Development and Implementation of Solar Assisted Desiccant Cooling Technology in Developing Countries: A Case of Saudi Arabia

Rehman, Shafiqur; Rafique, M. Mujahid; Alhems, Luai M.; Alam, Md. Mahbub

doi:10.3390/en13030524

Cited by 7 publications

(4 citation statements)

References 28 publications

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“…They stated that the type of fuel utilized is a major factor in determining the capital payback period, which was 8 years for electricity, 14.2 years for diesel, and 22.2 years for natural gas. Rehman et al (2020) evaluated the viability and potential of solar-aided desiccant cooling systems in Saudi Arabia. This can greatly reduce the cost of cooling units, according to the economic study.…”

Section: Literature Reviewmentioning

confidence: 99%

Utilizing solar photovoltaic systems in educational facilities to achieve a zero bill campus: The Sulaiman Al-Rajhi University case

Alfaoyzan

Almasri

2023

Energy Exploration & Exploitation

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One of the primary things damaging the environment is the use of energy. In the Kingdom of Saudi Arabia (KSA), electricity is the main source of energy in educational buildings. To conserve the environment, significant efforts are now being made to reduce energy use in general and electricity use in particular. To be sustainable, it is also vital to research the possibilities of employing solar energy in the higher education sector since it is also accessible in the KSA. The main motives behind this study are the low prices of photovoltaic (PV) solar systems globally and the existence of a new government system to benefit from solar energy in the KSA. The utilization of PV solar energy at Sulaiman Al-Rajhi University in the Qassim region was examined in this article. Two scenarios were considered: scenario 1, in which the entire roof of the buildings is covered by a PV system, and scenario 2, for securing electricity so that it is a nearly zero-bill campus (nZBC). The yield factors calculated for scenarios 1 and 2 are 1896 and 1922 kWh/kWp, respectively, while the capacity factor is 21.6% for scenario 1 and 21.9% for scenario 2. For scenarios 1 and 2, the systems produce 2,160,181 and 10,199,253 kWh of electrical energy annually, respectively. The production in the second scenario is about 113% of the load to reach an nZBC, compared to the first scenario's coverage of about 24% of the load. The levelized cost of energy was found to be between 0.026 and 0.028 $/kWh, with a simple payback period of 10 years for scenario 1 and 8.1 years for scenario 2. Additionally, the proposed systems’ environmental benefits were noted.

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Section: Literature Reviewmentioning

confidence: 99%

Utilizing solar photovoltaic systems in educational facilities to achieve a zero bill campus: The Sulaiman Al-Rajhi University case

Alfaoyzan

Almasri

2023

Energy Exploration & Exploitation

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“…Alternatively, desiccant cooling technologies emerged as a solution for handling latent loads independently, thereby reducing the energy consumption for the AHU chiller. Desiccant wheels can be regenerated with any heat source energy, even low-grade such as solar energy, reducing environmental impacts [42] and decreasing the dependence on primary resources [43]. Some improvements in these systems are based on the introduction of alternative desiccant materials to silica gel, such as polymer desiccants [44,45] or J o u r n a l P r e -p r o o f Titanium Dioxide [46], which can improve the dehumidification capacity of the system working at low regeneration temperatures (around 50°C).…”

Section: Air-handling Subsystems: Traditional Air-handling Units (Ahu...mentioning

confidence: 99%

Sustainable active cooling strategies in hot and humid climates – A review and a practical application in Somalia

Litardo

Pero

Molinaroli

et al. 2022

Building and Environment

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“…The utilization of RES is being encouraged in a wide range of applications, such as quality power supply to isolated and small applications through hybrid power systems [1][2][3][4][5], offgrid and grid-connected wind and solar the adverse effects of conventional energy sources. The utilization of RES is being encouraged in a wide range of applications, such as quality power supply to isolated and small applications through hybrid power systems [1][2][3][4][5], offgrid and grid-connected wind and solar PV farms [6][7][8][9][10][11][12][13], power generation using the solar chimney concept [14], аnd sоlаr аir соnditiоning аnd desalination [15][16][17]. With technological advancement and commercial acceptance of RES and new energy industries, the demand for energy storage systems is increasing.…”

Section: Introductionmentioning

confidence: 99%

Overview of the Role of Energy Resources in Algeria’s Energy Transition

et al. 2022

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Algeria is a wealthy country with natural resources, namely, nuclear, renewable, and non-renewable sources. The non-renewable energy sources are considered the lion’s share for energy production (98%). Algeria’s efforts to ensure and strengthen its energy security will take an important step in the coming decades by commissioning new energy infrastructure based on intensive use of water, coal, nuclear, non-renewable, and renewable sources. The implementation of new power infrastructure is expected to be operational from 2030. The renewable power realization in Algeria is relatively less compared to other African countries, i.e., Morocco, Egypt, South Africa, etc. The total renewable power installed capacity in Algeria reached 686 MW in 2020, as part of its national energy portfolio, although the Algerian government has spent tremendous efforts on introducing new sustainable technologies to enable the transition towards a cleaner and sustainable energy system. Indeed, the country announced its plan to install around 22 GW of renewable energy capacity by 2030. It will include 1 GW bio-power from the waste, 13.5 GW from solar PV, 2 GW from CSP, 15 MW from geothermal, 400 MW cogeneration, and, finally, 5 GW from wind. The scope of the present research provides general information about the usage of energy resources such as fossil, nuclear, and renewable sources in Algeria and also covers the energy supply outlook. The present effort is the first of its kind which discusses the application of the coal and nuclear as clean energy sources as part of renewable energy transition. Additionally, it also includes the description of the existing Algerian energy sector and information about water and water desalination and their usage in other sectors.

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Development and Implementation of Solar Assisted Desiccant Cooling Technology in Developing Countries: A Case of Saudi Arabia

Cited by 7 publications

References 28 publications

Utilizing solar photovoltaic systems in educational facilities to achieve a zero bill campus: The Sulaiman Al-Rajhi University case

Utilizing solar photovoltaic systems in educational facilities to achieve a zero bill campus: The Sulaiman Al-Rajhi University case

Sustainable active cooling strategies in hot and humid climates – A review and a practical application in Somalia

Overview of the Role of Energy Resources in Algeria’s Energy Transition

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