Mahdi Feizbahr scite author profile

The low efficiency of solar collectors can be mentioned as one of the problems in solar combined cooling, heating, and power (CCHP) cycles. For improving solar systems, nanofluid and porous media are used in solar collectors. One of the advantages of using porous media and nanoparticles is to absorb more energy under the same conditions. In this research, a solar combined cooling, heating, and power (SCCHP) system has been optimized by porous media and nanofluid for generating electricity, cooling, and heating of a 600 m2 building in a warm and dry region with average solar radiation of Ib = 820 w/m2 in Iran. In this paper, the optimal amount of nanofluid in porous materials has been calculated to the extent that no sediment is formed. In this study, solar collectors were enhanced with copper porous media (95% porosity) and CuO and Al2O3 nanofluids. 0.1%–0.6% of the nanofluids were added to water as working fluids; it is found that 0.5% of the nanofluids lead to the highest energy and exergy efficiency enhancement in solar collectors and SCCHP systems. Maximum energy and exergy efficiency of parabolic thermal collector (PTC) riches in this study are 74.19% and 32.6%, respectively. Figure 1 can be mentioned as a graphical abstract for accurately describing the cycle of solar CCHP.

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Optimized Vegetation Density to Dissipate Energy of Flood Flow in Open Canals

Feizbahr

Tonekaboni

Jiang

et al. 2021

Mathematical Problems in Engineering

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Vegetation along the river increases the roughness and reduces the average flow velocity, reduces flow energy, and changes the flow velocity profile in the cross section of the river. Many canals and rivers in nature are covered with vegetation during the floods. Canal’s roughness is strongly affected by plants and therefore it has a great effect on flow resistance during flood. Roughness resistance against the flow due to the plants depends on the flow conditions and plant, so the model should simulate the current velocity by considering the effects of velocity, depth of flow, and type of vegetation along the canal. Total of 48 models have been simulated to investigate the effect of roughness in the canal. The results indicated that, by enhancing the velocity, the effect of vegetation in decreasing the bed velocity is negligible, while when the current has lower speed, the effect of vegetation on decreasing the bed velocity is obviously considerable.

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Internet of Things (IoT) and Remote Sensing (RS) Based on Geospatial Information System (GIS) Against Fatigue of Asphalt Bitumen

Bhattarai¹,

Feizbahr²

2022

ENGT

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Some Aspects of Research for Reclamation of Asphalt Based on Remote Sensing (RS)

Feizbahr¹,

Bhattarai²

2022

CRPASE

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This research aims to study the bitumen structure components and tests to get a better understanding of bitumen, which is one of the main components of asphalt mixtures. In this work, a brief explanation of other research findings on the organic compound was investigated. Moreover, a review of previous research conducted with bitumen that was modified with different oils was made, eventually. By comparing the results of this study and previous studies, it can be concluded that samples containing rhamnolipid biosurfactant had a better behavior against fatigue compared to samples made with bitumen modified with other oils. The present project was equipped with Remote Sensing (RS) facilities, sensors, modems and a data logger system. Modern technology through advanced sensors and modems was applied for the detection of asphalt mixtures data.

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Mahdi Feizbahr

Optimization of Solar CCHP Systems with Collector Enhanced by Porous Media and Nanofluid

Optimized Vegetation Density to Dissipate Energy of Flood Flow in Open Canals

Internet of Things (IoT) and Remote Sensing (RS) Based on Geospatial Information System (GIS) Against Fatigue of Asphalt Bitumen

Some Aspects of Research for Reclamation of Asphalt Based on Remote Sensing (RS)

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