commercial cogeneration Articles

  • 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.

  • Challenges of Fuel Gas Purification for Cogeneration Under Stringent Regulatory Requirements

    ABSRTRACTInland Empire Utilities Agency (IEUA), a municipal water district based in Chino, CA is currently executing a cogeneration power project, titled Renewable Energy Efficiency Project (REEP) at the Regional Plant No.5 (RP-5), which showcases a variety of innovative technologies for the power production. The project involved many innovative technologies, most of which are still in the ...

  • Towards a desalination initiative using cogeneration with an advanced reactor type and uranium recovered from Moroccan phosphoric acid production

    Morocco is known to be among the first few countries to produce phosphate and phosphoric acid. Moroccan phosphate contains substantial amounts of uranium. This uranium can be recovered from the phosphate ore as a by-product during the production of phosphoric acid. Uranium extraction processes linked with phosphoric acid fabrication have been used industrially in some countries. This is done ...


    By Inderscience Publishers

  • Bolivar wastewater treatment plant cogeneration facility to be Installed by Clarke Energy - Case Study

    The Bolivar Wastewater Treatment Plant (WWTP) is the largest wastewater treatment plant in the Adelaide region, processing almost 70% of Adelaide’s metropolitan wastewater. The South Australian Government has approved a $25.8 ...


    By Clarke Energy

  • Advanced, integrated systems meet the challenges of commercial-scale operation

    Technological frontiers in die alternative energy industry continue to widen in countries around the globe. As such, die exploitation of biomass as a source of energy has become die fastest-growing sector among a growing roster of energy solutions. Today, more energy is produced from various forms of biomass dian from all wind, solar and geodicrmal applications combined. Much of die excitement ...


    By Beltran Technologies, Inc.

  • Utilisation of sugarcane agricultural residues: electricity production and climate mitigation

    This paper deals with the potentials and opportunities of Sugarcane Agricultural Residues (SARs) for green power production in sugarcane-growing countries. It focuses on the possibilities of cofiring SARs with sugarcane bagasse, a similar physicochemical resource which is currently being commercially converted into electricity in state-of-the-art cogeneration plants. It also assesses the climate ...


    By Inderscience Publishers

  • Reduce, reuse and renew: one possible approach to cut carbon emissions

    Global climate change has become an increasingly important issue over the last several years. This issue reached a climax at the Kyoto Conference in December, 1997 where the US agreed to reduce its greenhouse gas emissions to 7% under its 1990 levels by 2010. This paper describes how distributed resources could be part of an overall solution towards achieving these reductions. It illustrates how ...


    By Inderscience Publishers

  • The recent development of biomass energy in India: an overview

    This paper presents the current status and use of Biomass Technologies (BTs) in India. Different technology routes such as gasification, combustion and cogeneration are being actively developed to promote conversion of biomass materials such as agricultural, forestry and agro-industrial residues into electric power. The promotion of scientifically designed models of wood/biomass fired efficient ...


    By Inderscience Publishers

  • Plasma resource recovery technology –converting waste to energy and valuable products

    Abstract Plasma Resource Recovery (PRR) is a revolutionary technology that can treat virtually any type of waste by combining gasification with vitrification. Vitrification produces inert slag that can be used as a construction material. Gasification produces a fuel gas containing carbon monoxide (CO) and hydrogen (H2), used for cogeneration of electricity and steam. The plasma fired ...


    By PyroGenesis Canada Inc.

  • The Effectiveness of Combined heat and Power Solar Water Heating Systems

    Abstract: Solar water heating in residential and commercial buildings is often provided by integrating a large number of domestic thermosyphon solar water heaters. The economic effectiveness of solar Domestic hot water heating systems depends mainly on its types and configurations. Thereupon in this paper, simulation models have been presented for the modeling of thermal and electrical ...


  • A Structured Approach to Steam System Improvement through Utility System Design and Optimisation

    Optimal operation of site utility systems is becoming an increasingly important part of any successful business strategy as environmental, legislative and commercial pressures grow. A reliable steam model allows a clear understanding of the system and of any operational constraints. It can also be used to determine the true cost of improvement projects, relating any changes in steam demand back ...

  • Tamar Energy’s Basingstoke Biogas CHP Plant - Case Study

    Tamar Energy’s Basingstoke anaerobic digestion (AD) facility is located in Hampshire. It was commissioned in 2013. The AD plant converts food waste into biogas. This renewable fuel generated is used on-site (power and heat) and the electricity is exported to the national grid, reducing carbon emissions while improving the environment. The Basingstoke site is one of Tamar Energy’s ...


    By Clarke Energy

  • Review of med fundamentals and costing

    Introduction Low Temperature Multi Effect Distillation (LT-MED) is one of the most efficient thermal desalination processes currently in use. It incorporates technological advances which have resulted in reliable, durable and economical desalination plants producing high purity product water. These advances are as follows: Development of a unique design of a falling ...


    By IDE Technologies

  • The Francis Crick Institute CHP Plant - Case Study

    The Francis Crick institute is being built in central London next to St Pancras International station. By bringing together scientists from all disciplines, it will not only help to improve people's lives but will also keep the UK at the forefront of innovation in medical and bioscience research, attract high-value investment, and strengthen the economy. Francis Crick was one of Britain’s ...


    By Clarke Energy

  • Towards an European Fuel Cell Strategy

     Head of Unit 'Energy Consumption Technology' At the onset of the Fourth Framework Programme for Community research and technological development including demonstration, a ten year fuel cell strategy for Europe was published in 1995 jointly by DG XII (Directorate General for Science, Research and Development) and DG XVII (Directorate General for Energy). The interest of the European ...

  • Sydney Central Park district energy scheme reduces carbon emissions using tri-generation - Case Study

    ADELAIDE, AUSTRALIA: Clarke Energy has secured sales to expand the award winningCentral Park district energy scheme in Sydney, New South Wales. Clarke Energy to supply an additional 1.1MWe of ...


    By Clarke Energy

  • Landfills types of technologies for converting LFG into Energy

    A number of factors, including the availability of an energy market, project costs, potential revenue sources, and other technical considerations, can determine which technologies are most appropriate for a particular landfill gas-to-energy (LFGE) project. Technologies for converting LFG into energy include the following. Electricity Generation Approximately 70 percent of the LFGE ...


    By Waste Advantage Magazine

  • CHP efficiency for biogas

    Combined heat and power plant efficiency is a function of the conversion efficiency of the energy in the fuel gas to useful energy in the form of electricity and heat. A combined heat and power (CHP) plant is typically a reciprocating gas engine that uses the energy in the gas to drive a crank shaft. The crank shaft turns an alternator to ...


    By Clarke Energy

  • Using biogas for combined heat and power

    An integral part of the majority of anaerobic digestion facilities across the world is the CHP combined heat and power (CHP) engine. For the first time builder of a biogas plant, it is often neglected as the focus is on reducing the capital costs ...


    By Clarke Energy

  • Using biogas for combined heat and power

    An integral part of the majority of anaerobic digestion facilities across the world is the CHP combined heat and power (CHP) engine. For the first time builder of a biogas plant, it is often neglected as the focus is on reducing the capital costs ...


    By Clarke Energy

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