Greenbro supplies the IVS model Heat Accumulator Vessels, which are highly efficient thermal energy storage solutions.
Greenbro’s IVS Heat Accumulator Vessels ensure efficient and reliable thermal energy storage, enhancing the performance and sustainability of various heating systems.
Greenbro supplies the IVS model Heat Accumulator Vessels, which are highly efficient thermal energy storage solutions.
Greenbro’s IVS Heat Accumulator Vessels ensure efficient and reliable thermal energy storage, enhancing the performance and sustainability of various heating systems.
High-quality Heat Accumulators designed to efficiently store and distribute thermal energy. Our Heat Accumulators are ideal for various applications, providing a reliable and cost-effective solution for managing heat energy.
The IVS Model Heat Accumulator is a Lightweight, durable solution constructed of fiberglass. Our Heat Accumulator Vessels offer the perfect blend of strength, corrosion resistance, and ease of installation.
High-quality Heat Accumulators designed to efficiently store and distribute thermal energy. Our Heat Accumulators are ideal for various applications, providing a reliable and cost-effective solution for managing heat energy.
The IVS Model Heat Accumulator is a Lightweight, durable solution constructed of fiberglass. Our Heat Accumulator Vessels offer the perfect blend of strength, corrosion resistance, and ease of installation.
A heat accumulator, also known as a thermal energy storage tank or thermal battery, is a device used to store thermal energy for later use. It essentially acts as a reservoir for excess heat generated by a heating system, such as a heatpumps, solar thermal collectors or boilers, during periods of low demand. This stored heat can then be released when there is a need for heating, such as during peak demand periods or when the primary heat source is not actively generating heat.
Heat accumulators typically consist of a well-insulated tank or container filled with a heat transfer fluid, such as water or a specialized phase-change material. When excess heat is available, it is transferred to the heat transfer fluid, causing its temperature to rise and the thermal energy to be stored within the accumulator. When heat is required, the stored energy can be released from the accumulator by circulating the heat transfer fluid through a heat exchanger to provide heating to the desired space or process.
Improved Energy Efficiency: The IVS Model Heat Accumulator Vessels are designed to store thermal energy efficiently, minimizing heat loss over time due to their well-insulated construction. This efficiency helps to reduce energy consumption and operating costs compared to conventional steel vessels, which may experience greater heat loss.
Enhanced Thermal Performance: The IVS Model Heat Accumulator Vessels the benefit utilize advanced heat transfer fluids or phase-change materials that can store thermal energy more effectively than water alone. This allows for greater thermal storage capacity and more precise temperature control, improving overall system performance.
Load Shifting: The IVS Model Heat Accumulator Vessels allow for the shifting of heating demand from periods of high demand to periods of low demand, helping to balance energy consumption and reduce peak load on heating systems.
Increased Flexibility: The IVS Model Heat Accumulator Vessels provide flexibility in the operation of heating systems, allowing for better integration of renewable energy sources, such as solar or biomass, which may produce variable or intermittent heat output.
Reduced Maintenance Requirements: The IVS Model Heat Accumulator Vessels typically require less maintenance compared to conventional steel vessels, as they are less prone to corrosion and scaling due to their specialized construction and materials. This can result in lower maintenance costs and longer service life for the equipment.
Environmental Benefits: By improving energy efficiency and promoting the use of renewable energy sources, the IVS Model Heat Accumulator Vessels contribute to reducing greenhouse gas emissions and environmental impact associated with heating systems. This aligns with sustainability goals and regulations aimed at mitigating climate change.
Customizable Options: We offer a range of customizable options to meet specific customer requirements, including size, capacity, and operating parameters.
Easy Maintenance: Our The IVS Model Heat Accumulator Vessels are designed for easy maintenance, minimizing downtime and ensuring continuous operation.
Overall, heat accumulators play a crucial role in improving the efficiency, reliability, and sustainability of heating systems across various applications.
Heat accumulators find applications across various industries and sectors where thermal energy storage is beneficial. Some common applications include:
Residential and Commercial Buildings: The IVS Model Heat Accumulator Vessels can be used in conjunction or independently with central heating systems in residential and commercial buildings to store heat generated by boilers or heat pumps.
Solar Thermal Systems: The IVS Model Heat Accumulator Vessels are commonly used in solar thermal systems to store excess heat generated by solar collectors during sunny periods for use during cloudy days or at night. This helps to ensure a consistent supply of hot water or space heating even when solar energy production is intermittent.
Industrial Processes: In industries that require process heating, The IVS Model Heat Accumulator Vessels can be used to store excess heat generated by boilers or other heating systems for later use. This allows for more efficient utilization of energy and can help to smooth out variations in heating demand.
District Heating Systems: The IVS Model Heat Accumulator Vessels can be integrated into district heating systems to store excess heat generated by combined heat and power (CHP) plants or waste heat from industrial processes. This stored heat can then be distributed to residential or commercial buildings as needed, improving system efficiency and reliability.
Microgrid and Off-grid Systems: In off-grid or microgrid systems, where access to grid electricity is limited or unreliable, The IVS Model Heat Accumulator Vessels can be used to store excess energy generated by renewable sources such as solar or wind power for later use in heating applications. This helps to maximize the utilization of renewable energy resources and improve energy independence.
Agricultural and Horticultural Applications: The IVS Model Heat Accumulator Vessels can be utilized in agricultural and horticultural settings to store excess heat generated by biomass boilers or other heating systems for use in greenhouse heating or crop drying operations. This can help to optimize growing conditions and improve crop yields.
| Description | 500L | 1000L | 1500L | 2000L | 2500L | 3000L | 3500L | 4000L | 4500L | 5000L | 5500L | |
| Capacity (l) | 500L | 1000L | 1500L | 2000L | 2500L | 3000L | 3500L | 4000L | 4500L | 5000L | 5500L | |
| Flow rate (l/s) | 0,53 – 1,06 | 0,53 – 1,06 | 1,06 – 1,60 | 1,06 – 1,60 | 1,06 – 2,11 | 1,60 -2,11 | 1,60 -2,92 | 1,60 -2,92 | 2,92 – 4,86 | 2,92 – 4,86 | 2,92 – 4,86 | |
| Diameter (mm) | 1050 | 1050 | 1250 | 1250 | 1450 | 1450 | 1650 | 1650 | 1850 | 1850 | 2050 | |
| Overall Height (mm) | 1000 | 1800 | 1800 | 2310 | 2100 | 2500 | 2200 | 2500 | 2200 | 2410 | 2150 | |
| Water Inlet / Outlet Port Sizes | 25mm | 25mm | 25mm-32mm | 25mm-32mm | 25mm-40mm | 25mm-40mm | 32mm-50mm | 32mm-50mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | |
| Water Inlet / Outlet Port Type | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | |
| Heatpump Inlet / Outlet Port | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | |
| Operating pressure | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | |
| Gross Weight | 81kg | 102kg | 123kg | 151kg | 193kg | 224kg | 248kg | 271kg | 293kg | 328kg | 355kg | |
| Access Hatch | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | |
| Max Operating Temperature | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | |
| Insulation | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 975mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | |
| Insulation R-Value | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | |
| Description | 6000L | 6500L | 7500L | 8000L | 8500L | 9000L | 9500L | 10 000L | 11 000L | 12 000L | 15 000L | |
| Capacity (l) | 6000L | 6500L | 7500L | 8000L | 8500L | 9000L | 9500L | 10 000L | 11 000L | 12 000L | 15 000L | |
| Flow rate (l/s) | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 6,80 | 2,92 – 6,80 | 3,99 – 7,78 | 3,99 – 7,78 | |
| Diameter (mm) | 2050 | 2050 | 2250 | 2250 | 2450 | 2450 | 2450 | 2650 | 2650 | 2850 | 2950 | |
| Overall Height (mm) | 2320 | 2500 | 2370 | 2520 | 2250 | 2380 | 2500 | 2250 | 2450 | 2390 | 2650 | |
| Water Inlet / Outlet Port Sizes | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | |
| Water Inlet / Outlet Port Type | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | |
| Heatpump Inlet / Outlet Port | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | |
| Operating pressure | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | |
| Gross Weight | 389kg | 430kg | 486kg | 511kg | 532kg | 562kg | 587kg | 621kg | 689kg | 733kg | 845kg | |
| Access Hatch | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | |
| Max Operating Temperature | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | |
| Insulation | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 975mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | 75mm Aerolite Isover | |
| Insulation R-Value | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | 2.28 | |
A heat accumulator, also known as a thermal energy storage tank or thermal battery, is a device used to store thermal energy for later use. It essentially acts as a reservoir for excess heat generated by a heating system, such as a heatpumps, solar thermal collectors or boilers, during periods of low demand. This stored heat can then be released when there is a need for heating, such as during peak demand periods or when the primary heat source is not actively generating heat.
Heat accumulators typically consist of a well-insulated tank or container filled with a heat transfer fluid, such as water or a specialized phase-change material. When excess heat is available, it is transferred to the heat transfer fluid, causing its temperature to rise and the thermal energy to be stored within the accumulator. When heat is required, the stored energy can be released from the accumulator by circulating the heat transfer fluid through a heat exchanger to provide heating to the desired space or process.
Improved Energy Efficiency: The IVS Model Heat Accumulator Vessels are designed to store thermal energy efficiently, minimizing heat loss over time due to their well-insulated construction. This efficiency helps to reduce energy consumption and operating costs compared to conventional steel vessels, which may experience greater heat loss.
Enhanced Thermal Performance: The IVS Model Heat Accumulator Vessels the benefit utilize advanced heat transfer fluids or phase-change materials that can store thermal energy more effectively than water alone. This allows for greater thermal storage capacity and more precise temperature control, improving overall system performance.
Load Shifting: The IVS Model Heat Accumulator Vessels allow for the shifting of heating demand from periods of high demand to periods of low demand, helping to balance energy consumption and reduce peak load on heating systems.
Increased Flexibility: The IVS Model Heat Accumulator Vessels provide flexibility in the operation of heating systems, allowing for better integration of renewable energy sources, such as solar or biomass, which may produce variable or intermittent heat output.
Reduced Maintenance Requirements: The IVS Model Heat Accumulator Vessels typically require less maintenance compared to conventional steel vessels, as they are less prone to corrosion and scaling due to their specialized construction and materials. This can result in lower maintenance costs and longer service life for the equipment.
Environmental Benefits: By improving energy efficiency and promoting the use of renewable energy sources, the IVS Model Heat Accumulator Vessels contribute to reducing greenhouse gas emissions and environmental impact associated with heating systems. This aligns with sustainability goals and regulations aimed at mitigating climate change.
Customizable Options: We offer a range of customizable options to meet specific customer requirements, including size, capacity, and operating parameters.
Easy Maintenance: Our The IVS Model Heat Accumulator Vessels are designed for easy maintenance, minimizing downtime and ensuring continuous operation.
Overall, heat accumulators play a crucial role in improving the efficiency, reliability, and sustainability of heating systems across various applications.
Heat accumulators find applications across various industries and sectors where thermal energy storage is beneficial. Some common applications include:
Residential and Commercial Buildings: The IVS Model Heat Accumulator Vessels can be used in conjunction or independently with central heating systems in residential and commercial buildings to store heat generated by boilers or heat pumps.
Solar Thermal Systems: The IVS Model Heat Accumulator Vessels are commonly used in solar thermal systems to store excess heat generated by solar collectors during sunny periods for use during cloudy days or at night. This helps to ensure a consistent supply of hot water or space heating even when solar energy production is intermittent.
Industrial Processes: In industries that require process heating, The IVS Model Heat Accumulator Vessels can be used to store excess heat generated by boilers or other heating systems for later use. This allows for more efficient utilization of energy and can help to smooth out variations in heating demand.
District Heating Systems: The IVS Model Heat Accumulator Vessels can be integrated into district heating systems to store excess heat generated by combined heat and power (CHP) plants or waste heat from industrial processes. This stored heat can then be distributed to residential or commercial buildings as needed, improving system efficiency and reliability.
Microgrid and Off-grid Systems: In off-grid or microgrid systems, where access to grid electricity is limited or unreliable, The IVS Model Heat Accumulator Vessels can be used to store excess energy generated by renewable sources such as solar or wind power for later use in heating applications. This helps to maximize the utilization of renewable energy resources and improve energy independence.
Agricultural and Horticultural Applications: The IVS Model Heat Accumulator Vessels can be utilized in agricultural and horticultural settings to store excess heat generated by biomass boilers or other heating systems for use in greenhouse heating or crop drying operations. This can help to optimize growing conditions and improve crop yields.
| Description | 500L | 1000L | 1500L | 2000L | 2500L | 3000L | 3500L | 4000L | 4500L | 5000L | 5500L | |
| Capacity (l) | 500L | 1000L | 1500L | 2000L | 2500L | 3000L | 3500L | 4000L | 4500L | 5000L | 5500L | |
| Flow rate (l/s) | 0,53 – 1,06 | 0,53 – 1,06 | 1,06 – 1,60 | 1,06 – 1,60 | 1,06 – 2,11 | 1,60 -2,11 | 1,60 -2,92 | 1,60 -2,92 | 2,92 – 4,86 | 2,92 – 4,86 | 2,92 – 4,86 | |
| Diameter (mm) | 1050 | 1050 | 1250 | 1250 | 1450 | 1450 | 1650 | 1650 | 1850 | 1850 | 2050 | |
| Overall Height (mm) | 1000 | 1800 | 1800 | 2310 | 2100 | 2500 | 2200 | 2500 | 2200 | 2410 | 2150 | |
| Water Inlet / Outlet Port Sizes | 25mm | 25mm | 25mm-32mm | 25mm-32mm | 25mm-40mm | 25mm-40mm | 32mm-50mm | 32mm-50mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | |
| Water Inlet / Outlet Port Type | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | |
| Heatpump Inlet / Outlet Port | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | |
| Operating pressure | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | |
| Gross Weight | 81kg | 102kg | 123kg | 151kg | 193kg | 224kg | 248kg | 271kg | 293kg | 328kg | 355kg | |
| Access Hatch | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | |
| Max Operating Temperature | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | |
| Description | 6000L | 6500L | 7500L | 8000L | 8500L | 9000L | 9500L | 10 000L | 11 000L | 12 000L | 15 000L | |
| Capacity (l) | 6000L | 6500L | 7500L | 8000L | 8500L | 9000L | 9500L | 10 000L | 11 000L | 12 000L | 15 000L | |
| Flow rate (l/s) | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 5,83 | 2,92 – 6,80 | 2,92 – 6,80 | 3,99 – 7,78 | 3,99 – 7,78 | |
| Diameter (mm) | 2050 | 2050 | 2250 | 2250 | 2450 | 2450 | 2450 | 2650 | 2650 | 2850 | 2950 | |
| Overall Height (mm) | 2320 | 2500 | 2370 | 2520 | 2250 | 2380 | 2500 | 2250 | 2450 | 2390 | 2650 | |
| Water Inlet / Outlet Port Sizes | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | 50mm-80mm | |
| Water Inlet / Outlet Port Type | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | Copper | |
| Heatpump Inlet / Outlet Port | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | 316L S/S | |
| Operating pressure | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | 10 Bar | |
| Gross Weight | 389kg | 430kg | 486kg | 511kg | 532kg | 562kg | 587kg | 621kg | 689kg | 733kg | 845kg | |
| Access Hatch | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | |
| Max Operating Temperature | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | 90°C | |
