Renewable energy systems are technologies that can generate electricity from solar, wind, hydroel... more Renewable energy systems are technologies that can generate electricity from solar, wind, hydroelectric, biomass, and other renewable energy resources. This research project aims to find the best renewable energy technology combinations for several scenarios in Malaysia. The strategies are analysed by evaluating the investments in the renewable energy systems in each of the decided scenarios in Malaysia, Pekan, Pahang and Mersing, Johor, using HOMER Pro software. The finding shows that the PV–wind hybrid system has a better net present cost (NPC) than the other systems for both scenarios, which are USD −299,762.16 for Scenario 1 and USD −642,247.46 for Scenario 2. The PV–wind hybrid system has 4.86-year and 2.98-year payback periods in Scenarios 1 and 2. A combination of RE technologies yielded fewer emissions than one kind alone. The PV–wind hybrid system provides a quicker payback period, higher money savings, and reduced pollutants. The sensitivity results show that resource avai...
Solar energy is an accessible and sustainable energy source to meet the rising air conditioning d... more Solar energy is an accessible and sustainable energy source to meet the rising air conditioning demand. This study investigated the performance of solar thermal assisted sorption cooling systems, namely, solar absorption (SABC) and adsorption cooling (SADC) systems. A novel analytical approach to determine the techno-economic potential for specific climate conditions has been developed. The climatic conditions of Malaysia were used as a case study. Both cooling systems were simulated using TRNSYS coupled with VISUAL BASIC and optimized using a multi-objective optimization algorithm implemented in MATLAB. The results show that the COP chiller and collector area have the most significant impact on the performance and primary energy consumption of SABC and SADC systems. On average, 36 % and 27 % of the useful energy gain of solar collectors was converted to the cooling effect in SABC and SADC systems, respectively. Meanwhile, the minimum amount of non-renewable primary energy, the non-renewable primary energy savings ratio, and the least payback period are 0.57 and 0.39, 7.6 % and 7.5 %, and 4 and 9 years, for the SABC and SADC systems, respectively.
Renewable energy systems are technologies that can generate electricity from solar, wind, hydroel... more Renewable energy systems are technologies that can generate electricity from solar, wind, hydroelectric, biomass, and other renewable energy resources. This research project aims to find the best renewable energy technology combinations for several scenarios in Malaysia. The strategies are analysed by evaluating the investments in the renewable energy systems in each of the decided scenarios in Malaysia, Pekan, Pahang and Mersing, Johor, using HOMER Pro software. The finding shows that the PV–wind hybrid system has a better net present cost (NPC) than the other systems for both scenarios, which are USD −299,762.16 for Scenario 1 and USD −642,247.46 for Scenario 2. The PV–wind hybrid system has 4.86-year and 2.98-year payback periods in Scenarios 1 and 2. A combination of RE technologies yielded fewer emissions than one kind alone. The PV–wind hybrid system provides a quicker payback period, higher money savings, and reduced pollutants. The sensitivity results show that resource avai...
In this study, the heat transfer characteristics of the flat plate collectors with circular and e... more In this study, the heat transfer characteristics of the flat plate collectors with circular and elliptical serpentine tubes are theoretically analyzed and compared in terms of m˙, Re, Nu, hfi, FR, Qu, and μTh under various water flow rates and the standard test conditions. The results reveal that the maximum μTh correspondence to the elliptical serpentine design with 56% under turbulent flow, and the minimum μTh of 47% for the circular cross-section under laminar flow. In addition, it was found that the highest useful energy gain per unit time (493.8 W) through the system is possible when FR, hfi, Nu, and m˙ are maximum and vice versa. It was concluded that, at the same area, the larger contact area in the elliptical cross-section compared to the circular would improve FR and Qu by an average of 2%. Overall, it is crucial to evaluate the thermal parameters of the thermal collector during the preliminary design stage to fabricate a highly efficient system and save time as well as ini...
Solar energy is an accessible and sustainable energy source to meet the rising air conditioning d... more Solar energy is an accessible and sustainable energy source to meet the rising air conditioning demand. This study investigated the performance of solar thermal assisted sorption cooling systems, namely, solar absorption (SABC) and adsorption cooling (SADC) systems. A novel analytical approach to determine the techno-economic potential for specific climate conditions has been developed. The climatic conditions of Malaysia were used as a case study. Both cooling systems were simulated using TRNSYS coupled with VISUAL BASIC and optimized using a multi-objective optimization algorithm implemented in MATLAB. The results show that the COP chiller and collector area have the most significant impact on the performance and primary energy consumption of SABC and SADC systems. On average, 36 % and 27 % of the useful energy gain of solar collectors was converted to the cooling effect in SABC and SADC systems, respectively. Meanwhile, the minimum amount of non-renewable primary energy, the non-renewable primary energy savings ratio, and the least payback period are 0.57 and 0.39, 7.6 % and 7.5 %, and 4 and 9 years, for the SABC and SADC systems, respectively.
This paper investigates double-pass solar air thermal collectors with lava rock as the porous med... more This paper investigates double-pass solar air thermal collectors with lava rock as the porous media. The addition of lava rock serves as short-term sensible thermal storage for a solar drying system. It also enhances the convective heat transfer rate to the airflow due to an increased heat transfer area and increased turbulence in the air channel. A mathematical model was developed based on energy balance equations and was numerically solved in MATLAB. The collector’s thermal performance was studied at various levels of solar intensity and at different wind speeds for different design parameters: collector size, air mass flow rate, and lava rock volume. From the study, the optimum efficiencies that were obtained in the range between the intensities of 500 W/m2 and 800 W/m2 were 62% to 64%, respectively, with an optimum flow rate of 0.035 kg/s. The optimum porosity of about 89% was selected for the collector by considering the pressure drop and thermal efficiency. An optimal temperat...
International Journal of Electrical and Computer Engineering (IJECE), 2022
Malaysia demonstrates its commitment to alleviating the negative climate and energy issues throug... more Malaysia demonstrates its commitment to alleviating the negative climate and energy issues through various initiatives. One of the latest initiatives is the amendment of the net-energy metering (NEM) scheme that takes effect from 2019. This paper presents the distribution of energy to the residential house that has a grid-connected solar photovoltaic (PV) system installed. The study quantifies the percentage of energy consumed from the PV system and the grid as well as the percentage of PV generated energy that is exported to the grid. On average, 38% of generated energy was used for self-consumption that contributed to 28% of the total consumption. Economic evaluation over a 25-year lifecycle of the PV system is also conducted shows that the simple payback period for NEM 2019 and NEM 2016 is 8 years and 20 years, respectively. The latest version of NEM shows a superior advantage compared to the previous one which may attract more investments in PV generation.
In this study, the heat transfer characteristics of the flat plate collectors with circular and e... more In this study, the heat transfer characteristics of the flat plate collectors with circular and elliptical serpentine tubes are theoretically analyzed and compared in terms of m˙, Re, Nu, hfi, FR, Qu, and μTh under various water flow rates and the standard test conditions. The results reveal that the maximum μTh correspondence to the elliptical serpentine design with 56% under turbulent flow, and the minimum μTh of 47% for the circular cross-section under laminar flow. In addition, it was found that the highest useful energy gain per unit time (493.8 W) through the system is possible when FR, hfi, Nu, and m˙ are maximum and vice versa. It was concluded that, at the same area, the larger contact area in the elliptical cross-section compared to the circular would improve FR and Qu by an average of 2%. Overall, it is crucial to evaluate the thermal parameters of the thermal collector during the preliminary design stage to fabricate a highly efficient system and save time as well as ini...
International Journal of Heat and Technology, 2021
Desiccant is a hygroscopic substance generally used in the dryer and air-conditioning system as a... more Desiccant is a hygroscopic substance generally used in the dryer and air-conditioning system as a drying agent. The function of desiccant is to remove moisture from the air to reduce the humidity of the surrounding air been conditioned. This paper presents several works on the performance of desiccant material in the drying and air-conditioning application. It puts focus on the various advantages and disadvantages of the use of desiccant as a drying agent. There are some advantages of using desiccant include consistent drying and low energy usage. However, there are several disadvantages of using desiccants which are low capacity for moisture absorption and pressure drop in solid desiccant. Solar drying applications have some advantages such as being comparatively cheaper than other methods and less risk of spoiling the product. On the contrary, drying applications have disadvantages include being lower in comparison to the original foodstuff and drying foods eventually leads to shr...
This paper investigates double-pass solar air thermal collectors with lava rock as the porous med... more This paper investigates double-pass solar air thermal collectors with lava rock as the porous media. The addition of lava rock serves as short-term sensible thermal storage for a solar drying system. It also enhances the convective heat transfer rate to the airflow due to an increased heat transfer area and increased turbulence in the air channel. A mathematical model was developed based on energy balance equations and was numerically solved in MATLAB. The collector’s thermal performance was studied at various levels of solar intensity and at different wind speeds for different design parameters: collector size, air mass flow rate, and lava rock volume. From the study, the optimum efficiencies that were obtained in the range between the intensities of 500 W/m2 and 800 W/m2 were 62% to 64%, respectively, with an optimum flow rate of 0.035 kg/s. The optimum porosity of about 89% was selected for the collector by considering the pressure drop and thermal efficiency. An optimal temperat...
International Journal of Electrical and Computer Engineering (IJECE), 2022
Malaysia demonstrates its commitment to alleviating the negative climate and energy issues throug... more Malaysia demonstrates its commitment to alleviating the negative climate and energy issues through various initiatives. One of the latest initiatives is the amendment of the net-energy metering (NEM) scheme that takes effect from 2019. This paper presents the distribution of energy to the residential house that has a grid-connected solar photovoltaic (PV) system installed. The study quantifies the percentage of energy consumed from the PV system and the grid as well as the percentage of PV generated energy that is exported to the grid. On average, 38% of generated energy was used for self-consumption that contributed to 28% of the total consumption. Economic evaluation over a 25-year lifecycle of the PV system is also conducted shows that the simple payback period for NEM 2019 and NEM 2016 is 8 years and 20 years, respectively. The latest version of NEM shows a superior advantage compared to the previous one which may attract more investments in PV generation.
International Journal of Heat and Technology, 2021
Desiccant is a hygroscopic substance generally used in the dryer and air-conditioning system as a... more Desiccant is a hygroscopic substance generally used in the dryer and air-conditioning system as a drying agent. The function of desiccant is to remove moisture from the air to reduce the humidity of the surrounding air been conditioned. This paper presents several works on the performance of desiccant material in the drying and air-conditioning application. It puts focus on the various advantages and disadvantages of the use of desiccant as a drying agent. There are some advantages of using desiccant include consistent drying and low energy usage. However, there are several disadvantages of using desiccants which are low capacity for moisture absorption and pressure drop in solid desiccant. Solar drying applications have some advantages such as being comparatively cheaper than other methods and less risk of spoiling the product. On the contrary, drying applications have disadvantages include being lower in comparison to the original foodstuff and drying foods eventually leads to shr...
Renewable energy systems are technologies that can generate electricity from solar, wind, hydroel... more Renewable energy systems are technologies that can generate electricity from solar, wind, hydroelectric, biomass, and other renewable energy resources. This research project aims to find the best renewable energy technology combinations for several scenarios in Malaysia. The strategies are analysed by evaluating the investments in the renewable energy systems in each of the decided scenarios in Malaysia, Pekan, Pahang and Mersing, Johor, using HOMER Pro software. The finding shows that the PV–wind hybrid system has a better net present cost (NPC) than the other systems for both scenarios, which are USD −299,762.16 for Scenario 1 and USD −642,247.46 for Scenario 2. The PV–wind hybrid system has 4.86-year and 2.98-year payback periods in Scenarios 1 and 2. A combination of RE technologies yielded fewer emissions than one kind alone. The PV–wind hybrid system provides a quicker payback period, higher money savings, and reduced pollutants. The sensitivity results show that resource avai...
Solar energy is an accessible and sustainable energy source to meet the rising air conditioning d... more Solar energy is an accessible and sustainable energy source to meet the rising air conditioning demand. This study investigated the performance of solar thermal assisted sorption cooling systems, namely, solar absorption (SABC) and adsorption cooling (SADC) systems. A novel analytical approach to determine the techno-economic potential for specific climate conditions has been developed. The climatic conditions of Malaysia were used as a case study. Both cooling systems were simulated using TRNSYS coupled with VISUAL BASIC and optimized using a multi-objective optimization algorithm implemented in MATLAB. The results show that the COP chiller and collector area have the most significant impact on the performance and primary energy consumption of SABC and SADC systems. On average, 36 % and 27 % of the useful energy gain of solar collectors was converted to the cooling effect in SABC and SADC systems, respectively. Meanwhile, the minimum amount of non-renewable primary energy, the non-renewable primary energy savings ratio, and the least payback period are 0.57 and 0.39, 7.6 % and 7.5 %, and 4 and 9 years, for the SABC and SADC systems, respectively.
Renewable energy systems are technologies that can generate electricity from solar, wind, hydroel... more Renewable energy systems are technologies that can generate electricity from solar, wind, hydroelectric, biomass, and other renewable energy resources. This research project aims to find the best renewable energy technology combinations for several scenarios in Malaysia. The strategies are analysed by evaluating the investments in the renewable energy systems in each of the decided scenarios in Malaysia, Pekan, Pahang and Mersing, Johor, using HOMER Pro software. The finding shows that the PV–wind hybrid system has a better net present cost (NPC) than the other systems for both scenarios, which are USD −299,762.16 for Scenario 1 and USD −642,247.46 for Scenario 2. The PV–wind hybrid system has 4.86-year and 2.98-year payback periods in Scenarios 1 and 2. A combination of RE technologies yielded fewer emissions than one kind alone. The PV–wind hybrid system provides a quicker payback period, higher money savings, and reduced pollutants. The sensitivity results show that resource avai...
In this study, the heat transfer characteristics of the flat plate collectors with circular and e... more In this study, the heat transfer characteristics of the flat plate collectors with circular and elliptical serpentine tubes are theoretically analyzed and compared in terms of m˙, Re, Nu, hfi, FR, Qu, and μTh under various water flow rates and the standard test conditions. The results reveal that the maximum μTh correspondence to the elliptical serpentine design with 56% under turbulent flow, and the minimum μTh of 47% for the circular cross-section under laminar flow. In addition, it was found that the highest useful energy gain per unit time (493.8 W) through the system is possible when FR, hfi, Nu, and m˙ are maximum and vice versa. It was concluded that, at the same area, the larger contact area in the elliptical cross-section compared to the circular would improve FR and Qu by an average of 2%. Overall, it is crucial to evaluate the thermal parameters of the thermal collector during the preliminary design stage to fabricate a highly efficient system and save time as well as ini...
Solar energy is an accessible and sustainable energy source to meet the rising air conditioning d... more Solar energy is an accessible and sustainable energy source to meet the rising air conditioning demand. This study investigated the performance of solar thermal assisted sorption cooling systems, namely, solar absorption (SABC) and adsorption cooling (SADC) systems. A novel analytical approach to determine the techno-economic potential for specific climate conditions has been developed. The climatic conditions of Malaysia were used as a case study. Both cooling systems were simulated using TRNSYS coupled with VISUAL BASIC and optimized using a multi-objective optimization algorithm implemented in MATLAB. The results show that the COP chiller and collector area have the most significant impact on the performance and primary energy consumption of SABC and SADC systems. On average, 36 % and 27 % of the useful energy gain of solar collectors was converted to the cooling effect in SABC and SADC systems, respectively. Meanwhile, the minimum amount of non-renewable primary energy, the non-renewable primary energy savings ratio, and the least payback period are 0.57 and 0.39, 7.6 % and 7.5 %, and 4 and 9 years, for the SABC and SADC systems, respectively.
This paper investigates double-pass solar air thermal collectors with lava rock as the porous med... more This paper investigates double-pass solar air thermal collectors with lava rock as the porous media. The addition of lava rock serves as short-term sensible thermal storage for a solar drying system. It also enhances the convective heat transfer rate to the airflow due to an increased heat transfer area and increased turbulence in the air channel. A mathematical model was developed based on energy balance equations and was numerically solved in MATLAB. The collector’s thermal performance was studied at various levels of solar intensity and at different wind speeds for different design parameters: collector size, air mass flow rate, and lava rock volume. From the study, the optimum efficiencies that were obtained in the range between the intensities of 500 W/m2 and 800 W/m2 were 62% to 64%, respectively, with an optimum flow rate of 0.035 kg/s. The optimum porosity of about 89% was selected for the collector by considering the pressure drop and thermal efficiency. An optimal temperat...
International Journal of Electrical and Computer Engineering (IJECE), 2022
Malaysia demonstrates its commitment to alleviating the negative climate and energy issues throug... more Malaysia demonstrates its commitment to alleviating the negative climate and energy issues through various initiatives. One of the latest initiatives is the amendment of the net-energy metering (NEM) scheme that takes effect from 2019. This paper presents the distribution of energy to the residential house that has a grid-connected solar photovoltaic (PV) system installed. The study quantifies the percentage of energy consumed from the PV system and the grid as well as the percentage of PV generated energy that is exported to the grid. On average, 38% of generated energy was used for self-consumption that contributed to 28% of the total consumption. Economic evaluation over a 25-year lifecycle of the PV system is also conducted shows that the simple payback period for NEM 2019 and NEM 2016 is 8 years and 20 years, respectively. The latest version of NEM shows a superior advantage compared to the previous one which may attract more investments in PV generation.
In this study, the heat transfer characteristics of the flat plate collectors with circular and e... more In this study, the heat transfer characteristics of the flat plate collectors with circular and elliptical serpentine tubes are theoretically analyzed and compared in terms of m˙, Re, Nu, hfi, FR, Qu, and μTh under various water flow rates and the standard test conditions. The results reveal that the maximum μTh correspondence to the elliptical serpentine design with 56% under turbulent flow, and the minimum μTh of 47% for the circular cross-section under laminar flow. In addition, it was found that the highest useful energy gain per unit time (493.8 W) through the system is possible when FR, hfi, Nu, and m˙ are maximum and vice versa. It was concluded that, at the same area, the larger contact area in the elliptical cross-section compared to the circular would improve FR and Qu by an average of 2%. Overall, it is crucial to evaluate the thermal parameters of the thermal collector during the preliminary design stage to fabricate a highly efficient system and save time as well as ini...
International Journal of Heat and Technology, 2021
Desiccant is a hygroscopic substance generally used in the dryer and air-conditioning system as a... more Desiccant is a hygroscopic substance generally used in the dryer and air-conditioning system as a drying agent. The function of desiccant is to remove moisture from the air to reduce the humidity of the surrounding air been conditioned. This paper presents several works on the performance of desiccant material in the drying and air-conditioning application. It puts focus on the various advantages and disadvantages of the use of desiccant as a drying agent. There are some advantages of using desiccant include consistent drying and low energy usage. However, there are several disadvantages of using desiccants which are low capacity for moisture absorption and pressure drop in solid desiccant. Solar drying applications have some advantages such as being comparatively cheaper than other methods and less risk of spoiling the product. On the contrary, drying applications have disadvantages include being lower in comparison to the original foodstuff and drying foods eventually leads to shr...
This paper investigates double-pass solar air thermal collectors with lava rock as the porous med... more This paper investigates double-pass solar air thermal collectors with lava rock as the porous media. The addition of lava rock serves as short-term sensible thermal storage for a solar drying system. It also enhances the convective heat transfer rate to the airflow due to an increased heat transfer area and increased turbulence in the air channel. A mathematical model was developed based on energy balance equations and was numerically solved in MATLAB. The collector’s thermal performance was studied at various levels of solar intensity and at different wind speeds for different design parameters: collector size, air mass flow rate, and lava rock volume. From the study, the optimum efficiencies that were obtained in the range between the intensities of 500 W/m2 and 800 W/m2 were 62% to 64%, respectively, with an optimum flow rate of 0.035 kg/s. The optimum porosity of about 89% was selected for the collector by considering the pressure drop and thermal efficiency. An optimal temperat...
International Journal of Electrical and Computer Engineering (IJECE), 2022
Malaysia demonstrates its commitment to alleviating the negative climate and energy issues throug... more Malaysia demonstrates its commitment to alleviating the negative climate and energy issues through various initiatives. One of the latest initiatives is the amendment of the net-energy metering (NEM) scheme that takes effect from 2019. This paper presents the distribution of energy to the residential house that has a grid-connected solar photovoltaic (PV) system installed. The study quantifies the percentage of energy consumed from the PV system and the grid as well as the percentage of PV generated energy that is exported to the grid. On average, 38% of generated energy was used for self-consumption that contributed to 28% of the total consumption. Economic evaluation over a 25-year lifecycle of the PV system is also conducted shows that the simple payback period for NEM 2019 and NEM 2016 is 8 years and 20 years, respectively. The latest version of NEM shows a superior advantage compared to the previous one which may attract more investments in PV generation.
International Journal of Heat and Technology, 2021
Desiccant is a hygroscopic substance generally used in the dryer and air-conditioning system as a... more Desiccant is a hygroscopic substance generally used in the dryer and air-conditioning system as a drying agent. The function of desiccant is to remove moisture from the air to reduce the humidity of the surrounding air been conditioned. This paper presents several works on the performance of desiccant material in the drying and air-conditioning application. It puts focus on the various advantages and disadvantages of the use of desiccant as a drying agent. There are some advantages of using desiccant include consistent drying and low energy usage. However, there are several disadvantages of using desiccants which are low capacity for moisture absorption and pressure drop in solid desiccant. Solar drying applications have some advantages such as being comparatively cheaper than other methods and less risk of spoiling the product. On the contrary, drying applications have disadvantages include being lower in comparison to the original foodstuff and drying foods eventually leads to shr...
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Papers by Adnan ibrahim