Weather Sensitivity Of Physically Based Model Of Residential Air-Conditioners For Direct Load Control: A Case Study

Weather Sensitivity Of Physically Based Model Of Residential Air-Conditioners For Direct Load Control: A Case Study. PROCEEDINGS OF THE IASTED INTERNATIONAL CONFERENCE ON APPLIED. pp. 189-194.

[img] Microsoft Word (Weather Sensitivity Of Physically Based Model Of Residential Air-Conditioners For Direct Load Control: A Case Study)
weather_sensitivity_of_physically_based__el_ferik_isip_000228521700033.doc

Download (29kB)

Abstract

In most electricity systems the residential sector is one of the main contributors to system peaks. Hot and humid summer seasons lead to a significant proportion of the supplied power being used on air-conditioning. In this work, we address the identification problem of the parameters of an aggregated elemental physically based model representing a housing unit with an A/C system. The identification is done to validate the model using a pilot house equipped with an independent air conditioner system. An online maximum likelihood based-identification algorithm is developed. The required hardware and system instrumentation are detailed. A sensitivity analysis study of the model for variations in humidity and solar radiation is also reported. Results reveals that the physically based model succeed to capture the effect of the outdoor weather conditions. The equivalent model identified under different humidity and ambient temperature represents the real load perceived by the utility

Item Type: Article
Subjects: Systems
Department: College of Computing and Mathematics > lndustrial and Systems Engineering
Depositing User: MR. ATIQ WALIULLAH SIDDIQUI
Date Deposited: 11 Jun 2008 07:15
Last Modified: 01 Nov 2019 13:44
URI: http://eprints.kfupm.edu.sa/id/eprint/2429