Energy efficient technology.ppt

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IGCC for Power generation By Dr. D.N. Reddy, Director Er. K. Basu, Adviser Dr. V.K. Sethi, Research Adviser Centre for Energy Technology, University College of Engineering (Autonomous) Osmania University, Hyderabad – 500 007, India. &

Transcript of Energy efficient technology.ppt

  • IGCC for Power generationByDr. D.N. Reddy, Director Er. K. Basu, Adviser Dr. V.K. Sethi, Research Adviser

    Centre for Energy Technology, University College of Engineering (Autonomous) Osmania University, Hyderabad 500 007, India.&

  • Total installed capacity over 1,00,000 MW

    Thermal power generation has emerged as the principal source of electric power in India contributing to about 70%

    Coal fired thermal stations are in predominance and share about 84% of the total thermal installed capacity.

    It is prudent and economical to develop methods and process for efficient utilization of low-grade Indian coals for power generation.

  • Gasification of coal is the cleanest way of utilization of coal, while combined cycle power generation gives the highest efficiency.

    Integration of these two technologies in IGCC power generation offers the benefits of very low emissions and efficiencies of the order of 44-48%.

    The comparative indices show that in case of IGCC, emission of particulate, NOx and SOx are:

    7.1%, 20% and 16%, respectively, of the corresponding emissions from PC plant.

  • Environmental performance of IGCC thus far exceeds that of conventional and even supercritical plants.

    Three major areas of technology that will contribute to improvements in IGCC are :

    hot gas de-sulfurisation hot gas particulate removal advanced turbine systems

  • Commercialization of IGCC needs technology demonstration at an intermediate scale of about 100 MW to address the issues such as:

    hot gas clean ups and system optimization and to establish reliability and performance.

    This would also enable to design an optimum module for air blown gasification, which in multiples would constitute a commercial size plant in the range of 300-600 MW.

    The present study addresses these issues and suggests suitable technologies for Indian Coals.

  • VISION 2020PROGRAMPost combustion Clean-up-Desulfurization(FGC systems) SupercriticalIn-combustion Clean-up Fluidized bed combustion (CFBC, PFBC, AFBC)Gasification using + fluidized bed, moving bed or Entrant bed GasifiersPre combustion Clean-up beneficiation/washingTechnologies for utilization of Coal for Power Generation with minimal pollutants discharged to the atmosphere (Reduced CO2, Sox, Nox, SPM) at high conversion efficiency.W.C.I.CLEAN COAL TECHNOLOGIES

  • GasifierGas CleanupGas turbineHRSGSteam TurbineSteamHot GasPowerBFWSteamFlue Gas to StackSteamCoalAshSulfurAirFuel gasCompressed AirSchematic Layout of theIntegrated Gasification Combined Cycle

  • Comparison of various Power Plants* High efficiency coupled with low emission (SPM: 7%, Sox:16%, Nox:21% of corresponding PC Plant)** For Indigenous Units through systematic transfer of Technology

    Power Plant ConceptsMajor ComponentsEfficiency %Cost per MW (Rs. Crore/MWPC fired ThermalBoiler, Steam turbine, Coal handling and other BOP34-373.8-4.0CC PlantGas turbine, Steam turbine, Waste hear recovery boiler403.2-3.4IGCC (Coal)Coal preparation unit, gasifier, steam turbine, Gas cleaning GT, WHTSG46* (estimated)4.86-4.95**IGCC (Pet Coke)Air separation unit GT, ST, WHRSG, Gas Clean up48* (with G/H class Gas turbines)4.25-4.30**Super Critical As for PC fired Thermal plus spiral tubes and high temp alloys37.5-39.53.95-4.10

  • Identified R&D Areas are:Process optimization of selected gasification process

    Improvement of design and reliability of plant components & Resource Optimization

    Optimization of overall plant heat integration and layout

    Hot gas cleanup

  • COAL GASIFICATION SELECTION OF GASIFICATION PROCESSThe fluidised bed process has many technical and environmental advantages over the moving bed process, such as,

    The fluidised bed can use any amount of fines whereas in the moving bed only 10% of fines can be used.

    In the fluidized bed process, hydrocarbon, liquid by-products such as tar, oil and gas-liquor are not produced and, hence, the pollution is reduced.

    High ash coals can also be successfully gasified in the fluidised bed.

  • BENEFITS EXPECTED FROM IGCC India endowed with large coal reserves over 200 billion tonnes.

    Environmental benefits due to higher efficiency of conversion and reduced SPM, SOx, NOx levels can be achieved using coal based IGCC technology.

    Retrofit/Re-power options for gas based CCGT plants by installing only coal based gasifiers are cost effective (opportunity cost low) and are environmentally benign.

    Adoption of IGCC technology in India has Global as well as National benefits.

  • IGCC DEVELOPMENT PROGRAM IN INDIAPioneering work on IGCC development in India taken up by BHEL in early eighties.Major Mile StonesChoice of gasification for high ash coals by BHEL6.2 MW IGCC demonstration plant established by BHEL both with moving Bed and Fluidized bed.Coal characterization by BHEL & IICT for gasification application.Intensive data generated by IICT on oxygen-steam gasification in their moving bed gasifier.Task force CEA, CSIR, NTPC & BHEL constituted to assess technological maturity & financial requirement for a green field IGCC plant of 100 MW capacity at Dadri (NTPC). BHEL, CSIR & NTPC prepared proposal for setting up of this 100 MW IGCC demonstration plant.

  • Experience on the fluidized bed process is, very limited in the country.

    Internationally, the experience gained so far is only for low ash coals.

    Thus there is a need for taking up extensive R&D on IGCC Pilot Plant using high ash (40-50% Ash) Indian Coals.

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  • Technology-related issues in IGCCDesign of Advanced gasifiers (optimum gas composition, optimum scale-up etc.)Hot gas cleaning (de-sulphurisation and particulate removal)Advanced gas turbines (blade design to sustain ash laden gas)CO2 emission abatement in IGCC Power PlantsOperating conditions of IGCC plants in transient stageConfiguration of an optimized system for IGCC

  • Fuel related issuesIn a Raw Pet-Coke and refinery residue based IGCC PlantSystem optimization, particularly the balance of plantOptimized Heat balance diagramsScaling up of gasifiers to optimum size

    In a Coal/Lignite based IGCC PlantProcess & Plant conceptual designDe-sulfurization of syngas of high sulfur coal and ligniteOptimized Heat balance diagramsSuper critical Vs IGCC in Indian contextApplication of ASME PTC-47 code for IGCC for high ash coals and lignite

  • SOME IMPORTANT FINDINGS Reactive solid sorbent de-sulfurization combined with hot gas cleaning through ash and sorbent particle removal provides for higher energy efficiency to an extent of 4-7%.

    The current Capital cost of building an IGCC power plant is of the order of Rupees 6 crore/ MW.

    Improvements in hot gas cleaning coupled with Cycle optimization shall bring down the cost drastically to a level of $ 1000/kW or about Rupees 4.5 crore/MW

  • The efficiency of refinery bottom based IGCC unit will be about 2% higher than that of coal based IGCC unit.

    Refinery based IGCC plants - AdvantagesCo-generation of steamCo-production of hydrogen gas & recovery of sulfur elementNo use of limestone, as required for CFBC technologyNo requirement of extra land for disposal of solid waste

    In the long run the refinery based IGCC technology is equally attractive to coal based IGCC from economic and environmental considerations.

  • SOME FINDINGS RELATED TO COMMERCIALIZATION OF TECHNOLGOY

    At present it may be prudent to implement the project in phased manner to absorb the risk of gasifier in the total project wrap-up guarantees fig. 1

    A Technology Transfer model for determination of velocity of Transfer of Technology (TOT) is an useful tool for TOT of a frontier technology from a developed economy to a developing economyfig. 2

  • Typical results of the velocity of TOT are : - (With year 2000 as base)

    IGCC (oxygen blown) - Pet coke Normal pace----5 yearsAccelerated ----2 years(Fig 3)IGCC (Air Blown)----CoalNormal pace----7 yearsAccelerated----5 years ( Fig 4)

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