Energy
S.Mohammad Reza Mousavi; S.M.Hojjat Mohammadi; Ebrahim Jahanshahi Javaran
Articles in Press, Accepted Manuscript, Available Online from 06 May 2024
Abstract
Considering the unfavorable conditions caused by the wasteful consumption of fossil fuels in order to ensure the comfort of the residents of the building sector, it seems necessary to reduce and prevent the energy wastes. Windows include a significant part of this waste due to penetration of solar heat ...
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Considering the unfavorable conditions caused by the wasteful consumption of fossil fuels in order to ensure the comfort of the residents of the building sector, it seems necessary to reduce and prevent the energy wastes. Windows include a significant part of this waste due to penetration of solar heat and radiation. The use of shading devices is evaluated as a suitable strategy in order to improve the energy utilization performance of the building. In this article, physical specifications of an office building in Kerman, Iran are modeled in Sketch Up software. Then by assigning materials to the building components in Open Studio software, the building is simulated. Finally, the building energy consumption in the presence of overhangs, movable shading devices and simultaneous use of them, is calculated in Energy Plus software. Results showed that the use of movable shading devices have better performance in reducing energy consumption compared to overhangs. In this regard, the interior shade has reduced the annual energy consumption of the building up to 17.37 %, compared to the base state (same building with no shades). On the other hand, overhang with a depth of 50 (cm) and movable shade saves 40.29 (Gj) in the annual energy consumption of the building, and shows the most reduction in energy consumption.
Energy
M. Movehhedi Nia; M. Nikpour; E. Jahanshahi Javaran
Abstract
The research aims to develop sustainable daylighting strategies for contemporary buildings by drawing inspiration from traditional vernacular housing solutions. In this study, the daylight factors of a contemporary residential space with a central courtyard which is located in Kerman, Iran is evaluated. ...
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The research aims to develop sustainable daylighting strategies for contemporary buildings by drawing inspiration from traditional vernacular housing solutions. In this study, the daylight factors of a contemporary residential space with a central courtyard which is located in Kerman, Iran is evaluated. After modeling the building in Design Builder software, the U-values of the external walls, roof, floor and windows based on the available materials in the market of Iran are calculated. The results of daylight simulations are presented in term of Average DF (%), Work plane Illuminanace (Lux) and Uniformity Ratio as well as annual Indicators of daylight such as sDA and UDI. Zone 3 in the ground floor which is a space under top lit atrium acts as a source of daylight. Although, Zone 5 in the ground floor has reasonable daylight factor, the uniformity ratio is not acceptable due to simultaneously existing the areas of little and high illuminance. Zone 7 in the first floor as a public sapce can provide large potential for daylight utilization with DF equal to 2.6% and average WPI with 826 Lux because there is a possibility to receive daylight from east direction with designing central courtyard in the first floor plan.
Energy
M. Maghsoudizadeh; M. Ameri; E. Jahanshahi Javaran; A. MotamedSadr; A. A. Feili Monfared
Abstract
In recent years, the use of renewable energy sources and investigation on renewable energy have significantly grown. In this research, parabolic trough and linear Fresnel collectors, which are widely used in the field of solar energy, have been investigated from the point of view of exergy. First, the ...
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In recent years, the use of renewable energy sources and investigation on renewable energy have significantly grown. In this research, parabolic trough and linear Fresnel collectors, which are widely used in the field of solar energy, have been investigated from the point of view of exergy. First, the energy balance equations for different components of the collector were solved using numerical methods and the temperature distribution in each component of the collector was obtained. Then the values of exergy destruction in each component of the system were calculated. The comparison of the results obtained in the present work with the results of the previous research showed a good agreement. The results showed that the exergy efficiency in the parabolic trough collector is approximately 1.5 times that of the linear Fresnel reflector. Also, changes in exergy efficiency, exergy destruction of the whole collector, output exergy cost and CO2 emission with increasing solar radiation intensity and fluid mass flow rate for both collectors have been compared and investigated.
M. E. Kazemian; S. A. Gandjalikhan Nassab; E. Jahanshahi Javarana
Abstract
In the present work, the statistical analyses are presented to study the economic indexes of Net Present Value (NPV) and Simple Payback Period (SPB) as response functions for the Combined Cooling, Heating and Power (CCHP) system. The CCHP performance is simulated with the aid of thermodynamic modeling, ...
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In the present work, the statistical analyses are presented to study the economic indexes of Net Present Value (NPV) and Simple Payback Period (SPB) as response functions for the Combined Cooling, Heating and Power (CCHP) system. The CCHP performance is simulated with the aid of thermodynamic modeling, and also economic equations are presented for economic simulation. An attempt is made to study the effect of some economic factors (interest ratio, fuel cost, lifetime, and electricity sell price) on the system’s responses. Based on the Design of Experiment analysis, regression models are presented to quantify the effects of these parameters on the Net Present Value and Simple Payback Periods. This novel approach is developed utilizing the response surface methodology (RSM) based on the central composite design (CCD) method. Sensitivity analysis of the economic parameters was also examined in this research. Optimal values of these parameters were obtained for the two economic indexes as response functions.