Exergy-loss analysis of a typical geothermal power plant system in the Philippines

Energy-loss minimization is now considered the modern effective resource utilization evaluation technique. This method has been applied to almost all forms of resources. Currently, it is extensively applied in energy resource utilization and in process and equipment design. This work deals with exer...

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Main Author: Cabigon, Noel Papas
Format: text
Language:English
Published: Animo Repository 1995
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Online Access:https://animorepository.dlsu.edu.ph/etd_masteral/1768
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Institution: De La Salle University
Language: English
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spelling oai:animorepository.dlsu.edu.ph:etd_masteral-86062021-02-05T10:11:32Z Exergy-loss analysis of a typical geothermal power plant system in the Philippines Cabigon, Noel Papas Energy-loss minimization is now considered the modern effective resource utilization evaluation technique. This method has been applied to almost all forms of resources. Currently, it is extensively applied in energy resource utilization and in process and equipment design. This work deals with exergy-loss analysis on a typical geothermal power plant system in the Philippines. The goal of the study is to determine the benefits of exergy-loss evaluation to effectively optimize the design of a geothermal power plant system in the Philippines. This is done by identifying design parameters that grossly affect or significantly influence the efficiency of a geothermal power plant system. Results show that wellbore design parameters such as diameter, pipe smoothness and total depth significantly influence exergy-loss on production wells. Likewise, the diameter, smoothness, length and pipeline accessories (e.g., valves, etc.) of cross-country and downcomer pipelines and thickness of insulation grossly affect exergy-loss in the steam gathering system. The parameter that influence exergy-loss in the power plant, however, is the fluid exit temperature. All these parameters are within the control of designers and investors the proper evaluation of these parameters leads to minimum exergy losses and virtually improve over-all efficiency. Other parameters that also significantly affect exergy losses: fluid and dead state properties, are beyond the designers' control. 1995-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/etd_masteral/1768 Master's Theses English Animo Repository Force and energy Geothermal power plants Thermodynamics Chemical Engineering
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
language English
topic Force and energy
Geothermal power plants
Thermodynamics
Chemical Engineering
spellingShingle Force and energy
Geothermal power plants
Thermodynamics
Chemical Engineering
Cabigon, Noel Papas
Exergy-loss analysis of a typical geothermal power plant system in the Philippines
description Energy-loss minimization is now considered the modern effective resource utilization evaluation technique. This method has been applied to almost all forms of resources. Currently, it is extensively applied in energy resource utilization and in process and equipment design. This work deals with exergy-loss analysis on a typical geothermal power plant system in the Philippines. The goal of the study is to determine the benefits of exergy-loss evaluation to effectively optimize the design of a geothermal power plant system in the Philippines. This is done by identifying design parameters that grossly affect or significantly influence the efficiency of a geothermal power plant system. Results show that wellbore design parameters such as diameter, pipe smoothness and total depth significantly influence exergy-loss on production wells. Likewise, the diameter, smoothness, length and pipeline accessories (e.g., valves, etc.) of cross-country and downcomer pipelines and thickness of insulation grossly affect exergy-loss in the steam gathering system. The parameter that influence exergy-loss in the power plant, however, is the fluid exit temperature. All these parameters are within the control of designers and investors the proper evaluation of these parameters leads to minimum exergy losses and virtually improve over-all efficiency. Other parameters that also significantly affect exergy losses: fluid and dead state properties, are beyond the designers' control.
format text
author Cabigon, Noel Papas
author_facet Cabigon, Noel Papas
author_sort Cabigon, Noel Papas
title Exergy-loss analysis of a typical geothermal power plant system in the Philippines
title_short Exergy-loss analysis of a typical geothermal power plant system in the Philippines
title_full Exergy-loss analysis of a typical geothermal power plant system in the Philippines
title_fullStr Exergy-loss analysis of a typical geothermal power plant system in the Philippines
title_full_unstemmed Exergy-loss analysis of a typical geothermal power plant system in the Philippines
title_sort exergy-loss analysis of a typical geothermal power plant system in the philippines
publisher Animo Repository
publishDate 1995
url https://animorepository.dlsu.edu.ph/etd_masteral/1768
_version_ 1712574986412097536