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Friday, July 31, 2020 | History

3 edition of Cost and performance analysis of biomass-based integrated gasification combined-cycle (BIGCC) power systems found in the catalog.

Cost and performance analysis of biomass-based integrated gasification combined-cycle (BIGCC) power systems

Kevin R. Craig

Cost and performance analysis of biomass-based integrated gasification combined-cycle (BIGCC) power systems

by Kevin R. Craig

  • 175 Want to read
  • 25 Currently reading

Published by National Renewable Energy Laboratory in Golden, CO .
Written in English

    Subjects:
  • Combined cycle power plants,
  • Biomass energy -- Economic aspects,
  • Renewable energy sources,
  • Biomass gasification -- Costs,
  • Electric power production -- Research -- United States

  • Edition Notes

    StatementKevin R. Craig, M.K. Mann.
    ContributionsMann, Margaret K., National Renewable Energy Laboratory (U.S.)
    The Physical Object
    Paginationviii, 58 p. :
    Number of Pages58
    ID Numbers
    Open LibraryOL17616485M
    OCLC/WorldCa36223908

    A biomass gasification combined-cycle power plant consisting of a low pressure indirectly-heated gasifier integrated with an industrial gas turbine was simulated using ASPEN Plus(R) and economic analyses were performed to determine the levelized cost of electricity. To complement this study, a life cycle assessment is being performed. The major driver for biomass gasification research is to exploit low-cost feedstocks, to increase process efficiency, decrease installation and operational costs and socio-environmental effects.

    Downloadable (with restrictions)! This work focuses on short-term application of biomass integrated gasification/combined cycle (BIG/CC) technology with co-firing of natural gas and biomass derived gas. Co-firing leads to higher efficiency and lower costs of BIG/CC technology. A full technical and economic analysis was carried out by integrating performance modeling . Cost and performance analysis. of biomass‐based integrated gasification combined‐cycle (BIGCC) power system. The book illustrates key concepts through a .

    Purchase Integrated Gasification Combined Cycle (IGCC) Technologies - 1st Edition. Print Book & E-Book. ISBN , cost estimation software is used to generate equipment costs. Economic analysis is performed to estimate the capital investment and operating costs. A year discounted cash flow rate of return analysis is developed to estimate a fuel product value (PV) at a net present value of zero with 10% internal rate of return.


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Cost and performance analysis of biomass-based integrated gasification combined-cycle (BIGCC) power systems by Kevin R. Craig Download PDF EPUB FB2

@article{osti_, title = {Cost and performance analysis of biomass-based integrated gasification combined-cycle (BIGCC) power systems}, author = {Craig, K R and Mann, M K}, abstractNote = {To make a significant contribution to the power mix in the United States biomass power systems must be competitive on a cost and efficiency basis.

Cost and Performance Analysis of Biomass-Based Integrated Gasification Combined-Cycle (BIGCC) Power Systems Kevin R. Craig Margaret K. Mann National Renewable Energy Laboratory Cole Boulevard Golden, Colorado A national laboratory of the U.S. Department of Energy Managed by Midwest Research Institute.

BibTeX @MISC{Combined-cycle96costand, author = {Gasification Combined-cycle and Kevin R. Craig and Margaret K. Mann and Gasification Combined-cycle and Bigcc Power Systems and Kevin R. Craig and Margaret K. Mann}, title = {Cost and Performance Analysis of Biomass-Based Integrated}, year = {}}.

Craig, K.R., Mann, M.K., Cost and performance analysis of biomass-based integrated gasification combined-cycle (BIGCC) power systems.

National Renewable Energy Laboratory Report NREL/TPCited by: The Biomass Integrated Gasification Combined Cycle (BIGCC) power system is believed to potentially be a highly efficient way to utilize biomass to generate power.

However, there is no comparative study of BIGCC systems that examines all the latest improvements for gasification agents, gas turbine combustion methods, and CO 2 Capture and Storage Cited by: Cost and Performance Analysis of Biomass-Based Integrated.

By Gasification Combined-cycle, Kevin R. Craig and Margaret K. MannGasification Combined-cycle, Bigcc Power Systems, Kevin R. Craig and Margaret K.

Mann. Abstract. An integrated gasification combined cycle (IGCC) is a technology that uses a high pressure gasifier to turn coal and other carbon based fuels into pressurized gas—synthesis gas ().It can then remove impurities from the syngas prior to the power generation cycle.

Some of these pollutants, such as sulfur, can be turned into re-usable byproducts through the Claus process. The basic scheme is an integrated gasification combined cycle (IGCC), reflecting the present technology of coal gasification systems, including particulate removal system but not H 2 S removal system (due to low sulphur content in the feeding biomass), coupled with a gas turbine combined cycle.

With respect to this scheme two basic units have. Co-firing leads to higher efficiency and lower costs of BIG/CC technology. A full technical and economic analysis was carried out by integrating performance modeling from co-fired CC and scale effects over a wide range of capacities (20– MW e).

The gasification technology is directly air-heated and the feedstock is sugar cane residue. In this paper, in order to evaluate the suitability of this technology for energy recovery from solid wastes, a novel system which consists of a plasma gasification system (PGS) integrated with a combined cycle power plant (integrated plasma gasification combined cycle, IPGCC) has been proposed and its performance has been evaluated.

Cost and Performance Analysis of Biomass-Based Integrated Gasification Combined-Cycle (BIGCC) Power Systems,” National Renewable Energy Laboratory, Report No. K.R. Craig, M.K. Mann, Cost and Performance Analysis of Biomass-Based Integrated Gasification Combined-Cycle (BIGCC) Power Systems, Technical Report NREL/TP, US Department of Energy, October To make a significant contribution to the power mix in the United States biomass power systems must be competitive on a cost and efficiency basis.

We describe the cost and performance of three biomass-based integrated gasification combined cycle (IGCC) systems. The net energy efficiency for the combined cycle without solar was %, whereas the net energy efficiency by adding solar energy was %.

This hybrid solar-biomass combined cycle system had a biomass share of % and a solar share of %. These efficiencies, however, do not match with the anticipated >50% IGCC efficiency.

Cost and Performance Analysis of Biomass-Based Integrated Gasification Combined-Cycle (BIGCC) Power Systems,” NREL/TP UC Category: DE 4. In a separate techno-economic analysis, the potential of dedicated biomass with integrated gasification combined cycle (IGCC) coupled with CCS was proposed as the main bionergy conversion technology for the long term, representing 33% of the global mitigation potential by   The performance characteristics of a rice husk based integrated gasification combined cycle (IGCC) plant has been developed at the variable operating conditions of gasifier.

A thermo-chemical model developed by the authors has been applied for wet fuel (fuel with moisture) for predicting the gas composition, gas generation per kg of fuel, plant. A biomass gasification combined-cycle power plant, consisting of a low pressure indirectly-heated gasifier integrated with an industrial gas turbine, was simulated using ASPEN Plus.

® Economic analyses were then performed to determine the levelized cost of electricity. The economic viability and efficiency of power production from this system.

In the present analysis, three costs viz., installed capital cost, operation and maintenance cost, and levelised replacement cost were examined for. Integrated Biomass Gasification Combined Cycle 15 Components 15 Feedstock 16 Feedstock Preparation 17 Operation 17 Typical Costs 18 REPOWERING 18 Efficiency Improvements 18 Repowering 18 ECONOMICAL AND SOCIAL ISSUES 19 Economic and social issues.

In this report, the authors discuss the cost and performance potential of biomass-based integrated gasification combined cycle (IGCC) systems ranging in size from MW{sub e}.

In conducting this analysis, the authors focused on mature, commercial-scale IGCC systems.Rodrigues et al. () have carried out the techno-economic performance analysis of biomass-based integrated gasification combined cycle (BIGCC) over a wide range of capacity with natural gas.Gasification technologies under development would enable these fuels to be used in gas turbines.

This paper reports results of detailed full-load performance modeling of pulp-mill cogeneration systems, based on gasifier/gas turbine technologies and, for comparison, on conventional steam-turbine cogeneration technologies.