EDL_Leadership-Experience_Internship_Handbook_revAug2018
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EDL_Leadership-Experience_Internship_Handbook_revAug2018
^liTWestVirginiaUniversityTHE RESEARCH REPOSITORY @ wvuGraduate Theses, Dissertations, and Problem Reports2019Design of Geothermal District Heating an EDL_Leadership-Experience_Internship_Handbook_revAug2018nd Cooling System for the West Virginia University0LUWAS0G0 BOLAJI ALONGEWest Virginia University, obalonge@mix.wvu.eduFollow this and additional works at: https7/researchrepository wvu.edu/etd Cf Part of the Other Chemical Engineering CommonsRecommended CitationALONGE, OLUWASOGO BOLAJI, Design of G EDL_Leadership-Experience_Internship_Handbook_revAug2018eothermal District Heating and Cooling System for the West Virginia University" (2019). Graduate Theses. Dissertations, and Problem Reports. 7397.httpEDL_Leadership-Experience_Internship_Handbook_revAug2018
s://researchrepository.wvu.edu/etd/7397This Thesis IS protected by copyright and/or related rights. It has been brought to you by the The Research Rep^liTWestVirginiaUniversityTHE RESEARCH REPOSITORY @ wvuGraduate Theses, Dissertations, and Problem Reports2019Design of Geothermal District Heating an EDL_Leadership-Experience_Internship_Handbook_revAug2018hts legislation that applies to your use. For other uses you must obtain permission from the rights-holder(s) directly, unless additional rights are indicated by a Creative Commons license in the record and/ or on the work itself. This Thesis has been accepted for inclusion in wvu Graduate Theses. D EDL_Leadership-Experience_Internship_Handbook_revAug2018issertations, and Problem Reports collection by an authorized administrator of The Research Repository @ wvu. For more information, please contact resEDL_Leadership-Experience_Internship_Handbook_revAug2018
earchrepository@mail v/vu edu.Design of Geothermal District Heating and Cooling System for the West Virginia UniversityOluwasogo Bolaji AlongeThesis s^liTWestVirginiaUniversityTHE RESEARCH REPOSITORY @ wvuGraduate Theses, Dissertations, and Problem Reports2019Design of Geothermal District Heating an EDL_Leadership-Experience_Internship_Handbook_revAug2018for the degree ofMaster of Science inChemical EngineeringNagasree Garapati, Ph.D., P.E., Chair Fernando Lima, Ph.D.Debangsu Bhattacharyya, Ph.I).Department of Chemical EngineeringMorgantown, West Virginia 2019Keywords: Levelized cost of heat, Geothermal, District heating and cooling system. Steam-ba EDL_Leadership-Experience_Internship_Handbook_revAug2018sed system, GEOPHIRES, Aspen simulators, HYSYS, Surface plant, W est Virginia University.Copyright 2019 Oluwasogo Bolaji AlongeAbstractDesign of GeothEDL_Leadership-Experience_Internship_Handbook_revAug2018
ermal District Heating and Cooling System for the West Virginia UniversityOluwasogo Bolaji AlongeRecent Appalachian Basin Geothermal Play Failway Anal^liTWestVirginiaUniversityTHE RESEARCH REPOSITORY @ wvuGraduate Theses, Dissertations, and Problem Reports2019Design of Geothermal District Heating an EDL_Leadership-Experience_Internship_Handbook_revAug2018 flow necessary lor geothermal development along with year-round surface demand lor healing and cooling on the campus, Therefore. West Virginia University’s (WVU’s) Morgantown campus has been identified as a prime location in the eastern United States for the development of a geothermal direct-use h EDL_Leadership-Experience_Internship_Handbook_revAug2018eating and cooling application.The objective of this study was to perform a feasibility analysis for the development of a geothermal district heatingEDL_Leadership-Experience_Internship_Handbook_revAug2018
and cooling (GDHC) system for wvu campus in Morgantown, wv. to replace the current coal-fired steam heating and cooling system. A hybrid GDHC system i^liTWestVirginiaUniversityTHE RESEARCH REPOSITORY @ wvuGraduate Theses, Dissertations, and Problem Reports2019Design of Geothermal District Heating an EDL_Leadership-Experience_Internship_Handbook_revAug2018es and Aspen simulations were conducted to analyze two scenarios for the design of a heating and cooling system at WVU’s Morgantown campus and calculate surface plant capital costs. Scenario 1 would supply superheated steam to the entire campus and Scenario 2 would deliver saturated steam to the Hea EDL_Leadership-Experience_Internship_Handbook_revAug2018lth Sciences and Evansdale campuses. The overall economics of the geothermal system was performed using modified GEOPHIRES. For the two scenarios consEDL_Leadership-Experience_Internship_Handbook_revAug2018
idered, geothermal contribution to the heating and cooling on W\T’ campus is around 2.30 to 2.43% and 4.05 to 4.39% for hybrid geothermal system and i^liTWestVirginiaUniversityTHE RESEARCH REPOSITORY @ wvuGraduate Theses, Dissertations, and Problem Reports2019Design of Geothermal District Heating an EDL_Leadership-Experience_Internship_Handbook_revAug2018 A) coal-fired power plant. Utilizing the existing pipeline distribution system, this study results yielded the levelized cost of heat (LCOH) for the two scenario designs in the ranges of 7.55 to 10.90 S'MMBTU for vertical well configuration and 7.77 to 11.60 $ MMBTU for horizontal well configuratio EDL_Leadership-Experience_Internship_Handbook_revAug2018n which is well below the current price for steam supplied by MEA. To address uncertainty related to the distribution systems. Ĩ.COH was calculated inEDL_Leadership-Experience_Internship_Handbook_revAug2018
GF.OPHTRF.S for a case where existing pipelines are to be purchased from MFA and for an instance where a new set of pipelines arc to be installed by ^liTWestVirginiaUniversityTHE RESEARCH REPOSITORY @ wvuGraduate Theses, Dissertations, and Problem Reports2019Design of Geothermal District Heating an EDL_Leadership-Experience_Internship_Handbook_revAug2018e of 8.50 to 14.08 S MMBTU which shows that Ĩ.COH values increase with additional capital cost for the distribution pipelines. However, the range of LCO11 values calculated for the natural gas fired boiler (NG1B) system without geothermal (5.65 to 7.46 $ MM13TU) is comparably lower than the range of EDL_Leadership-Experience_Internship_Handbook_revAug2018 values obtained for the proposed hybrid GDHC system. Nevertheless, the proposed hybrid GDHC system for WAT J can provide clean energy to replace theEDL_Leadership-Experience_Internship_Handbook_revAug2018
existing MFA coal-fired, steambased system; hence, providing an alternative to offset the impacts from fossil fuels consumption. Further, analysis of ^liTWestVirginiaUniversityTHE RESEARCH REPOSITORY @ wvuGraduate Theses, Dissertations, and Problem Reports2019Design of Geothermal District Heating an EDL_Leadership-Experience_Internship_Handbook_revAug2018cated to the Glory of Almighty God“the Holy One of Israel”111^liTWestVirginiaUniversityTHE RESEARCH REPOSITORY @ wvuGraduate Theses, Dissertations, and Problem Reports2019Design of Geothermal District Heating anGọi ngay
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