论文信息 - A new method for typical weather data selection to evaluate long-term performance of solar energy systems

A new method for typical weather data selection to evaluate long-term performance of solar energy systems

Abstract A new method is proposed for determining typical 1-year weather data from a multi-year record for evaluation of solar energy systems. The procedure is very straightforward and can be utilised with ease when determining the long-term performance of a solar hot water system (SHWS). It is made up of a concatenation of 12 months individually selected from a multi-year database. The criterion for the selection is the minimisation of error in the monthly solar gain prediction of the system. Considering this criterion, the ‘typicality’ of the weather pattern is taken into account, in addition to its influence on the behaviour of the solar system. A comparison is made between the new method and others frequently referred to in the literature. Based on simulation results for yearly, monthly and daily power delivered, six indicators have been calculated. These indicators quantify the different behaviours of the system when ‘historical’ and typical weather data are applied. The all inclusive comparison shows that the new method for deriving typical weather data leads to an accurate evaluation of the long-term performance of a SHWS.

E. Mathioulakis | M. Gazela | E. Mathioulakis | M. Gazela

[1] C. F. Ratto,et al. Proposal of a numerical procedure to select reference years , 1993 .

[2] J. Duffie,et al. A methodology for the synthesis of hourly weather data , 1991 .

[3] Daniel Feuermann,et al. A typical meteorological day (TMD) approach for predicting the long-term performance of solar energy systems , 1985 .

[4] Michael McClintock,et al. Determining typical weather for use in solar energy simulations , 1978 .

[5] D. K. Pissimanis,et al. The generation of a “typical meteorological year” for the city of Athens , 1988 .

[6] R. E. Schafer,et al. Improved goodness-of-fit tests , 1971 .

[7] Mehdi N. Bahadori,et al. A simplification of weather data to evaluate daily and monthly energy needs of residential buildings , 1986 .

[8] S. Schweitzer. A possible “average” weather year on Israel's coastal plain for solar system simulations , 1978 .

[9] William A. Beckman,et al. Assessment of the accuracy of generated meteorological data for use in solar energy simulation studies , 1994 .

[10] W. Beckman,et al. A design procedure for solar heating systems , 1976 .

[11] C. F. Ratto,et al. A procedure to obtain average daily values of meteorological parameters from monthly averages , 1988 .

[12] L. W. Crow. Weather year for energy calculations , 1984 .

[13] Constantinos A. Balaras,et al. Comparison of methodologies for tmy generation using 20 years data for Athens, Greece , 1999 .