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Item Information   Holdings       More by this author     Paulus, Mitch.     Subjects     Buildings -- Energy consumption -- Measurement.     Buildings -- Energy conservation     Decision-making     Mathematical models     MSE Project.     Browse Catalog     by author:      Paulus, Mitch.       by title:      Measurement, modelin...         MARC Display

Measurement, modeling, analysis and reporting protocols for short-term monitoring and verification of whole building energy performance / by Mitch Paulus. by Paulus, Mitch. Subjects Buildings -- Energy consumption -- Measurement.   Buildings -- Energy conservation   Decision-making   Mathematical models   MSE Project. Description:  269 leaves : ill. ; 29 cm. Contents:  Thesis advisor: Dr. Bass Abushakra. Committee members: Dr. Subha Kumpaty, Dr. Larry Fennigkoh. Introduction -- Objectives and scope of project -- Literature review -- Uncertainty methodology -- Model development -- Detailed uncertainty analysis at the hourly time scale -- Conclusions -- References. The primary objective of this project is to develop methodologies where the length of time for field monitoring of energy use in buildings can be reduced to less than a whole year while satisfying present levels of annual building energy performance prediction accuracy. The developed methodologies are of great benefit to Energy Service Companies (ESCOs) and energy analysts who are looking for cost-effective alternatives to yearlong monitoring. The methodology that has been employed in the investigation of short-term monitoring for long-term prediction has been called an hourly hybrid multivariate change point model. Using a combination of monthly utility bills and hourly field monitored data, building energy performance models can be created that are acceptable against the current industry standards. The hourly hybrid multivariate change point model has been found to be adequate for modeling building energy performance with as little as two weeks of hourly monitored data.   Copy/Holding information Location Collection Call No. Status   Walter Schroeder Library Master's Theses AC805 .P3795 2012 Available Add Copy to MyList Format: HTMLPlain textDelimited Subject:   Email to:

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