RESEARCH ON THE INFLUENCE OF GREEN SETTLEMENT DESIGN PARAMETERS ON SOLAR RADIATION

LIU Yan; CHEN Ruixin; ZHANG Moyan; LI Qi; ZHANG Hao; CAO Qimeng; YANG Liu

doi:10.13204/j.gyjzG19113017

Volume 50 Issue 7

Oct. 2020

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Article Navigation > INDUSTRIAL CONSTRUCTION > 2020 > 50(7): 143-150

LIU Yan, CHEN Ruixin, ZHANG Moyan, LI Qi, ZHANG Hao, CAO Qimeng, YANG Liu. RESEARCH ON THE INFLUENCE OF GREEN SETTLEMENT DESIGN PARAMETERS ON SOLAR RADIATION[J]. INDUSTRIAL CONSTRUCTION, 2020, 50(7): 143-150. doi: 10.13204/j.gyjzG19113017

Citation:

LIU Yan, CHEN Ruixin, ZHANG Moyan, LI Qi, ZHANG Hao, CAO Qimeng, YANG Liu. RESEARCH ON THE INFLUENCE OF GREEN SETTLEMENT DESIGN PARAMETERS ON SOLAR RADIATION[J]. INDUSTRIAL CONSTRUCTION, 2020, 50(7): 143-150. doi: 10.13204/j.gyjzG19113017

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RESEARCH ON THE INFLUENCE OF GREEN SETTLEMENT DESIGN PARAMETERS ON SOLAR RADIATION

doi: 10.13204/j.gyjzG19113017

1. State Key Laboratory of Green Building in Western China, Xi'an 710055, China;
2. School of Architecture, Xi'an University of Architecture and Technology, Xi'an 710055, China

Received Date: 2019-11-30
Publish Date: 2020-10-17

Abstract

Abstract

The solar radiation in the open space of urban residential areas has an important impact on the thermal environment. In order to create a livable and economic residential outdoor space, it is of fundamental value to study the amount of solar radiation in the outdoor space. Based on the parameterized software platform Rhino-Grasshopper and with the help of the performance simulation plug-in Ladybug, the shadow angle projection algorithm principle of the sky opening factor was adopted to realize the automatic calculation of the sky view factor (SVF). Compared with the calculation of solar radiation model based on SVF, it was proved that the simplified calculation had high calculation accuracy and stability, and could meet the requirements of engineering design. At the same time, using the ideal settlement model to analyze the influence of green settlement design parameters on solar radiation, the results showed that building density was negatively correlated with solar radiation, and the correlation of plot ratio, average building height and solar radiation were affected by building density, and the correlation varied with the solar height angle.
- solar radiation,
- sky view factor,
- green settlement,
- parametric

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References

Population Reference Bureau. World Population Data Sheet, 2015[EB/OL]. http://www.prb.org/Publication/Datasheets/2015/2015-world-population-data-sheet.aspx

CHRISTINA C, RAPHAËL C, MARIALENA N. Urban Geometry and Solar Availability on Façades and Ground of Real Urban Forms:Using London as a Case Study[J]. Solar Energy, 2016(138):53-66.

NIKOLOPOULOU M, LYKOUDIS S. Use of Outdoor Spaces and Microclimate in a Mediterranean Urban Area[J]. Building and Environment, 2007(42):3691-3707.

NIKOLOPOULOU M, BAKER N, STEEMERS K. Thermal Comfort in Outdoor Urban Spaces:Understanding the Human Parameter[J]. Solar Energy, 2001(70):227-235.

高亚锋. 适于城市住区规划的室外热环境实测与模拟研究[D]. 重庆:重庆大学,2011.

WARD L G, SHAKESPEARE R. Rendering with Radiance:The Art and Science of Lighting Visualizations[M]. San Francisco:Morgan Haufmann, 1998.

MARDALJEVIC J. Multi-scale Climate-Based Daylight Modelling[C]//SEUS-Solar Energy at Urban Scale. Compiègne:2010.

JAKUBIEC J, REINHART C F. DIVA 2.0:Integrating Daylight and Thermal Simulations Using Rhinoceros 3D, Daysim and EnergyPlus[C]//In BS2011:12th Conference of Internet. Building Performance Simulation. Sydney:2011.

COMPAGNON. Solar and Daylight Availability in the Urban Fabric[J]. Energy and Building, 2004(36):321-328.

DARREN R. A Simplified Radiosity Algorithm for General Urban Radiation Exchange[J]. Building Service Engineering, 2005(26):271-284.

MICHELE M, AGNESE S, HELENA C, et al. Urban Morphology Indicators for Solar Energy Analysis[J]. Energy Procedia, 2017(134):807-814.

OKE T R. The Urban Energy Balance[J]. Progress in Physical Geography, 1988, 12(4):471-508.

ZHANG H, ZHU S, WANG M, et al. Sky View Factor Estimation Based on 3D Urban Building Data and Its Application in Urban Heat Island-Illustrated by the Case of Adelaide[J]. Remote Sensing Technology and Application, 2015, 30(5):899-907.

CHAPMAN L, Thornes J E. Real-Time Sky-View Factor Calculation and Approximation[J]. Journal of Atmospheric and Ocean Technology, 2004, 21(5):730-741.

李百战,罗庆,姚润明. 城市地面对天空热辐射角系数问题的求解[J]. 重庆大学学报(自然科学版), 2006,299(2):86-89.

吴杰. 基于参数化三维模型的城市天空遮挡简化算法[J]. 建筑科学, 2017(6):32-40.

张海龙. 基于遥感和城市空间形态学方法的城市热环境研究[D]. 南京:南京信息工程大学,2015.

UNGER J. Intra-Urban Relationship Between Surface Geometry and Urban Heat Island Review and New Approach[J]. Climate Research, 2004, 27:253-264.

胡友培. 高密度城市形态热岛性能优化设计研究[J]. 建筑学报, 2015(2):23-29.

高国栋. 气候学教程[M].北京:科学出版社,1991.

KREITH F,KREIDER J F. Principles of Solar Engineering[M]. New York:McGraw-Hill, 1978.

左大康,王懿贤,陈建绥. 中国地区太阳总辐射的空间分布特征[J]. 气象学报,1963,33(1):78-95.

LQBAL M. An Introduction to Solar Radiation[M]. Toronto:Academic Press, 1983.

WANG K, ZHOU X, LIU J, et al. Estimating Surface Solar Radiation over Complex Terrain Using Moderate-Resolution Satellite Sensor Data[J]. International Journal of Remote Sensing, 2005, 26(1):47-58.

DOZIER J, FREW J. Rapid Calculation of Terrain Parameters for Radiation Modeling from Digital Elevation Data[J]. IEEE Transactions on Geoscience and Remote Sensing, 1990,28(5):963-969.

王建凯, 王开存, 王普才. 三维城市地表反射率计算模式[J]. 大气科学, 2008, 32(5):1119-1127.

田辉,文军,马耀明,等. 复杂地形下黑河流域的太阳辐射计算[J]. 高原气象, 2007(4):14-24.

朱丹, 宋德萱, 史洁. 居住区密度参数对太阳能潜力的影响——北京、上海两地对比研究[C]//第十四届国际绿色建筑与建筑节能大会暨新技术与产品博览会. 珠海:2018.

中华人民共和国住房和城乡建设部. 城市居住区规划设计标准:GB 50180-2018[S]. 北京:中国建筑工业出版社,2018.

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