参考文献/References:
参考文献 References
[1] MARION W, URBAN K. User’s manual for TMY2s:
Typical meteorological years. National Renewable Energy
Laboratories[R]. SANd887 2379, Albuquerque, 1995.
[2] 郎四维. 建筑能耗分析逐时气象资料的开发研究[J].
暖通空调, 2002, 32(4): 1-5.
LANG Siwei. Research and development of weather data
for building energy analyses[J]. HVAC, 2002, 32(4): 1-5.
[3] 张晴原, 杨洪兴. 建筑用标准气象数据手册[M]. 北京:
中国建筑工业出版社, 2012.
ZHANG Qingyuan, YANG Hongxing. Typical Meteorological
Database Handbook for Buildings[M]. Beijing:
China Building Industry Press, 2012.
[4] ZHANG Qingyuan, Joe Huang, YANG Liu. Development
of the typical and design weather data for Asian locations.[
J]. Asian Architecture and Building Engineering,
2002, 1(2): 49-55.
[5] 中国气象局气象信息中心气象资料室, 清华大学建筑
技术科学系. 中国建筑热环境分析专用气象数据集
[M]. 北京: 中国建筑工业出版社, 2005.
Meteorological reference room of Meteorological Information
Center of China Meteorological Administration,
Department of Building Technology of Tsinghua University.
Building thermal environment analysis dedicated
meteorological data set of China[M]. Beijing: China
Building Industry Press, 2005.
[6] 刘加平, JOSEPH C L, 杨柳, 等. 建筑节能设计的基础
科学问题研究报告[R]. 西安: 西安建筑科技大学, 2007.
LIU Jiaping, JOSEPH C L, YANG Liu, et al. The report
of basic scientific issues of building energy efficiency design[
R]. Xi′an: Xi′an University of Architecture and
Technology, 2007.
[7] HALL I, PRAIRIE R, ANDERSON H, et al. Generation
of Typical Meteorological Years for26 SOLMET Stations[
R]. SAND78-1601, Albuquerque, 1978.
[8] PISSIMANIS D, KARRAS G, NOTARIDOU V, et al.
The generation of a typical meteorological year for the
city of Athens[J]. Solar Energy, 1988, 40(5): 405–411.
[9] JOSEPH C L, SAM C M H, APPLE L S C. A statistical
approach to the development of a typical meteorological
year for Hong Kong[J]. Architectural Science Review,
1996, 39(4): 201-209.
[10] LUND H. The design reference year user’s manual.
Thermal Insulation Laboratory[R]. Technical University
of Denmark, Report 274, 1995.
[11] FESTA R, RATTO C F. Proposal of a numerical procedure
to select reference years[J]. Solar Energy, 1993,
50(1): 9–17.
[12] KAMAL S. Comparison of methodologies for TMY generation
using 10 years data for Damascus, Syria[J]. Energy
Conversion and Management, 2007, 48(7): 2090–2102.
[13] 杨柳. 建筑气候学[M]. 北京: 中国建筑工业出版社,
2010.
YANG Liu. Bioclimatic Architecture[M]. Beijing: China
Building Industry Press, 2010.
[14] 杨洪兴, 吕琳, 娄承芝, 等. 典型气象年和典型代表年
的选择及其对建筑能耗的影响[J]. 暖通空调, 2005,
35(1): 130-133.
YANG Hongxing, LÜ Lin, LOU Chengzhi, et al. Selections
of typical meteorological year and example weather
year and their effects on building energy consumption[J].
HVAC, 2005, 35(1): 130-133.
[15] YANG Hongxing, LŰ Lin. The development and comparisons
of typical meteorological years for building energy
simulation and renewable energy applications[J].
ASHRAE Trans, 2004, 110(2): 424-431.
[16] YANG Liu, KEVIN K W W, DANNY H W L, et al. A
new method to develop typical weather years in different
climates for building energy use studies[J]. Energy,
2011(36): 6121-6129.
[17] 刘大龙. 区域气候预测与建筑能耗演化规律研究[D].
西安: 西安建筑科技大学, 2011.
LIU Dalong. The prediction of regional climate and the
research of building energy evolution[D]. Xi′an: Xi′an
University of Architecture and Technology, 2011.
[18] 刘大龙, 刘加平, 杨柳, 等. 气候变化下建筑能耗模拟
气象数据研究[J]. 土木建筑与环境工程, 2012, 34(2):
110-114.
LIU Dalong, LIU Jiaping, YANG Liu, et al. Building energy
simulation study of meteorological data under the
Climate Change[J]. Civil Architectural and Environmental
Engineering, 2012, 34(2): 110-114.
[19] 高庆龙, 杨柳, 刘大龙, 等. 建筑热环境模拟分析用逐
时相对湿度生成方法[J]. 四川建筑科学研究, 2007,
33(6): 203-207.
GAO Qinglong, YANG Liu, LIU Dalong, et al. The
method of getting hourly relative humidity for building
thermal condition simulation[J]. Sichuan Building Science,
2007, 33(6): 203-207.
[20] 江亿. 用于空调负荷计算的随机气象模型[D]. 北京:
清华大学, 1980.
JIANH Yi. The stochastic weather data model for the heat
gain calculation of air-conditioning system[D]. Beijing:
Tsinghua University, 1980.
[21] United States Department of Energy. EnergyPlus Energy
Simulation Software[CP/OL]. http: //www. eere. energy.
gov/buildings/energyplus.
[22] LIU B Y H, JORDAN R B. The Interrelationship and
Characteristic Distribution of Direct, Defuse and Total
Solar Radiation[J]. Solar Energy, 1960, 4(3): 1-19.
[23] IPCC, Climate Change 2007: The Physical Science Basis.
Contribution of Working Group I to the Fourth Assessment
Report of the Intergovernmental Panel on Climate
Change[M]. Cambridge, UK; New York, USA: Cambridge
University Press, 2007.
[24] GUAN Lisa. Preparation of future weather data to study
the impact of climate change on buildings[J]. Building
and Environment, 2009, 44(4): 793-800.
[25] VAN A H C, LUO Q X. Weather data generator to study
climate change on buildings[J]. Building Services Engineering
Research and Technology, 2002(23): 251–258.
[26] DICKINSON R E. The climate system and modeling of
future climate[M]//BOLIN B, DOOS B R, JAGER J,
WARRICK R A. The greenhouse effect, climatic change
and ecosystems. Chichester, UK: John Wiley & Sons;
1986.
[27] 朱明亚, 潘毅群, 华沙晶, 等. 气候变化条件下中国典
型城市未来天气参数与建筑能源需求预测[J]. 建筑节
能, 2013, 41(3): 57-64.
ZHU Mingya, PAN Yiqun, HUA Shajing, et al. Prediction
of future Weather data and building energy demand for
representative cities in China under climate change[J].
Building Energy Efficiency, 2013, 41(3): 57-64.
[28] BELCHER S E, HACKER J N, POWELL D S. Constructing
design weather data for future climates[J].
Building Services Engineering Research and Technology,
2005, 26(1): 49-61.
[29] JENTSCH Mark F, BAHAJ Abubakr S, JAMES Patrick A
B. Climate change future proofing of buildings: Generation
and assessment of building simulation weather
files[J]. Energy and Buildings, 2008, 40(12): 2148-2168