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    Operational Strategies of Wet Cycle Micro Gas Turbines and Their Economic Evaluation

    Source: Journal of Engineering for Gas Turbines and Power:;2016:;volume( 138 ):;issue: 012::page 122301
    Author:
    Stathopoulos, Panagiotis
    ,
    Paschereit, Christian Oliver
    DOI: 10.1115/1.4033999
    Publisher: The American Society of Mechanical Engineers (ASME)
    Abstract: The simultaneous expansion of variable renewables and combined heat and power (CHP) plants in Europe has given rise to a discussion about their compatibility. Due to the concurrence of high wind power generation and high heating loads, it has been argued that only the flexible, electricityoriented operation of CHP plants could go along with the extended penetration of renewables in the European energy system. The current work focuses on the wetcycle simulation of a Turbec T100. Three operational strategies are applied on the heat and electricity demand data of a public building, to assess the economic and environmental performance of the wet cycle. The operation of the micro gas turbine (mGT) is modeled in aspen plus, and the model is validated with data found in the literature. The economic aspects of the operational strategies are assessed with a financial model, which takes into account the current CHP policy incentives and price levels. Furthermore, the advantages and drawbacks of wet operation are highlighted by its comparison to the typical heatdriven operation of drycycle mGTs, with a reference to the same case study. It is shown that the wetcycle turbines have a higher number of full load equivalent operating hours and can achieve higher investment payback, with minor drawbacks to their overall environmental performance.
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      Operational Strategies of Wet Cycle Micro Gas Turbines and Their Economic Evaluation

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    http://yetl.yabesh.ir/yetl1/handle/yetl/161224
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    contributor authorStathopoulos, Panagiotis
    contributor authorPaschereit, Christian Oliver
    date accessioned2017-05-09T01:29:00Z
    date available2017-05-09T01:29:00Z
    date issued2016
    identifier issn1528-8919
    identifier othergtp_138_12_122301.pdf
    identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/161224
    description abstractThe simultaneous expansion of variable renewables and combined heat and power (CHP) plants in Europe has given rise to a discussion about their compatibility. Due to the concurrence of high wind power generation and high heating loads, it has been argued that only the flexible, electricityoriented operation of CHP plants could go along with the extended penetration of renewables in the European energy system. The current work focuses on the wetcycle simulation of a Turbec T100. Three operational strategies are applied on the heat and electricity demand data of a public building, to assess the economic and environmental performance of the wet cycle. The operation of the micro gas turbine (mGT) is modeled in aspen plus, and the model is validated with data found in the literature. The economic aspects of the operational strategies are assessed with a financial model, which takes into account the current CHP policy incentives and price levels. Furthermore, the advantages and drawbacks of wet operation are highlighted by its comparison to the typical heatdriven operation of drycycle mGTs, with a reference to the same case study. It is shown that the wetcycle turbines have a higher number of full load equivalent operating hours and can achieve higher investment payback, with minor drawbacks to their overall environmental performance.
    publisherThe American Society of Mechanical Engineers (ASME)
    titleOperational Strategies of Wet Cycle Micro Gas Turbines and Their Economic Evaluation
    typeJournal Paper
    journal volume138
    journal issue12
    journal titleJournal of Engineering for Gas Turbines and Power
    identifier doi10.1115/1.4033999
    journal fristpage122301
    journal lastpage122301
    identifier eissn0742-4795
    treeJournal of Engineering for Gas Turbines and Power:;2016:;volume( 138 ):;issue: 012
    contenttypeFulltext
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