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Image of the work environment : design of office space.Burke, John Suk Jun January 1979 (has links)
Thesis. 1979. M.Arch.--Massachusetts Institute of Technology. Dept. of Architecture. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ROTCH. / Includes bibliographical references. / M.Arch.
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Three precast concrete high rise office buildings. / 3 precast concrete high rise office buildings / High rise precast concrete office building. / Precast concrete multistory office buildingCatalano, Eduardo F, Brunken, Alan Wayne, Henney, Thomas, Westbury, Rodney Ames January 1963 (has links)
Thesis (M. Arch.)--Massachusetts Institute of Technology, Dept. of Architecture, 1963. / MIT Institute Arcives copy has the appropriate accompanying leaves of plates after each title; MIT Rotch Library copy has them all lumped-together at the end. / Three individual titles bound together with a collective title and an introduction. Compiled, with an introduction, by Prof. Eduardo F. Catalano. / Preface: By presenting the three individual theses with a common analysis of material pertinent to the design of each thesis it is hoped that a more rich and extensive result has been attained. / Brunken, Alan Wayne. A multistory precast concrete office building (1963) -- Henney, Thomas. A precast concrete high-rise office building (1963) -- Westbury, Rodney Ames. A multi-story precast concrete office building (1963). / M.Arch.
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Natural daylighting and energy conservation : innovative solutions for office buildingsRosen, James E January 1982 (has links)
Thesis (M.Arch.)--Massachusetts Institute of Technology, Dept. of Architecture, 1982. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ROTCH. / Bibliography: p. 199-203. / by James E. Rosen. / M.Arch.
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Evaluation and design of double-skin facades for office buildings in hot climatesYellamraju, Vijaya 30 September 2004 (has links)
The main objectives of this research are (a) to investigate the thermal effect of double skin facades in office buildings in hot climates and (b) to propose guidelines for their efficient design based on this evaluation. The study involves the energy performance analysis of two buildings in India. A base case with the existing building skin was simulated for both the cities. The main source for the high cooling loads was found to be heat gain through windows and walls. This led to the evolution of a series of facade strategies with the goals of reducing heat gain, providing ventilation and day-lighting. The buildings were then simulated for their energy performance with the proposed double-skin strategies. Each of these strategies was varied according to the layers constituting the facade, the transparency of the facade and the orientation of the facade to which it is applied. Final comparisons of energy consumption were made between the proposed options and the base case to find the most efficient strategy and also the factors that affected this efficiency. The simulations were done using the building simulation software, Ener-Win. The double skin was simulated as per an approximate and simplistic calculation of the u-value, solar heat gain coefficient and transmissivity properties of the layers constituting the facade. The model relied on logically arrived at assumptions about the facade properties that were approximately within 10% range of measured values. Based on inferences drawn from these simulations, a set of design guidelines comprised of goals and parameters was generated for design of double-skin facades in hot climates typical to most of the Indian subcontinent. It was realized that the double-skin defined typically as a 'pair of glass skins separated by an air corridor' may not be an entirely energy efficient design strategy for hot climates. However, when used appropriately in combination with other materials, in the right orientation and with the right transparency, a double-layered facade turns out to be an energy efficient solution.
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Accessibility assessment via workspace estimation /Yang, Jing. January 2007 (has links)
Thesis (M.Sc.)--York University, 2007. Graduate Programme in Computer Science. / Typescript. Includes bibliographical references (leaves 112-117). Also available on the Internet. MODE OF ACCESS via web browser by entering the following URL: http://gateway.proquest.com/openurl?url_ver=Z39.88-2004&res_dat=xri:pqdiss&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&rft_dat=xri:pqdiss:MR38843
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Predicting the capital cost of air conditioning installations in high rise commercial buildings /Wills, D. J. January 1986 (has links)
Thesis (M. Phil.)--University of Hong Kong, 1987.
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Determinants of capitalization rates with reference to the office market in Hong Kong : implications for urban design /Lai, Ka-lun, Allen. January 1996 (has links)
Thesis (M.U.D.)--University of Hong Kong, 1997. / Includes bibliographical references.
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Hong Kong Mail CentreMa, Chi-fai, Jeff., 馬志輝. January 2000 (has links)
published_or_final_version / Architecture / Master / Master of Architecture
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Evaluation and design of double-skin facades for office buildings in hot climatesYellamraju, Vijaya 30 September 2004 (has links)
The main objectives of this research are (a) to investigate the thermal effect of double skin facades in office buildings in hot climates and (b) to propose guidelines for their efficient design based on this evaluation. The study involves the energy performance analysis of two buildings in India. A base case with the existing building skin was simulated for both the cities. The main source for the high cooling loads was found to be heat gain through windows and walls. This led to the evolution of a series of facade strategies with the goals of reducing heat gain, providing ventilation and day-lighting. The buildings were then simulated for their energy performance with the proposed double-skin strategies. Each of these strategies was varied according to the layers constituting the facade, the transparency of the facade and the orientation of the facade to which it is applied. Final comparisons of energy consumption were made between the proposed options and the base case to find the most efficient strategy and also the factors that affected this efficiency. The simulations were done using the building simulation software, Ener-Win. The double skin was simulated as per an approximate and simplistic calculation of the u-value, solar heat gain coefficient and transmissivity properties of the layers constituting the facade. The model relied on logically arrived at assumptions about the facade properties that were approximately within 10% range of measured values. Based on inferences drawn from these simulations, a set of design guidelines comprised of goals and parameters was generated for design of double-skin facades in hot climates typical to most of the Indian subcontinent. It was realized that the double-skin defined typically as a 'pair of glass skins separated by an air corridor' may not be an entirely energy efficient design strategy for hot climates. However, when used appropriately in combination with other materials, in the right orientation and with the right transparency, a double-layered facade turns out to be an energy efficient solution.
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Design rules of thumb for naturally ventilated office buildings in CanadaEdwards, Craig 05 1900 (has links)
Using natural ventilation to provide ventilation and/or cooling in commercial buildings
has a number of direct benefits to the environment, building occupants, building owners,
and architects. Despite advances now occurring in design methods, major obstacles still
need to be overcome before a wide spread adoption of natural ventilation technologies
will be seen. Most importantly, simple tools that can be used by architects in the initial
stages of design of naturally ventilated buildings are required.
Existing natural ventilation design rules of thumb were identified from published
literature and building codes and standards. A computer model, capable of simulating
both naturally induced airflow rates and building thermal performance, was used to
evaluate natural ventilation performance in terms of ability to avoid overheating and
provide ventilation for indoor air quality.
First the effect of changes to building design parameters on the natural ventilation
performance of a base case office building were investigated. Secondly, the validity and
limitations of existing rules of thumb were evaluated. The base case building was a three
story cross ventilated office building surrounded by large local wind and solar
obstructions, simulated with climate data for the cities of Vancouver and Toronto.
It was found that the development of most of the existing rules of thumb has been based
on incomplete research, and the conditions under which they can be applied are poorly
defined. When the limitations of these rules of thumb were investigated, it was found
that the original rules of thumb are generally not accurate for either the climates of
Vancouver or Toronto. More accurate ranges of applicability were developed for each
rule of thumb for each of the two climates.
The relative influence of design parameters on reducing overheating and increasing
ventilation rates for indoor air quality were also established, and can be used to provide
guidance into how changes made to the building form and fabric can effect overheating
and indoor air quality.
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