Ulgen and Hepbasli model

It may be concluded that the present models predict the values of H for the three big cities better than other available models.

clearness indexglobal and diffuse radiationsolar radiationsolar energy system

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Application-focused categoriesNatural-perspectiveAtmospheric regions
Application-focused categoriesIntegrated-perspectiveGlobal scale

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Quoted from:K. Ulgen and A. Hepbasli, “Solar radiation models. Part 2: comparison and developing new models,” Energy Sources, vol. 26, no. 5, pp. 521–530, 2004.https://www.sci-hub.ren/10.1080/00908310490429704

INTRODUCTION

Solar engineers, architects, agriculturists, and hydrologists in many applications of solar energy require a reasonably accurate knowledge about the availability of solar resources at any place. For this purpose, in the past, several empirical models have been developed in order to estimate the solar radiation around the world. The main objective of the present study is twofold, namely: (1) to compare some existing models used for estimating the monthly average daily global solar radiation on a horizontal surface (H) for Turkey’s big cities such as Istanbul, Ankara and Izmir, which cover approximately 30% of the population of Turkey, and (2) to develop some empirical models for these cities. Experimental data for Izmir were measured in the Solar Meteorological Station of the Solar Energy Institute at Ege University. The present models were then compared with the 25 models, of which 12 were given in Part 1 of this study (defifined as national models), while the remainder (called international models), presented here, and used for calculating H. The main percentage error (MPE), the root mean square error (RMSE), the main bias error (MBE) and the t-statistic (t-stat) methods were used for evaluating the performance of the models studied. It may be concluded that the present models predict the values of H for the three big cities better than other available models.

The main objective in doing the present study is twofold, namely: (1) to compare some existing models used for estimating solar radiation for Turkey’s big cities such as Istanbul, Ankara and Izmir, which are the three biggest cities by population in Turkey, respectively, covering approximately 30% of the population of Turkey and (2) to develop some empirical relations for these cities.

In this study, the MBE, RMSE, MPE, and t-statistic methods were used for performance evaluations of the models.

Ulgen and Hepbasli proposed the linear relation equation for Ankara, Istanbul, and Izmir in Turkey:

\( 𝐻/𝐻_0 = 0.2671 + 0.4754 𝑆/𝑆_0 . \)

Ulgen and Hepbasli also proposed the thirdorder polynomial relation for Ankara, Istanbul, and Izmir in Turkey, as follows:

\( H/H_0 = 0.2854 + 0.2591S/S_0+ 0.6171(S/S_0)^2 − 0.4834(S/S_0)^3. \)

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KORAY ULGEN, ARIF HEPBASLI (2021). Ulgen and Hepbasli model, Model Item, OpenGMS, https://geomodeling.njnu.edu.cn/modelItem/f88a004a-f52f-49d6-a506-b4b780a2907a
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