Implementation of Energy Hub Management System for Residential Sector

This thesis is concerned with the implementation of a proposed Energy Hub Management System (EHMS) mathematical model for residential appliances under Time of Use (TOU) based electricity rate structure. The objective is to shift the residential electrical energy consumption during periods of high gr...

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Bibliographic Details
Main Author: Hassen, Hussin
Language:en
Published: 2010
Subjects:
DSM
Online Access:http://hdl.handle.net/10012/5224
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spelling ndltd-WATERLOO-oai-uwspace.uwaterloo.ca-10012-52242013-07-24T04:28:14ZHassen, Hussin2010-05-21T15:13:29Z2010-05-21T15:13:29Z2010-05-21T15:13:29Z2010http://hdl.handle.net/10012/5224This thesis is concerned with the implementation of a proposed Energy Hub Management System (EHMS) mathematical model for residential appliances under Time of Use (TOU) based electricity rate structure. The objective is to shift the residential electrical energy consumption during periods of high grid energy demand to low demand periods subject to operational constraints. The customer benefits from reduced daily energy consumption and consequent reduction to its cost with minimal effect on the comfort level. Two scheduling periods are considered simultaneously. The first is a 24-interval schedule with one-hour time steps for appliances such as a dishwasher, clothes washer and dryer. The second is a 96-interval schedule with 15-minute time steps for other appliances such as refrigerator, freezer and water heater. Each appliance has been modeled as a discrete time linear dynamic system and the objective of this thesis is to make these models work in a real world situation by determining realistic estimations of the model parameters and constants. It is vital to properly calculate the mathematical model parameters as they have direct impact on the results. Minor modifications to some domestic appliance models were proposed to make the practical implementation easier. It was found that while some parameters in the mathematical model can be easily calculated based on thermodynamic equations, other parameters are hard to be calculated; therefore, a practical procedure was proposed to measure these parameters. An experiment on a small refrigerator was carried out to validate the refrigerator mathematical model and parameters measurement procedure. The resulting model is a mixed integer linear problem (MILP) and was solved using GNU Linear Programming Kit (GLPK) freeware solver. The performance of GLPK was found to be satisfactory as compared to the commercial solver CPLEX, and was particularly suitable for practical and commercial implementations.enImplementationEHMSMILPGLPKDSMschedulingImplementation of Energy Hub Management System for Residential SectorThesis or DissertationElectrical and Computer EngineeringMaster of Applied ScienceElectrical and Computer Engineering
collection NDLTD
language en
sources NDLTD
topic Implementation
EHMS
MILP
GLPK
DSM
scheduling
Electrical and Computer Engineering
spellingShingle Implementation
EHMS
MILP
GLPK
DSM
scheduling
Electrical and Computer Engineering
Hassen, Hussin
Implementation of Energy Hub Management System for Residential Sector
description This thesis is concerned with the implementation of a proposed Energy Hub Management System (EHMS) mathematical model for residential appliances under Time of Use (TOU) based electricity rate structure. The objective is to shift the residential electrical energy consumption during periods of high grid energy demand to low demand periods subject to operational constraints. The customer benefits from reduced daily energy consumption and consequent reduction to its cost with minimal effect on the comfort level. Two scheduling periods are considered simultaneously. The first is a 24-interval schedule with one-hour time steps for appliances such as a dishwasher, clothes washer and dryer. The second is a 96-interval schedule with 15-minute time steps for other appliances such as refrigerator, freezer and water heater. Each appliance has been modeled as a discrete time linear dynamic system and the objective of this thesis is to make these models work in a real world situation by determining realistic estimations of the model parameters and constants. It is vital to properly calculate the mathematical model parameters as they have direct impact on the results. Minor modifications to some domestic appliance models were proposed to make the practical implementation easier. It was found that while some parameters in the mathematical model can be easily calculated based on thermodynamic equations, other parameters are hard to be calculated; therefore, a practical procedure was proposed to measure these parameters. An experiment on a small refrigerator was carried out to validate the refrigerator mathematical model and parameters measurement procedure. The resulting model is a mixed integer linear problem (MILP) and was solved using GNU Linear Programming Kit (GLPK) freeware solver. The performance of GLPK was found to be satisfactory as compared to the commercial solver CPLEX, and was particularly suitable for practical and commercial implementations.
author Hassen, Hussin
author_facet Hassen, Hussin
author_sort Hassen, Hussin
title Implementation of Energy Hub Management System for Residential Sector
title_short Implementation of Energy Hub Management System for Residential Sector
title_full Implementation of Energy Hub Management System for Residential Sector
title_fullStr Implementation of Energy Hub Management System for Residential Sector
title_full_unstemmed Implementation of Energy Hub Management System for Residential Sector
title_sort implementation of energy hub management system for residential sector
publishDate 2010
url http://hdl.handle.net/10012/5224
work_keys_str_mv AT hassenhussin implementationofenergyhubmanagementsystemforresidentialsector
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