A software tool for the creation of a typical meteorological year

被引:21
|
作者
Petrakis, M
Lykoudis, S
Kassomenos, P
机构
[1] Inst. of Meteorol./Phys. of the A., National Observatory of Athens, GR 118 10 Athens
来源
ENVIRONMENTAL SOFTWARE | 1996年 / 11卷 / 04期
关键词
passive heating/cooling; building thermal simulation; typical meteorological data; test reference data;
D O I
10.1016/S0266-9838(96)00006-8
中图分类号
TP31 [计算机软件];
学科分类号
081202 ; 0835 ;
摘要
The generation of a typical meteorological year is of great importance for passive solar architectural applications. In this context, within the PASCOOL project, a software tool has been developed, utilizing the Filkenstein-Schafer statistical method for the creation of a typical meteorological year. Using this software tool, a typical meteorological year was generated for Athens, Greece. The data used were from the National Observatory of Athens and cover a period of 17 years (1977-1993). (C) 1997 Elsevier Science Ltd.
引用
收藏
页码:221 / 227
页数:7
相关论文
共 50 条
  • [31] A global typical meteorological year (TMY) database on ERA5 dataset
    Wu, Yi
    An, Jingjing
    Gui, Chenxi
    Xiao, Chan
    Yan, Da
    BUILDING SIMULATION, 2023, 16 (06) : 1013 - 1026
  • [32] Analysis of Typical Meteorological Year selection for energy simulation of building with daylight utilization
    Sun, Jingting
    Li, Zhengrong
    Xiao, Fu
    10TH INTERNATIONAL SYMPOSIUM ON HEATING, VENTILATION AND AIR CONDITIONING, ISHVAC2017, 2017, 205 : 3080 - 3087
  • [33] Typical Meteorological Year methodologies applied to solar spectral irradiance for PV applications
    Polo, Jesus
    Alonso-Abella, Miguel
    Martin-Chivelet, Nuria
    Alonso-Montesinos, Joaquin
    Lopez, Gabriel
    Marzo, Aitor
    Nofuentes, Gustavo
    Vela-Barrionuevo, Nieves
    ENERGY, 2020, 190
  • [34] A method of determining typical meteorological year for evaluating overheating performance of passive buildings
    Qian, Bin
    Yu, Tao
    Zhang, Chen
    Heiselberg, Per
    Lei, Bo
    Yang, Li
    BUILDING SIMULATION, 2023, 16 (04) : 511 - 526
  • [35] An improved typical meteorological year for solar energy simulations in Rarotonga, Cook Islands
    Anderson, Timothy
    JOURNAL OF THE ROYAL SOCIETY OF NEW ZEALAND, 2022, 52 (05) : 606 - 613
  • [36] A global typical meteorological year (TMY) database on ERA5 dataset
    Yi Wu
    Jingjing An
    Chenxi Gui
    Chan Xiao
    Da Yan
    Building Simulation, 2023, 16 : 1013 - 1026
  • [37] Generation of a Typical Meteorological Year Using 10 years Data of Beijing, China
    Jiang, Yingni
    PROCEEDINGS OF 2009 INTERNATIONAL CONFERENCE ON INFORMATION, ELECTRONIC AND COMPUTER SCIENCE, VOLS I AND II, 2009, : 172 - 175
  • [38] An improved typical meteorological year based on outdoor climate comprehensive description method
    Fan, Xinying
    Chen, Bin
    Wang, Shibo
    Zhao, Joe R.
    Sun, Helen J.
    BUILDING AND ENVIRONMENT, 2021, 206
  • [39] Exploring Alternatives to the "Typical Meteorological Year" for Incorporating Climate Change into Building Design
    Rabideau, Shannon L.
    Passe, Ulrike
    Takle, Eugene S.
    ASHRAE TRANSACTIONS 2012, VOL 118, PT 1, 2012, 118 : 384 - 391
  • [40] A method of determining typical meteorological year for evaluating overheating performance of passive buildings
    Bin Qian
    Tao Yu
    Chen Zhang
    Per Heiselberg
    Bo Lei
    Li Yang
    Building Simulation, 2023, 16 : 511 - 526
12345