solid biomass power Articles

  • Biomass power generation in China

    “China is an agricultural country,” said Frank Miao. Farmers used to burn harvest waste, and the government decided to capture this energy by constructing a biomass power plant. At the end of 2006, the total biomass power generation capacity in China was approximately 2,200 megawatts (MW). The planned capacity of biomass power plants is 30,000 MW by 2020. Depending on the size of the plant, three ...

  • 6th edition: Biomass-to-Power 2015/2016

    This study is the world’s largest of its kind. It is the standard work of the industry for electricity generation from solid biomass. The 6th updated edition includes: Specific data on around 4,200 units in nearly 2,900 biomass power plants and over 320 biomass co-incinerators worldwide. The biomass power plants have an electricity generation capacity of over 47 GWel. The ...


    By ecoprog GmbH

  • The Beltran biomass cogeneration system

    An effective, economical solution for harvesting safe, renewable domestic energy, mitigating wastes and achieving environmental goals. Background The Beltran Biomass Cogeneration System (BBCS) is an integrated, three-stage process that uses proprietary gasification technology to convert biomass and other organic wastes into versatile, cleanburning synthesis gas. The purified ...


    By Beltran Technologies, Inc.

  • Using biomass for power generation: case study of a timber industry Aripuanã-MT

    Nowadays, the concern for environmental management is increasingly becoming part of everyday business. The timber industries, for example, in its production process, generate a lot of waste requiring proper management of these wastes to reduce their environmental impacts. The study aimed to identify the main advantages that the timber industry can get to the reuse of manufacturing waste to ...


    By Inderscience Publishers

  • Case study - Green Machine uses biomass to put power back on the grid

    St. Helena Island, South Carolina Gross Power Output: up to 43kWe Thermal Heat Input: 200 - 500kWt Hot Water Input Range: 160 - 235°F Hot Water Flow: 150 GPM     Cold Water Input: 68°F Cold Water Flow: 150 GPM In fall 2010, American Capital Resources Company installed ElectraTherm’s heat-to-power Green Machine, for generating power from ...


    By ElectraTherm

  • Gaseous emissions during concurrent combustion of biomass and non-recyclable municipal solid waste

    Abstract Background: Biomass and municipal solid waste offer sustainable sources of energy; for example to meet heat and electricity demand in the form of combined cooling, heat and power. Combustion of biomass has a lesser impact than solid fossil fuels (e.g. coal) upon gas pollutant emissions, whilst energy recovery from municipal solid waste is a beneficial component of an integrated, ...


    By Protea Limited

  • Ethanol, Biomass Plants Planned for Minnesota

    Proposed facilities prepare to turn organic residuals into electricity, methane and synthesis gas “with minimal emissions and more profit.” AN ETHANOL plant in Little Falls, Minnesota is building an on-site gasifier that will convert wood waste and distiller's grains to gas for generating electricity and heat to serve the needs of the Central Minnesota Ethanol Cooperative. At the same time, ...


    By BioCycle Magazine

  • For a Green Future: an Overview of Biomass Energy in China

    Biomass energy Biomass refers to biological materials or organic materials which is renewable and sustainable and could be used as a fuel source. The energy derived from the biomass materials  is called biomass energy. Biomass energy as one type of renewable energy has be developed with priorities in China. Current situation of Biomass resource in China ...


  • Feasibility analysis for biomass in cities, counties and facilities

    The commercial waste industry includes all those who collect waste from the simplest “collect waste and transport to a landfill” to the more complex “collect waste and process into re-usable components and energy.” This article will cover how we can collect material and fuel a clean energy system for our immediate future, while saving clean water and air. ...


    By Waste Advantage Magazine

  • Municipal Solid Waste – Key to a Low Carbon Economy

    A newly released report has found the waste sector has a key role to play in the development of a low carbon economy and the reduction of greenhouse gases (GHGs). This report comes in advance of the UN Climate Conference in Paris, which will take place in December. The report was ...


    By Zero Waste Europe

  • North American forest biomass helps EU hit 2020 energy targets

    BC Bioenergy Network ("BCBN"), a provincially-funded leader in the growing bioenergy sector in British Columbia and the Wood Pellet Association of Canada ("WPAC"), have released a report that documents Canada's contribution to the EU's renewable energy targets. The study modeled forest carbon dynamics and determined that the production of energy from sustainable solid biomass rapidly mitigates ...


    By GLOBE Foundation

  • Turning waste into power

    Economic, social and environmental factors dictate the necessity to manage waste to a new level. Wastewater plants, landfills, farms and food plants are all the owners of biomass that can be digested to produce biogas and turned into power. Biogas can be burned directly in boilers for heat recovery and used for manufacturing, heating or cooling; this is the simplest method of direct biogas ...


    By Hurll Nu-Way

  • Plasma gasification: Harnessing the power of lightning

    Plasma gasification is both a high-tech solution to the problem of waste management and a source of renewable power. The technology has great potential, but can it move from the fringes to the mainstream? The name "plasma gasification" conjures up images of men in lab coats late at night, investigating a far-flung corner of science that is light years away from commercial readiness. In reality it ...


  • The Right Forces · Producing Power from Recycled Organics

    FOR the more than 200 persons attending the BioCycle “Renewable Energy from Organics Recycling” Conference held October 29-31 in Des Moines, Iowa, there was a sense they were part of “a profound revolution that is developing in our entire energy system.” The sessions revealed how timing, commercial systems, our nation’s priorities and research knowledge have coalesced. Recovery of biomass — ...


  • 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

  • Columbus, Georgia`s High-Efficiency, Low Cost, Digester-Gas-Fired Power Plant

    ABSTRACTGrowing concern over the cost of power and long-term availability of limited fossil fuel resources for the production of electricity have caused electrical utilities and governments to promote “green” or renewable power. Solar, wind, geothermal, biomass, biogas, and low-impact hydroelectricity are current acceptable green-power sources. Digester gas is a renewable, green energy resource ...

  • The Potential of Solar-Powered Water Circulators to Help Solve Serious Water and Energy Problems in the U.S.

    With increasing human populations comes the corresponding increased need for improving water quality in lakes, wastewater ponds, potable water reservoirs, and other water storage facilities. Providing circulation within water reservoirs of all types has long been known to provide meaningful benefits, but the costs to achieve sufficient circulation through diffused aeration or mechanical mixers ...


    By Medora Corporation

  • PRME Naturally Gas Systems

    Your PRME Naturally produced biogas will come from biomass – not fossil fuels. Technically speaking, you will be firing gas produced by the thermal gasification of biomass. PRME’s NaturallyGas process design is not experimental or “under development”, but has been commercially firing industrial boilers for over eighteen years. PRME’s NaturallyGas Systems are ...


    By PRM Energy Systems, Inc.

  • Co-Fire Naturally

    PRM Energy System’s Naturally Gas Cofiring Machine Your PRME Naturally produced biogas will come from biomass – not fossil fuels. Technically speaking, you will be “co-firing” gas produced by the thermal gasification of biomass. PRME’s Naturally Gas Co-firing process design is not experimental or “under development”, but has been commercially firing ...


    By PRM Energy Systems, Inc.

  • Solution concepts for the production of biogas

    With its products that go to form part of biogas plants, it is not only a significant pioneering role that Hofstetter Umwelttechnik AG in Switzerland deserves. The company in Berne also adopts a leading position on the worldwide market for utilizing biogas. Hofstetter products – the socalled flares and compressor stations – are designed both for fermentation plants for biomass and for plants for ...


    By Hofstetter BV

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