A self-sufficient distributed heat and power generation system combining a biomass boiler and a Stirling engine.
1. We are adopting a new technology that incorporates a heat exchanger for a Stirling engine's heat medium into a biomass boiler. 2. We are using a Stirling engine with high power generation efficiency as a power generation device. 3. It can utilize various fuels, including dry chips, fresh chips, and pellets. 4. It can be used as a small-scale cogeneration system for disaster prevention.
Inquire About This Product
basic information
This is a system that generates electricity and supplies heat using a biomass-fired hot water boiler and a low-temperature difference Stirling engine. By combining this with a battery, the system can be activated independently even during power outages, allowing for continuous operation. In situations such as the loss of external power during a disaster, the system can utilize the battery to operate the boiler and generator independently, providing heat and electricity to users.
Price information
The price varies depending on the quantity, so please feel free to contact us.
Delivery Time
※The delivery time may vary depending on the quantity, so please feel free to contact us.
Applications/Examples of results
Currently in operation in Fukushima Prefecture.
Company information
Among renewable energy sources, there has been a wide range of initiatives to utilize wood biomass, which aims to revitalize forestry, achieve local production for local consumption, and circulate money within the community, thereby bringing prosperity and revitalization to the region. These efforts have been accelerated by measures and systems introduced by the national and local governments. In response to such needs, our company can analyze the local wood biomass energy situation, conduct specific implementation methods, scale, and effect analysis, and provide optimal proposals through verification. After implementation, we offer direct after-sales service from manufacturers through our nationwide network, conduct regular maintenance visits, and monitor the system's on-time operational status using the Tomoe Heat Management System, while also recording history to ensure appropriate management and service.