Solar Radiation Simulation by Using Zero-dimensional Climate Model
Solar radiation is the major energy source for entire earth. This causes the variation of solar radiation had strong relation with variation of global temperature. This relation was studied more detail by using simulation of zero-dimensional climate model. On this model, the equilibrium system was u...
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my.utp.eprints.88392017-01-19T08:21:12Z Solar Radiation Simulation by Using Zero-dimensional Climate Model Riza, R Ariwahjoedi, B. Sulaiman, S. A. TJ Mechanical engineering and machinery Solar radiation is the major energy source for entire earth. This causes the variation of solar radiation had strong relation with variation of global temperature. This relation was studied more detail by using simulation of zero-dimensional climate model. On this model, the equilibrium system was used to study the effect of solar radiation to temperature change. Overall, the model consists of two mathematical equations that describe condition for the atmospheric layer and earth surface system. The outputs of the model consisted of the temperature at the atmospheric layer and the earth surface. They were solved by three numerical methods, namely: Newton-Raphson, Quasi Newton-Raphson and Steepest Descent methods. Absolute error analysis was used to determine the solution for the Newton-Raphson and Quasi Newton-Raphson methods while alpha value for Steepest Descent method. Relation for the solar variation and global temperature change was obtained by assuming the other variables on the equations to be constant as the average value. The relation graphs describe that variation of the solar radiation could cause significant global temperature change. ANSInet 2013 Citation Index Journal PeerReviewed application/pdf http://eprints.utp.edu.my/8839/1/Rahmat%20Riza%20353-359.pdf http://scialert.net/current.php?issn=1992-1454 Riza, R and Ariwahjoedi, B. and Sulaiman, S. A. (2013) Solar Radiation Simulation by Using Zero-dimensional Climate Model. [Citation Index Journal] http://eprints.utp.edu.my/8839/ |
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TJ Mechanical engineering and machinery Riza, R Ariwahjoedi, B. Sulaiman, S. A. Solar Radiation Simulation by Using Zero-dimensional Climate Model |
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Solar radiation is the major energy source for entire earth. This causes the variation of solar radiation had strong relation with variation of global temperature. This relation was studied more detail by using simulation of zero-dimensional climate model. On this model, the equilibrium system was used to study the effect of solar radiation to temperature change. Overall, the model consists of two mathematical equations that describe condition for the atmospheric layer and earth surface system. The outputs of the model consisted of the temperature at the atmospheric layer and the earth surface. They were solved by three numerical methods, namely: Newton-Raphson, Quasi Newton-Raphson and Steepest Descent methods. Absolute error analysis was used to determine the solution for the Newton-Raphson and Quasi Newton-Raphson methods while alpha value for Steepest Descent method. Relation for the solar variation and global temperature change was obtained by assuming the other variables on the equations to be constant as the average value. The relation graphs describe that variation of the solar radiation could cause significant global temperature change. |
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Citation Index Journal |
author |
Riza, R Ariwahjoedi, B. Sulaiman, S. A. |
author_facet |
Riza, R Ariwahjoedi, B. Sulaiman, S. A. |
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Riza, R |
title |
Solar Radiation Simulation by Using Zero-dimensional Climate Model |
title_short |
Solar Radiation Simulation by Using Zero-dimensional Climate Model |
title_full |
Solar Radiation Simulation by Using Zero-dimensional Climate Model |
title_fullStr |
Solar Radiation Simulation by Using Zero-dimensional Climate Model |
title_full_unstemmed |
Solar Radiation Simulation by Using Zero-dimensional Climate Model |
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solar radiation simulation by using zero-dimensional climate model |
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ANSInet |
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2013 |
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http://eprints.utp.edu.my/8839/1/Rahmat%20Riza%20353-359.pdf http://scialert.net/current.php?issn=1992-1454 http://eprints.utp.edu.my/8839/ |
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