Title page for ETD etd-10042011-123235


Type of Document Master's Thesis
Author Sehar, Fakeha
Author's Email Address fakeha.sehar@gmail.com
URN etd-10042011-123235
Title Impact of Ice Storage on Electrical Energy Consumption in Large and Medium-sized Office Buildings in Different Climate Zones
Degree Master of Science
Department Electrical and Computer Engineering
Advisory Committee
Advisor Name Title
Rahman, Saifur Committee Chair
Broadwater, Robert P. Committee Member
Pipattanasomporn, Manisa Committee Member
Keywords
  • Ice storage system
  • conventional non-storage systems
  • large and medium- sized office buildings
  • climate zones
Date of Defense 2011-09-22
Availability unrestricted
Abstract
Cooling demand constitutes a large portion of total electrical demand for office buildings during peak hours. Deteriorating load factors, increased use of more inefficient and polluting peaking units are the aftermaths of growth in peak demand challenging energy system efficiency and grid reliability.

Ice storage technology can help shift this peak cooling demand to off-peak periods. Ice storage reduces or even eliminates chiller operation during peak periods. The objective of the research is to analyze the chiller energy consumption of conventional non-storage and ice storage cooling systems for large and medium-sized office buildings in diverse climate zones. The research also quantifies the peak energy savings as a result of ice storage systems.

To accomplish the thesis objectives the Demand Response Quick Assessment Tool (DRQAT) has been used to model and simulate large and medium-sized office buildings in diverse climate zones with non-storage and ice storage cooling systems. Demand Response Quick Assessment Tool (DRQAT) has been developed by LBNL’s Demand Response Research Center. It is based on the most popular features and capabilities of EnergyPlus and is downloadable from [1]. The construction and weather files in DRQAT have been modified to incorporate construction standards and weather data for the cities representing the diverse climate zones. The ice storage system’s operating and control strategies investigated include full storage and partial storage with storage priority and chiller priority.

Research findings indicate that chiller energy consumption for non-storage and ice storage systems depends highly on climatic conditions. The climate zones with hot summers as well as small day and night temperature variations show higher chiller energy consumption. The marine climate zone has the lowest chiller energy consumption. The cold/humid climate zone has higher chiller energy consumption than the cold/dry and very cold climate zones. The cold/dry and very cold climate zones have comparable chiller energy consumption. The research findings will help utilities and building owners to quantify the benefits of installing ice storage systems in office buildings located in different climate zones.

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