Founded in 2022, Geumchul Innovation is a manufacturing company specializing in solar collectors and generators. It has entered countries such as Dubai, Saudi Arabia, and Uzbekistan and is working to solve energy problems internationally.
A solar panel is a form of renewable energy generation that harnesses solar energy to produce electricity. In contrast, a dish-type solar collector serves as a renewable heat generation system that collects solar energy to condense hot water or steam. The hybrid solar collector integrates both functions, featuring its own solar panel for electricity production, while primarily focusing on generating renewable heat, such as hoy water or steam.
Traditional flat and vacuum solar heaters Capture sunlight on the flat surfaces and transfer its heat directly to water. This typically results in the production of low-temperature water, primarily used for household hot water and heating purposes>
Geumchul’s solar collector, on the other hand is a high temperature solar system that concentrates sunlight at its core, reaching temperatures exceeding 1,000 Celsius. It achieves this by heating a heat medium oil to around 300 Celsius using the concentrated solar energy. Unlike conventional static solar systems, Geumchul’s dish type solar collector dynamically tracks the sun using solar tracking sensors and hydraulic mechanisms. This real-time tracking boosts heat production by about 1.5 times compared to fixed solar systems of similar size.
Furthermore, the collector incorporates solar panels to power its tracking mechanism. Any surplus electricity generated, beyond what’s used for tracking, can enhance heat production or be utilized as needed. Geumchul’s iron dish type solar collector is ideal for industrial applications, including hot water and steam production, large-scale hot water supply, heating and cooling for resorts and large buildings, as well as freshwater production in remote regions such as islands and deserts.
Geumchul’s Hybrid dish solar collector combines various components, including solar heat collectors, heat exchangers (heat storage tanks), solar panels, batteries, and electric heaters to produce heat. Our flagship model, known as Haebaragi 3.0, features a lower dish type reflector with a 3.0-meter diameter. Its maximum hourly heat production capacity varies based on factors like sunlight intensity, heat usage conditions, water supply temperature, and facility operation methods Fore precise performance data, please contact our strategic business headquarters. As general reference, the Haebaragi 3.0 can produce:
Hot water: 150-500kg per hour
Staem: 15-50kg per hour
The hybrid dish type solar collector operates by integrating various components, including solar heat collectors, heat exchangers (heat storage tanks), solar panels, batteries, and electric heaters. It utilizes this heat to facilitate the production of fresh water through evaporative freshwater facilities.
In the case of our flagship model, the Haebaragi 3.0 x 20 sets, featuring 3.0-meter diameter lower dish type reflectors, the maximum daily freshwater production typically ranges from 1 to 3 tons per day. However, please note that specific freshwater production may vary based on factors such as sunlight intensity, sunlight hours, and facility operation methods.
The hybrid type dish solar collector operates by seamlessly combined solar heat collectors, heat exchangers (heat storage tanks), solar panels, batteries, and electric heaters to produce heat for greenhouse heating. The primary model, Haebaragi 3.0, with a 3.0 diameter lower dish shaped reflector, can effectively provide heat to a greenhouse with an area ranging from approximately 250 to 800 square meters, based on its maximum hourly heat production capacity. It’s important to note that the specific area covered may vary due to factors such as sunlight intensity, daylight hours, outside air temperature, and facility operation methods.
The hybrid type dish solar collector operates by seamlessly combined solar heat collectors, heat exchangers (heat storage tanks), solar panels, batteries, and electric heaters to produce heat. This heat in the utilized to power an absorption refrigerator, providing cooling capabilities. In the case of our flagship model, the Haebaragi 3.0, which features a 3.0 diameter low dish shaped reflector and is situated at various elevation above square meters based on its maximum hourly heat production capacity. It’s important to note that the cooling area may vary depending on factors such as sunlight intensity, daylight hours, outside air temperature, and facility operation methods.
Hybrid type solar collectors are equipped with their own solar panels, allowing them to generate electricity directly from sunlight. Increasing the number of installed solar panels will result in proportional increase in electricity production. Furthermore, when integrated with Stirling engine generators, ORC generators and steam turbine generators, they have the capability for medium and large capacity power generation through thermal integration.
For our primary model, the Haebalagi 3.0, featuring a 3-meter diameter lower dish type reflector, the area requirement per set depends on the installation approach:
When the solar panel is integrated with the solar collector, an area of approximately 5 meters in width by a 5 meters in length is needed
If the solar panel is installed separately from the solar collector, which consideration for operator movement and facility separation, an area of about 3 meters in width by 3 meters in length is sufficient.
Using a dish type solar collector can cut down on the need for fossil fuels like gas and oil, matching the energy capacity of the sun. This reduction in fossil fuels use result in a noticeable decrease in carbon emissions. For instance, replacing 1,000 cubic meters of city gas consumption with solar energy can reduce carbon emissions by about 2.2 tons.
For the primary model equipped with a 3-meter diameter lower dish-shaped reflector, the cost per set ranges from KRW 30 to 50 million, covering the solar panels. However, please note that the installation fee is not included in this pricing.
회사명. 금철 이노베이션 대표. 최보미주소. (58327) 전남 나주시 문화로 81, 23층 2311호TEL. 061-331-4322FAX. 061-331-4323이메일. geumchul@gcenergy.co.kr copyright 금철 이노베이션(주). All Rights Reserved. 본 페이지는 광주전남지역혁신플랫폼의 신재생에너지산업 기업⋅기술지원 사업 지원을 통해 제작되었습니다.
