They concluded that the electricity generation cost in Jordan was 0.02 $/kWh from wind turbines and 0.077 $/kWh for PV power plants. In addition, Aiad et al. [25] studied the feasibility of standalone PV/wind hybrid system in Jordan,
This study is dedicated to investigating the feasibility of photovoltaic/thermal (PV/T) collectors'' technology for application in Jordan. Simple parallel‐plate collector configurations were simulated using COMSOL: rectangular fins, triangular fins, and wavy walls. The wavy‐wall configuration was found the most efficient alternative in terms of heat transfer
This study simulates the potential of a stand-alone hybrid system comprising PV and wind turbine to adequately meet the annual electricity need of 34.4 MWh of a hotel in Jordan, the technical feasibility and economic viability of the system is
In Jordan, the grid is on its way of reaching its full capacity of grid-connected photovoltaic systems, and this issue is relatively tied with over-generation [20]. One way to make use of that excess energy is by utilizing a hybrid on-grid/off-grid system, which is basically a grid-tied system with the addition of battery energy storage system
The first photovoltaic panel PV-1 was cooled by using 2 wt% Al 2 O 3 /TiO 2 hybrid nanofluid in equal weight percentage. The second panel PV-2 was cooled by water only, while the third PV-3 was utilized without cooling.
Jordan, and analyzes the performance and economic impact of hybrid renewable energy systems for a selected household within the University of Jordan region. Rehman and Al-Hadhrami studied a solar PV-diesel-battery hybrid power system for a remotely located population in Saudi Arabia. They found out that microgrids consisting
There are three types of PV systems: off-grid, on-grid or hybrid. Off-grid systems fully self-contained with no reliance on the electrical grid. Other researchers have studied the techno-economic feasibility of utilizing PV systems in Jordan; they have not covered the case of a large-scale hotel yet; few investigations dealt with the PV are
The proposed system was 1.2 kW of PV modules and 1 kW wind turbine. They concluded that the system was technically feasible; however, it had long payback period for all the sector. Moreover, Aiad et al. [13] made a model to determine the optimal size of standalone PV/wind hybrid system in Jordan based on minimizing the annual total cost.
Request PDF | Feasibility study of a hybrid photovoltaic/ thermal collector system in the climate of Jordan | This study is dedicated to investigating the feasibility of photovoltaic/thermal (PV/T
Pricing of Solar Installation Companies in Jordan. The pricing of solar installation companies in Jordan varies based on several factors that influence the overall project cost. Al Emtyaz is among the best PV companies in Jordan offering competitive pricing without compromising on quality. The company aims to make solar energy accessible to
A study case of designing and simulation of a photovoltaic system in Jordan is investigated in this work. This study investigates the feasibility of using the solar energy in Jordan where a grid-connected photovoltaic-system is used. Sopian et al. (2009) studied the optimization of a stand-alone PV hybrid system for a household in Malaysia
The German Energy Academy in Jordan, in collaboration with Al-Hussein Technical University, offers this specialized course in Hybrid and Electric Vehicle (H/EV). The course aims to equip trainees with the necessary theoretical and practical knowledge in the field of (H/EV), EV-charging, EV Battery, and HV/ EV Motor Generators. This course is prepared for accreditation
Potential of Hybrid PV / Wind Turbine System in Jordan. Kamaruzzaman Sopian. 2009. download Download free PDF View PDF chevron_right. Photovoltaic system as an alternative source of electricity generation in Jordan. A study case of designing and simulation of a photovoltaic system in Jordan is investigated in this work. This study
The main purpose of this study is to investigate the feasibility of using a hybrid photovoltaic (PV), fuel cell (FC), and battery system to power different load cases, which are intended to be used at the Al-Zarqa governorate in Jordan. All aspects related to the potentials of solar energy in the Al-Hashemeya area were studied. The irradiation levels were carefully
Jordan has begun investing significantly in renewable energy, particularly solar energy, as it receives direct solar radiation with an intensity of between 5 and 7 kWh/m 2; a daily average of 5.6 kWh/m 2 that falls on a horizontal surface [4]. In addition, Jordan''s prime location on the sunbelt results in an annual irradiance between 1800 and 2700 kWh/m 2.
In this study, a hybrid PV/wind system is proposed for Lafarge cement factory in Al-Tafilah, Jordan. The hybrid system is sized based on maximizing the fraction of demand met by the hybrid system (F RES) with cost of electricity (COE) less than the grid tariff and with 100% renewable energy ratio to meet the renewable energy regulations in
The work is applicable in the cases where reliable hybrid SPV/diesel system for small railway station is required. In (Fahmy, 2012), the goal was to design an optimal economic renewable energy system. The paper presented four systems namely: Photovoltaic-wind hybrid system, stand-alone photovoltaic system, stand-alone wind system and
A recent case study at Al-Tafilah cement factory, Jordan shows that the COE of a PV/Wind hybrid system is 0.203 $/KWh [19]. If we observe the African region, a recent assessment of economic
DOI: 10.1016/J.SETA.2018.08.008 Corpus ID: 169385112; Optimization of hybrid PV-wind system: Case study Al-Tafilah cement factory, Jordan @article{AlGhussain2018OptimizationOH, title={Optimization of hybrid PV-wind system: Case study Al-Tafilah cement factory, Jordan}, author={Loiy Al‐Ghussain and Humayun Ahmed and Fahad Haneef}, journal={Sustainable
Qandil et al. [26] examined the feasibility of using a hybrid PV, fuel cell, and battery system to power various loads in Jordan''s Al-Zarqa governorate. Solar energy potentials in the Al-Hashemeya
Al-Rashed carried out economic analysis for a PV hybrid system for a house in remote Jordan with a load demand of 37.5 kWh/day and peak load of 6.98 kW. The system was optimized using HOMER PRO software, and the optimal configuration was found to consist of 12.1 kW PV, 7.7 kW diesel generator, 36 kWh battery and 4.82 kW converter.
