heat pump - Company Ranking(12 companyies in total)
Last Updated: Aggregation Period:Jul 09, 2025〜Aug 05, 2025
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Display Company Information
| Company Name | Featured Products | ||
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| Product Image, Product Name, Price Range | overview | Application/Performance example | |
| - Supports connection operation with multiple units and remote monitoring and operation. Depending on the amount of steam used, connection operation with multiple units (up to a maximum of 10 units) is possible. By connecting to a network, remote monitoring and operation from a central control room or computer is possible, making it easy to grasp and control the operating status. Additionally, by linking with an energy management system, it contributes to the overall energy optimization of the factory. - Easy installation and introduction without special procedures. The steam generation heat pump uses low-pressure refrigerants. Therefore, it is not subject to the High-Pressure Gas Safety Act. There is no need for notifications, selection of safety personnel, or procedures and handling in accordance with laws and regulations by qualified personnel, and no special training or education for pressure vessels is required. There are no special construction requirements during installation, making it easy to set up and introduce. | Case Study 1: 55.3% Reduction in Energy Costs for Steam Generation and 40.2% Reduction in CO2 Emissions This is a case study of implementation in the clean room air conditioning system of our semiconductor factory. Before the introduction of the steam generation heat pump, we operated a small boiler for humidification, which incurred fuel costs and management efforts. Therefore, we recovered heat from the cooling water of a diesel engine (80°C) and used it as humidification steam for the clean room air conditioning of the semiconductor production line. Compared to the conventional kerosene-fired steam boiler for humidification, we confirmed a 55.3% reduction in energy costs for steam generation. Additionally, we were able to significantly reduce the daily management efforts of the boiler. Case Study 2: 52% Reduction in Energy Costs and 46% Reduction in CO2 Emissions through the Use of Steam Heater Drain This is a case study of implementation in our vending machine factory. By utilizing the steam heater drain in the painting process, we confirmed a 52% reduction in energy costs and a 46% reduction in CO2 emissions compared to before the implementation. | ||
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富士電機 パワエレ営業本部 産業ソリューション統括部
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- Featured Products
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Steam generation heat pump
- overview
- - Supports connection operation with multiple units and remote monitoring and operation. Depending on the amount of steam used, connection operation with multiple units (up to a maximum of 10 units) is possible. By connecting to a network, remote monitoring and operation from a central control room or computer is possible, making it easy to grasp and control the operating status. Additionally, by linking with an energy management system, it contributes to the overall energy optimization of the factory. - Easy installation and introduction without special procedures. The steam generation heat pump uses low-pressure refrigerants. Therefore, it is not subject to the High-Pressure Gas Safety Act. There is no need for notifications, selection of safety personnel, or procedures and handling in accordance with laws and regulations by qualified personnel, and no special training or education for pressure vessels is required. There are no special construction requirements during installation, making it easy to set up and introduce.
- Application/Performance example
- Case Study 1: 55.3% Reduction in Energy Costs for Steam Generation and 40.2% Reduction in CO2 Emissions This is a case study of implementation in the clean room air conditioning system of our semiconductor factory. Before the introduction of the steam generation heat pump, we operated a small boiler for humidification, which incurred fuel costs and management efforts. Therefore, we recovered heat from the cooling water of a diesel engine (80°C) and used it as humidification steam for the clean room air conditioning of the semiconductor production line. Compared to the conventional kerosene-fired steam boiler for humidification, we confirmed a 55.3% reduction in energy costs for steam generation. Additionally, we were able to significantly reduce the daily management efforts of the boiler. Case Study 2: 52% Reduction in Energy Costs and 46% Reduction in CO2 Emissions through the Use of Steam Heater Drain This is a case study of implementation in our vending machine factory. By utilizing the steam heater drain in the painting process, we confirmed a 52% reduction in energy costs and a 46% reduction in CO2 emissions compared to before the implementation.
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富士電機 パワエレ営業本部 産業ソリューション統括部
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