gas (gasification) and the inorganic portion into a glassy rock (vitrification). The vitrification of the ash’s inorganic portion ...


    By PyroGenesis Canada Inc.

  • Exergy analysis of a syngas fuelled cogeneration cycle for combined production of power and refrigeration

    This communication presents a biomass fuelled cogeneration cycle for the combined production of power and refrigeration. The system is an integration of combined gas–steam cycle and absorption refrigeration cycle. A thermodynamic analysis through energy and exergy is employed, to investigate the effects of cycle pressure ratio, gas turbine inlet temperature and evaporator temperature on first–law ...


    By Inderscience Publishers

  • Study of the performance and exhaust emissions of a spark-ignited engine operating on syngas fuel

    To resolve the problem of depletion of petroleum based liquid fuels, various solutions have been proposed. One of them is the use of gaseous fuels that are generated from the gasification of woods, namely syngas or wood-gas fuels, as full supplement fuels in spark ignition internal combustion (IC) engines. This fuel consists of nearly 40% combustible gases, mainly hydrogen and carbon monoxide ...


    By Inderscience Publishers

  • Transformations of syngas derived from landfilled wastes using the Gasplasma process

    Abstract The Gasplasma advanced conversion technology is able to efficiently produce a clean syngas and an environmentally stable vitrified product from historically landfilled materials. The syngas is rich in hydrogen and carbon monoxide and possesses high calorific value, and low residual tar levels. While this syngas has traditionally been considered only as a fuel source for power ...


    By Advanced Plasma Power (APP)

  • Energy recovery from thermal treatment of dewatered sludge in wastewater treatment plants

    Sewage sludge is a by-product generated from municipal wastewater treatment (WWT) processes. This study examines the conversion of sludge via energy recovery from gasification/combustion for thermal treatment of dewatered sludge. The present analysis is based on a chemical equilibrium model of thermal conversion of previously dewatered sludge with moisture content of 60–80%. Prior to ...


    By IWA Publishing

  • Performance analysis of a co-gasifier for organic waste in agriculture

    Background:Agricultural waste has been proposed as an alternative energy resource to meet fossil fuel crisis, green house emission, and other environmental impacts worldwide. In Iran, rice husk and bagasse are main resources of biomass which can be used to produce syngas. This paper deals with a simplified model of combined gasification of coal and biomass processes considering chemical ...

  • Underground Coal Gasification: Converting Unmineable Coal To Energy

    Currently, about 1.5 billion people –almost a quarter of the world’s population— are without electric power. The International Energy Agency estimates that world energy demand (for all forms of energy, including transportation fuels) will increase by 36 percent by 2035 and fossil fuels, such as coal, will continue to play a critical role in meeting this demand. What is ...

  • Boiler mass spec diagnostic testing case study

    CK Environmental was retained by Ze-Gen, to conduct a diagnostic emissions test program on their pilot plant in New Bedford, Massachusetts. Ze-gen is a leading developer and integrator of waste gasification technology which converts construction and demolition waste (C&D) and municipal solid waste (MSW) into near zero-emissions syngas and electrical energy. The ...


    By CK Environmental, Inc.

  • Co-gasification of wood and polyethylene with the aim of CO and H2 production

    This article describes the gasification of polyethylene–wood mixtures to form syngas (H2 and CO) with the aim of feedstock recycling via direct fermentation of syngas to ethanol. The aim was to determine the effects of four process parameters on process properties that give insight into the efficiency of gasification in general, and particularly into the optimum gasification conditions for the ...


    By Springer

  • Converting waste into valuable resources with the Gasplasma process

    Abstract This paper reports on a novel process development to convert waste into renewable energy using gasification. Advanced Plasma Power (APP) has developed an advanced thermal conversion technology, (Gasplasma ), capable of treating a wide range of organic and inorganic wastes. In the two-stage thermal process, the fluidised bed gasifier (FBG) converts the waste to a crude syngas ...


    By Advanced Plasma Power (APP)

  • Investigation of Pilot-Scale Experimental Pyrolysis Plant for the Treatment of Automobile Shredder Residue: Preliminary Results

    Abstract The main objective of the present research work is to evaluate both the process performance and characteristics of the products obtained from the treatment of automobile shredder residue using a pilot-scale experimental pyrolysis plant operating under different load and varying process temperature. ASR samples used for the treatment, solid and liquid by-products obtained and syngas ...


  • Energy from waste: How the Gasplasma system works

    As well as being able to convert refuse into power and empty out existing landfill sites, releasing the land for reuse, the Gasplasma process offers a significant benefit: its by-product is a building material, not a waste. A process called Gasplasma combines two well proven technologies in a unique combination to convert waste into a very clean, hydrogen-rich synthesis gas ...


    By Advanced Plasma Power (APP)

  • Biofuels Gas Monitoring

    The Customer The Company is one of the world’s leading developers and producers of advanced fuels and green chemicals. The Process The Company uses a gasification process that breaks down wood chips, waste and other feedstock using plasma technology. The process produces a uniform synthetic gas (syngas) that is used to power their turbine engines. ...

  • Commercial demonstration plant Westbury, Quebec (Canada)

    Status: Operations started in 2009 Feedstock: Used electricity poles Main Product: Syngas, Biomethanol (Cellulosic Ethanol in the future) Capacity: 5 million litres /1.3 million gallons per year Enerkem’s Westbury facility is the company’s first commercial biofuels and biochemicals facility. ...


    By Enerkem

  • FAQ About Plasma Arc Gasfication Process from Plasma Waste Recycling, Inc (PWR)

    What is Municipal Solid Waste? Municipal solid waste (MSW)—more commonly known as trash or garbage—consists of everyday items such as product packaging, grass clippings, furniture, clothing, bottles, food scraps, newspapers, appliances, paint and batteries. It does not contain industrial, hazardous, or construction waste. Since 1980, the total annual volume of MSW generated in the U.S. has ...


Need help finding the right suppliers? Try XPRT Sourcing. Let the XPRTs do the work for you