With the development of our country's economy and the quantity of indoor swimming pool, swimming has become one of the most popular activity. Compared with other activity venues, the indoor heat environment is certain difference, such as proper water temperature, air temperature, wind speed, relative humidity and so on. But architects tend to pay more attention to architectural modeling and structure during the design period, the indoor heat environment would become the duty of hvac engineer. This will not only increased reliance on equipment, but also created a higher building energy consumption and adverse factors for human health. Faced with such problems, the author expected by opening and closing recreational natatoria roof design, the optimization tactics of the indoor thermal environment are put forward based on a large number of literature reading and study and the computer software simulation method,. In addition, with open and close the top design of tongji university swimming pool since the beginning of the operation, its comfortable indoor swimming pool environment wide praise of teachers and students and citizens, and also provides the case effectively support for this study. This article takes Shanghai area as the research object, recreational natatoria of indoor heat environment are compared, and using the CFD simulation at the same time, finally the strategies for movable roof natatorium in optimizing the design of the indoor heat environment are obtained. The research is divided into four parts: The first part, combined with the existing specification, engineering experience and human thermal comfort, find out the suitable comfort indoor thermal index for recreational natatoria. The second part, measure the data of the swimming pool in the spring, summer, autumn,analysis the advantages and disadvantages in the daily operation, and make comparison with different venues. At the same time, combined with the actual measurement result, put forward suitable index for recreational natatoria in Shanghai area. The third part, in view of a movable roof of the natatorium, analysis the advantages and disadvantages, then computer model is established, By using the CFD software to simulate the indoor temperature, humidity, wind speed and the dynamic relationship between open and close the top, put forward the design strategy of optimization of movable roof, so as to more effectively improvement of the indoor thermal environment are swimming pool. The fourth part, by using the design strategy, optimize the second military medical university swimming pool, and analysis the improvement of the optimized venues by comparing with actual measured results .

L'ottimizzazione dell'Ambiente termico palestra sulla Strategia di apertura e di chiusura del tetto di PROGETTAZIONE - l'Area di Shanghai di intrattenimento come esempio di architettura di nuotare.

The study about strategies to optimize the stadium retractable roof under interior hygrothermal condition——taking natatorium in Shanghai as examples.

WU, BOWEN
2016/2017

Abstract

With the development of our country's economy and the quantity of indoor swimming pool, swimming has become one of the most popular activity. Compared with other activity venues, the indoor heat environment is certain difference, such as proper water temperature, air temperature, wind speed, relative humidity and so on. But architects tend to pay more attention to architectural modeling and structure during the design period, the indoor heat environment would become the duty of hvac engineer. This will not only increased reliance on equipment, but also created a higher building energy consumption and adverse factors for human health. Faced with such problems, the author expected by opening and closing recreational natatoria roof design, the optimization tactics of the indoor thermal environment are put forward based on a large number of literature reading and study and the computer software simulation method,. In addition, with open and close the top design of tongji university swimming pool since the beginning of the operation, its comfortable indoor swimming pool environment wide praise of teachers and students and citizens, and also provides the case effectively support for this study. This article takes Shanghai area as the research object, recreational natatoria of indoor heat environment are compared, and using the CFD simulation at the same time, finally the strategies for movable roof natatorium in optimizing the design of the indoor heat environment are obtained. The research is divided into four parts: The first part, combined with the existing specification, engineering experience and human thermal comfort, find out the suitable comfort indoor thermal index for recreational natatoria. The second part, measure the data of the swimming pool in the spring, summer, autumn,analysis the advantages and disadvantages in the daily operation, and make comparison with different venues. At the same time, combined with the actual measurement result, put forward suitable index for recreational natatoria in Shanghai area. The third part, in view of a movable roof of the natatorium, analysis the advantages and disadvantages, then computer model is established, By using the CFD software to simulate the indoor temperature, humidity, wind speed and the dynamic relationship between open and close the top, put forward the design strategy of optimization of movable roof, so as to more effectively improvement of the indoor thermal environment are swimming pool. The fourth part, by using the design strategy, optimize the second military medical university swimming pool, and analysis the improvement of the optimized venues by comparing with actual measured results .
2016
The study about strategies to optimize the stadium retractable roof under interior hygrothermal condition——taking natatorium in Shanghai as examples.
L'ottimizzazione dell'Ambiente termico palestra sulla Strategia di apertura e di chiusura del tetto di PROGETTAZIONE - l'Area di Shanghai di intrattenimento come esempio di architettura di nuotare.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14239/20558