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SIMULATION OF DISTRICT COOLING SYSTEM USING SOLAR COOLING WITH LITHIUM BROMIDE – WATER (LiBr/H20) ABSORPTION CHILLER

The worldwide cooling demands is rising drastically. Several causes lead to this scenario such as industrialization, global warming, tropical climate region and etc. This prompts the application of district energy such as gas district cooling (GDC) system to fulfill the demands. Considering the ener...

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Main Author: ANG, HU HIN
Format: Final Year Project
Language:English
Published: IRC 2015
Subjects:
TP Chemical technology
Online Access:http://utpedia.utp.edu.my/15743/1/Dissertation%20Report_Hu%20Hin%20Ang_14951_FYPII.pdf
http://utpedia.utp.edu.my/15743/
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spelling my-utp-utpedia.157432017-01-25T09:35:53Z http://utpedia.utp.edu.my/15743/ SIMULATION OF DISTRICT COOLING SYSTEM USING SOLAR COOLING WITH LITHIUM BROMIDE – WATER (LiBr/H20) ABSORPTION CHILLER ANG, HU HIN TP Chemical technology The worldwide cooling demands is rising drastically. Several causes lead to this scenario such as industrialization, global warming, tropical climate region and etc. This prompts the application of district energy such as gas district cooling (GDC) system to fulfill the demands. Considering the energy sustainability, this project aims to study the feasibility of solar cooling system to produce cooling air (chilled water) which can be scaled up later to function as solar district cooling plant. The conventional usage of vapor compression air-conditioning systems (A/C) causes serious environmental issues such as emission of greenhouse gases due to the coolants (chlorofluorocarbons) used. Hence, the district cooling system will produce chilled water through absorption cooling cycle (lithium bromide-water absorption chiller) which is environmental friendly. Parametric study will conducted by using TRNSYS software to examine the feasibility and potential of solar absorption cooling system. The feasibility of the system is determined when the cooling demand of a particular modelled building has been met (room temperature of the building model is lower after the application of solar cooling system). The typical meteorological year file (TMY 2) containing weather parameter for Malaysia, specifically Kuala Lumpur city is used to simulate the system. IRC 2015-01 Final Year Project NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/15743/1/Dissertation%20Report_Hu%20Hin%20Ang_14951_FYPII.pdf ANG, HU HIN (2015) SIMULATION OF DISTRICT COOLING SYSTEM USING SOLAR COOLING WITH LITHIUM BROMIDE – WATER (LiBr/H20) ABSORPTION CHILLER. IRC, Universiti Teknologi PETRONAS. (Unpublished)
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Electronic and Digitized Intellectual Asset
url_provider http://utpedia.utp.edu.my/
language English
topic TP Chemical technology
spellingShingle TP Chemical technology
ANG, HU HIN
SIMULATION OF DISTRICT COOLING SYSTEM USING SOLAR COOLING WITH LITHIUM BROMIDE – WATER (LiBr/H20) ABSORPTION CHILLER
description The worldwide cooling demands is rising drastically. Several causes lead to this scenario such as industrialization, global warming, tropical climate region and etc. This prompts the application of district energy such as gas district cooling (GDC) system to fulfill the demands. Considering the energy sustainability, this project aims to study the feasibility of solar cooling system to produce cooling air (chilled water) which can be scaled up later to function as solar district cooling plant. The conventional usage of vapor compression air-conditioning systems (A/C) causes serious environmental issues such as emission of greenhouse gases due to the coolants (chlorofluorocarbons) used. Hence, the district cooling system will produce chilled water through absorption cooling cycle (lithium bromide-water absorption chiller) which is environmental friendly. Parametric study will conducted by using TRNSYS software to examine the feasibility and potential of solar absorption cooling system. The feasibility of the system is determined when the cooling demand of a particular modelled building has been met (room temperature of the building model is lower after the application of solar cooling system). The typical meteorological year file (TMY 2) containing weather parameter for Malaysia, specifically Kuala Lumpur city is used to simulate the system.
format Final Year Project
author ANG, HU HIN
author_facet ANG, HU HIN
author_sort ANG, HU HIN
title SIMULATION OF DISTRICT COOLING SYSTEM USING SOLAR COOLING WITH LITHIUM BROMIDE – WATER (LiBr/H20) ABSORPTION CHILLER
title_short SIMULATION OF DISTRICT COOLING SYSTEM USING SOLAR COOLING WITH LITHIUM BROMIDE – WATER (LiBr/H20) ABSORPTION CHILLER
title_full SIMULATION OF DISTRICT COOLING SYSTEM USING SOLAR COOLING WITH LITHIUM BROMIDE – WATER (LiBr/H20) ABSORPTION CHILLER
title_fullStr SIMULATION OF DISTRICT COOLING SYSTEM USING SOLAR COOLING WITH LITHIUM BROMIDE – WATER (LiBr/H20) ABSORPTION CHILLER
title_full_unstemmed SIMULATION OF DISTRICT COOLING SYSTEM USING SOLAR COOLING WITH LITHIUM BROMIDE – WATER (LiBr/H20) ABSORPTION CHILLER
title_sort simulation of district cooling system using solar cooling with lithium bromide – water (libr/h20) absorption chiller
publisher IRC
publishDate 2015
url http://utpedia.utp.edu.my/15743/1/Dissertation%20Report_Hu%20Hin%20Ang_14951_FYPII.pdf
http://utpedia.utp.edu.my/15743/
_version_ 1739832168680521728
score 13.211869

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