YEARBOOK 2018 - 2019 | XJTLU DEPARTMENT OF ARCHITECTURE
The sixth edition of the yearbook of the Department of Architecture at Xi'an Jiaotong-Liverpool University presents student works created during the academic year 2018 - 2019. The yearbook exemplifies the new model for Chinese architectural education for which the department was commended by the Royal Institute of British Architects (RIBA). It is also a showcase of the creative culture that has guided our students towards successful international careers as responsible and creative architectural designers. The Department of Architecture at XJTLU offers RIBA Part 1, 2 and 3.
The sixth edition of the yearbook of the Department of Architecture at Xi'an Jiaotong-Liverpool University presents student works created during the academic year 2018 - 2019. The yearbook exemplifies the new model for Chinese architectural education for which the department was commended by the Royal Institute of British Architects (RIBA). It is also a showcase of the creative culture that has guided our students towards successful international careers as responsible and creative architectural designers. The Department of Architecture at XJTLU offers RIBA Part 1, 2 and 3.
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336<br />
ADVANCED DEMAND<br />
CONTROL VENTILATION<br />
SYSTEM IN <strong>OF</strong>FICE<br />
BUILDINGS ACCOMMODATING<br />
THE VARIOUS OUTDOOR AIR<br />
QUALITY.<br />
<strong>2018</strong>-<strong>2019</strong> <strong>YEARBOOK</strong> Xi’an Jiaotong-Liverpool University Department of Architecture 西 交 利 物 浦 大 学 建 筑 系<br />
Nuodi Fu<br />
PhD Candidate<br />
Department of Architecture<br />
Xi’an Jiaotong-Liverpool University<br />
This study explores how outdoor air pollutants impact on Indoor Air<br />
Quality (IAQ) in buildings and shows strategies on how to improve IAQ<br />
using typical ventilation strategies and novel active system designs<br />
in urban areas. The most significant impact of ventilation occurs<br />
during supply outdoor air and use indoor. According to the literature<br />
and reports, observed atmospheric outdoor air pollutant levels have<br />
increased every year. China also suffers from diseases due to air<br />
pollution. This study has measured outdoor air pollutants, such as Carbon<br />
dioxide (CO2), Carbon monoxide (CO), PM2.5, and PM10, and analyzed<br />
existing air ventilation performance using the passive or active system<br />
in a building when space is exposed to severe outdoor air pollutants.<br />
As long as the atmospheric air pollution level increased, ventilation<br />
strategies have to consider to improve supplying outdoor air quality<br />
and to maintain an acceptable indoor air pollution level depending on<br />
seasonal change, building location, height, air pollutants’ type. And<br />
ventilation rates also should be considered in relation to the surrounding<br />
environment. This study presents how the outdoor air pollution level<br />
rises impacts on IAQ and building energy consumption, and how to<br />
develop novel ventilation strategies to adapt to polluted environmental<br />
condition for human health.<br />
Research