Energyland's 3KW Residential Solar Energy Storage System project in Baghdad, Iraq, represents a significant advancement in sustainable energy solutions tailored to meet the specific needs of customers. Launched in September 2020, this project highlights our commitment to quality, research and develo Contact online >>
Energyland''s 3KW Residential Solar Energy Storage System project in Baghdad, Iraq, represents a significant advancement in sustainable energy solutions tailored to meet the specific needs of customers. Launched in September 2020, this project highlights our commitment to quality, research and development (R&D), and customer satisfaction.
In an era of increasing energy demands and a pressing need for sustainable solutions, customers are seeking reliable and efficient energy systems. The primary requirements for this project included:
Energy Independence: Customers desired a system that would enable them to generate and store their own energy, reducing reliance on the local grid.
Cost Efficiency: The system needed to be economically viable, providing savings on electricity bills while ensuring a reasonable return on investment.
Sustainability: There was a strong emphasis on utilizing renewable energy sources to minimize environmental impact.
User-Friendly Operation: Customers sought a straightforward system that could be easily monitored and maintained.
To address these requirements, Energyland''s personnel undertook extensive efforts in quality assurance and R&D. We recognized that meeting customer expectations necessitated a robust approach:
1. Component Selection: We prioritized high-quality components for the solar energy storage system. The choice of a 3KW solar inverter and a Lithium Battery with a capacity of 5KWh ensured reliable performance under various conditions.
2. Testing Protocols: Rigorous testing protocols were established to evaluate the performance and durability of the components. This included simulations of different weather conditions to ensure optimal functionality.
1. Innovative Design: Our R&D team focused on developing an integrated system that efficiently combines solar generation with energy storage. The design aimed to maximize energy capture during peak sunlight hours while ensuring sufficient storage capacity for nighttime use or cloudy days.
2. User-Centric Features: Feedback from potential users was integral to the design process. Features such as remote monitoring capabilities were incorporated, allowing customers to track their energy production and consumption in real time.
The culmination of these efforts led to the successful implementation of the 3KW Residential Solar Energy Storage System in Baghdad. Here’s how Energyland effectively met customer requirements:
The installed system allows homeowners to generate their own electricity, significantly reducing dependence on the grid. With a capacity of 3KW, it can supply sufficient power for essential household needs, particularly during peak usage times.
By generating approximately 4,500 kWh annually (based on average sunlight hours in Baghdad), customers can expect substantial savings on their electricity bills. Moreover, the lithium battery ensures that excess energy generated during the day can be stored for use at night or during power outages.
The project aligns perfectly with global sustainability goals by utilizing renewable solar energy. This not only reduces carbon footprints but also supports local initiatives aimed at promoting green technologies.
The system is designed with user-friendliness in mind. Customers receive comprehensive training on how to operate and maintain their systems effectively. Additionally, remote monitoring features enable users to manage their energy consumption effortlessly.
Energyland''s 3KW Residential Solar Energy Storage System project exemplifies how tailored solutions can address specific customer needs while promoting sustainability and energy independence. Through rigorous quality assurance processes and innovative R&D efforts, Energyland has successfully delivered a product that meets modern energy demands in Baghdad, setting a benchmark for future projects in similar markets.
Battery: Lithium Battery 5KWh
Scientists from Tomsk Polytechnic University have conducted a research and presented a concept of a hybrid solar energy storage system based on a photovoltaic (PV) installation with electrochemical and thermal energy storage for a gym in Baghdad, Iraq. The development is estimated to be 20 percent cheaper in total than its alternatives.
The research was conducted by Boris Lukutin, Professor of the TPU Division for Power and Electrical Engineering and Karrar Hameed Kadhim, a postgraduate student of the School of Energy and Power Engineering.
"Despite the fact that Iraq is an oil-rich country, it suffers from power shortages and has to import electrical energy. Another problem is the underdevelopment of electrical grids in remote areas, which are not connected to central electric power systems. Therefore, the use of renewable energy resources is a relevant issue," Boris Lukutin says.
The PV system completes two tasks: it collects and stores electrical energy in batteries, as well as accumulates solar energy as thermal energy of heated water. This PV system consists of an array of PV modules converting solar energy into electricity, which is accumulated in electrochemical batteries paired with a charge controller and supplied to a consumer through an inverter. The thermal part of the PV installation intended for heating water is a thermally insulated electric hot water boiler powered by the same PV modules through a special thermal controller, bypassing the batteries.
Solar energy is accumulated by a combined method: in electrochemical batteries and in cheaper heat-storing water boilers.
Under the conditions of Iraq, the cost of the solar energy collection system can be reduced by 20 percent. As a result, the estimated cost of photovoltaics for a gym in Baghdad turned out to be lower than the national average electricity rate.
"Photovoltaic power is very irregular, since it directly depends on the season, time of day and night and weather conditions. Nevertheless, the advantages of PV technologies allow generating energy at a lower intensity of solar radiation in comparison with the direct heating of a solar collector. Therefore, we can use a wider range of solar radiation to convert it into electricity by PV elements with the further conversion, rational accumulation and use of the electrical and thermal energy by consumers," the professor explains.
The developed system is flexible and scalable, which ensures customization of its characteristics for a particular project.
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About Solar storage baghdad
As the photovoltaic (PV) industry continues to evolve, advancements in Solar storage baghdad have become critical to optimizing the utilization of renewable energy sources. From innovative battery technologies to intelligent energy management systems, these solutions are transforming the way we store and distribute solar-generated electricity.
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