Performance Analysis of Hybrid PV/Diesel Energy System in
The potential implementation of hybrid photovoltaic (PV)/diesel energy systemin western region of Saudi Arabia is analyzed in this paper. The solar radiation intensity considered in this study is
Resource Assessment and Techno-Economic
The economic growth and demographic progression in Saudi Arabia increased spending on the development of conventional power plants to meet the national energy demand. The conventional generation and continued use of fossil fuels
Performance optimization of a photovoltaic-diesel hybrid power system
A Photovoltaic-Diesel Hybrid System (PvDHS) was designed, analyzed, and optimized based on the climate data of Yanbu, Saudi Arabia. Measured local solar insolation and climate data were used in the Hybrid Optimization Model for Electric Renewables (HOMER) software with different system components and configurations in order to optimize the
(PDF) Study of a solar PV–diesel–battery hybrid power system for
Study of a solar PV–diesel–battery hybrid power system for a remotely located population near Rafha, Saudi Arabia In Saudi Arabia, the per capita energy consumption has reached to 20 kWh/day in 2008 compared to 19.4 kWh/day in 2007, i.e. a net increase of 3.1% in one year [26], as shown in Fig. 1.
Techno-economic assessment for energy transition from diesel
Hybrid energy power plants are remarkable option for the electrification of isolated areas, which commonly fulfill their energy demand by means of diesel generators. An energy combination comprising also PV or wind systems would lead to a reduction of costs and is, therefore, being gradually esteemed. In this paper, an optimal sizing approach was established
An Optimization Model for Sizing a Hybrid Photovoltaic-Wind-Grid
This paper proposes a new optimization model based on mixed-integer linear programming approach for sizing a solar-wind-grid-connected system. The proposed hybrid system aims to supply load demand for an industrial facility in Saudi Arabia. The developed model determines the optimal number of photovoltaic modules and wind turbines, as well as the
Optimal Sizing Grid-Connected Hybrid
Tazay (2020) studied grid-connected hybrid systems including PV/Wind/Bat for energy supply in different cities of Saudi Arabia, including Tabuk, and considering the current electricity tariffs, concluded that the grid/PV
Optimal sizing of grid-connected photovoltaic energy system in Saudi Arabia
Ramli et al. [7] investigated optimum configuration of PV/inverter, PV and inverter for grid-PV system in Makkah, Saudi Arabia. It is obtained for unmet load of 2200 MW and zero percent excess
Performance Analysis of Hybrid PV/Diesel Energy System in
Performance Analysis of Hybrid PV/Diesel Energy System in Western Region of Saudi Arabia MakbulA.M.Ramli, 1 AyongHiendro, 2 andH.R.E.H.Bouchekara 3 Department of Electrical and Computer Engineering, King Abdulaziz University, Jeddah, Saudi Arabia a hybrid PV/diesel system is designed to reach its optimum performance to meet load demand in
Saudi Arabia Solar Photovoltaic Industry Research Report 2024
Saudi Arabian Solar Photovoltaic Market Saudi Arabian Solar Photovoltaic Market Dublin, Nov. 14, 2024 (GLOBE NEWSWIRE) -- The "Saudi Arabia Solar Photovoltaic Market by Region, Competition
Optimal Design of Hybrid Renewable Energy System for a
Saudi Arabia tries to build local desalination water stations to supply water to remote areas. Due to the low cost and energy requirements of reverse osmosis (RO) desalination technology, it has been used to supply fresh water to Arar City in the northeast of Saudi Arabia. In this paper, it is proposed to provide an average of 1000 cubic meters of water per day by using
Techno-economic evaluation of off-grid hybrid photovoltaic–diesel
The Kingdom of Saudi Arabia (K.S.A.) being endowed with high intensity of solar radiation, is a prospective candidate for deployment of PV systems. A study about PV-Diesel hybrid system and
Optimal Sizing Grid-Connected Hybrid PV/Generator/Battery Systems
Tazay (2020) studied grid-connected hybrid systems including PV/Wind/Bat for energy supply in different cities of Saudi Arabia, including Tabuk, and considering the current electricity tariffs, concluded that the grid/PV system is the best choice with the COE of 0.0688 ($/kWh), where RF is 50% and will reduce CO 2 emission by 54.3%.
Techno-economic evaluation of off-grid hybrid photovoltaic–diesel
The research on feasibility of renewable energy systems at Saudi Arabia, has been the subject matter of several earlier studies [24], This indicates that initial cost of PV system in hybrid system is dominant. Regarding annual operation and maintenance cost of PV/converter system,
An Optimization Model for Sizing a Hybrid Photovoltaic-Wind-Grid
In recent years, Saudi Arabia has begun to introduce a small-scale solar PV system that will significantly impact three key aspects of Saudi Arabia: energy cost, environment, and technology
Techno-economic evaluation of hybrid renewable hydrogen systems
The hybrid energy system in Dammam was identified as the most practical option for fulfilling Saudi Arabia''s electricity and hydrogen production requirements based on the analysis and optimization
A Hybrid PV-Biomass Generation Based Micro-Grid for the
Request PDF | A Hybrid PV-Biomass Generation Based Micro-Grid for the Irrigation System of a Major Land Reclamation Project in Kingdom of Saudi Arabia (KSA) - Case Study of Albaha Area | This
Study of a Solar Pv/Wind/Diesel Hybrid Power System for a
Different hybrid configurations of wind, photovoltaic (PV), and diesel systems for a village in the north-eastern region of Saudi Arabia are presented. The configurations (i) diesel only, (ii) wind-diesel, (iii) PV-diesel, and (iv) wind-PV-diesel power generation systems are designed and compared to select the optimal alternative system by considering the minimum
Potentials and opportunities of solar PV and wind energy sources
Saudi Arabia: Hybrid solar PV/wind/battery: For the hybrid solar PV-wind system, the initial suitability map was scaled into ten suitability levels, considering the increased complexity and variability resulting from the combination of two distinct resources. This finer resolution enabled a more precise identification of suitable sites for
Design and Sensitivity Analysis of Hybrid Photovoltaic
The main objective of this paper is to present an optimal design, sensitivity analysis, and detailed feasibility and techno-economic evaluation of a hybrid photovoltaic-fuel-cell-battery (PV/FC/B) system to supply a small
Performance Analysis of Hybrid PV/Diesel Energy System in
The potential implementation of hybrid photovoltaic (PV)/diesel energy system in western region of Saudi Arabia is analyzed in this paper. The solar radiation intensity considered in this study is in the range of 4.15–7.17 kWh/m 2 /day. The HOMER software is used to perform the technical and economical analysis of the system.
Integrated CSP-PV hybrid solar power plant for two cities in Saudi Arabia
The operation of all solar power systems, including PV, storage battery, and CSP with TES in Saudi Arabia [78]; techno-economic simulation of the hybrid power plant of PT-based CSP and PV in
An Optimization-Based Model for A Hybrid
The developed model was validated using a real case study in Saudi Arabia. The developed hybrid renewable energy system consists of PV panels, a hydrogen storage system (electrolyzer, hydrogen tanks, and fuel
6 FAQs about [Saudi Arabia pv hybrid system]
How to optimize PV-diesel hybrid electrification in Saudi Arabia?
Methodology HOMER software is used with the input data of Yanbu, Saudi Arabia’s climate information to optimize PV-diesel hybrid electrification. A search space sub-program was utilized to find the best number of batteries and the optimal PV, converter, and diesel generator size.
Can a photovoltaic-diesel hybrid system be integrated with a solar system?
In order to mitigate the problem, integration with a solar photovoltaic system is proposed. A Photovoltaic-Diesel Hybrid System (PvDHS) was designed, analyzed, and optimized based on the climate data of Yanbu, Saudi Arabia.
Can a hybrid solar photovoltaic–diesel–battery system affect rural areas?
Rehman and Al-Hadhrami conducted an optimization and economic analysis of a Saudi Arabian hybrid solar photovoltaic–diesel–battery system. This research demonstrates that it is technically feasible to convert some diesel generators to solar energy and positively affect rural areas.
Does a hybrid CSP & PV plant work in Morocco?
Hlusiak et al. [ 15] studied a hybrid CSP + PV plant in Morocco composed of a solar thermal collector field with thermal energy storage (TES), a PV system, and a fossil fuel burner, to assess the operation (daily and annual), and the LCOE of the plant.
Does arid climate affect PV hybrid systems?
A critical review of the state-of-art PV hybrid system shows that arid climate is the most studied region when it comes to applying PV hybrid systems . Solar photovoltaic systems may be installed and configured in a variety of configurations, including stand-alone, grid-connected, or hybrid designs.
What is the LCOE of a CSP hybrid plant in Riyadh?
This results in a baseline LCOE of 0.177 $/kWh for Riyadh and 0.137 $/kWh for Tabuk. 3. The hybrid concept with a PV plant added to the CSP original baseload plant, the results show a reduction in LCOE of 18% for Riyadh and 7% for Tabuk keeping the plant capacity factor at a high 79%.