Analysis and Optimisation of Retrofit Energy Supply Strategy across a Diverse Urban Building Portfolio. Ward, R. M., Mortada, A., Omu, K., Rysanek, A. M., Rainsford, C., & Choudhary, R. In Building Simulation 2013, pages 1256–1263, 2013. http://www.ibpsa.org. abstract bibtex This paper presents a study in support of decision making for building retrofit and energy supply strategy at the Royal Botanic Gardens, Kew in southwest London, England. The study considers the issues that affect simulation at the building scale specific to this site, in particular simulation of heat flow in botanical glasshouses, retrofit of heritage structures and simulation of power load for buildings with high equipment density. In addition, the study considers the potential benefits to be gained from energy microgeneration and supply at the district scale, investigating supply optimisation for a cluster of buildings within the Kew site.
@inproceedings{ward2013analysis,
title = {Analysis and Optimisation of Retrofit Energy Supply Strategy across a Diverse Urban Building Portfolio},
booktitle = {Building Simulation 2013},
author = {Ward, Rebecca Mary and Mortada, Adnan and Omu, Keno and Rysanek, Adam Martin and Rainsford, Clare and Choudhary, Ruchi},
year = {2013},
pages = {1256--1263},
publisher = {http://www.ibpsa.org},
abstract = {This paper presents a study in support of decision making for building retrofit and energy supply strategy at the Royal Botanic Gardens, Kew in southwest London, England. The study considers the issues that affect simulation at the building scale specific to this site, in particular simulation of heat flow in botanical glasshouses, retrofit of heritage structures and simulation of power load for buildings with high equipment density. In addition, the study considers the potential benefits to be gained from energy microgeneration and supply at the district scale, investigating supply optimisation for a cluster of buildings within the Kew site.}
}
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