Selected as an 'Environmental Model City' and 'Biomass Industrial City' (Nishiwakura Village, Okayama Prefecture)

Selected as an 'Environmental Model City' and 'Biomass Industrial City'! Introducing the decarbonization case of Nishiawakura Village.

last updated Mar 18, 2025

Creating regional resource circulation and economic circulation <Hamamatsu City, Shizuoka Prefecture>

Creating regional resource circulation and economic circulation! Introducing Hamamatsu City's decarbonization case.

last updated Mar 18, 2025

The town-owned afforestation area has been certified as a forest therapy road in Yusuhara Town, Kochi Prefecture.

The town-owned afforestation area has been certified as a forest therapy road! Introducing the decarbonization case of Yusuhara Town.

last updated Mar 18, 2025

Utilizing hot water and steam from factories! Hot water absorption chiller.

Contributing to carbon neutrality, responding! Can be operated in combination with direct-fired absorption chiller.

last updated Mar 13, 2025

Utilizing hot water from solar panels! Hot water absorption chiller.

A suitable model for those considering fuel cost reduction! Contributes to carbon neutrality and is compatible.

last updated Mar 13, 2025

Please consult us about carbon neutrality in factories, from energy conservation to renewable energy.

Are you having trouble with 'Promoting Carbon Neutrality', 'Responding to Energy Conservation Law Amendments', and 'ESG Management'?

last updated Mar 13, 2025

Achieve energy-saving heating and cooling operation! Steam-fired absorption chiller.

Achieve energy conservation and further power savings! Easy equipment design for combined use with other systems.

last updated Mar 13, 2025

Contributing to global warming prevention and forest management: Wood pellet-fired absorption chiller.

Achieve carbon neutrality, reduce CO2 emissions, and prevent global warming! Contribute to revitalizing the local economy and protecting forests.

last updated Mar 13, 2025

CO2 reduction! An energy circulation system that contributes to forest maintenance.

CO2 reduction effects from the introduction of pellet burning! A top-class combination for year-round CO2 reduction and environmental contribution.

last updated Mar 13, 2025

Carbon neutral equipment

Effective use of heat is possible! We have prepared a lineup of equipment focusing on small and medium-sized machines!

last updated Mar 13, 2025

Design Data: Steam-Baked Super Aloe Ace

Wide range of operating steam pressure (1 to 7 kgf/cm²G)! Achieved high efficiency comparable to medium-sized models!

last updated Mar 13, 2025

Wood Pellet Burner Bio Aloe Ace CH-KP30

A new air conditioning system designed with coexistence with the Earth in mind. Contributing to the restoration of the Earth's environment through resource circulation, while achieving both environmental impact reduction and high performance of equipment!

last updated Mar 13, 2025

Warm Water Burning Absorption Chilled Water Machine "Warm Water Burning Aloe Ace S Series"

Rich variety! We accurately respond to all exhaust heat applications!

last updated Mar 13, 2025

Utilizing waste heat from the aluminum die-casting furnace for factory air conditioning.

Reducing energy consumption and CO2 emissions! A case study utilizing waste heat from aluminum die-casting furnaces.

last updated Mar 25, 2025

Utilizing the waste heat from the compressor for factory cooling.

Installation of waste heat recovery units to existing electric air conditioning systems! Reducing energy consumption and CO2 emissions.

last updated Mar 25, 2025

Cooling coffee beans with cold water generated from the waste heat of the roaster.

Installation of waste heat utilization equipment (cooling output 211kW)! A case that achieved energy-saving effects of 255,300 kWh per year.

last updated Mar 25, 2025

Utilizing cold water generated from burning chicken manure as air conditioning for poultry farms.

Introduction of a radiation cooling system in the poultry farm! Improving the rearing environment for chickens without increasing CO2 emissions.

last updated Mar 25, 2025

Waste Heat Utilization Web Simulator

Selection of waste heat utilization equipment! Simulation can be performed online.

last updated Mar 13, 2025

Utilizing cold water generated by waste heat recovery equipment for air conditioning within the sports center.

Utilizing waste heat to cover the base operation of existing equipment! Reducing CO2 emissions by approximately 180 tons per year.

last updated Mar 25, 2025

Cooling the molds of the injection molding machine with cold water generated by the waste heat recovery system.

Reduce electricity consumption and CO2 emissions! Examples of utilizing cogeneration waste heat.

last updated Mar 25, 2025

Cooling the wine storage room with cold water generated by a waste heat recovery system.

A case where cold water generated by a waste heat utilization system was used for cooling in a wine storage room!

last updated Mar 25, 2025

Utilizing hot spring heat for air conditioning in hotel lobbies and guest rooms.

A case of upgrading an existing heavy oil-fired absorption chiller to a waste heat utilization system using geothermal heat!

last updated Mar 18, 2025

Utilizing hot spring heat for hospital air conditioning.

Reduction of electricity consumption and CO2 emissions! A case study of adding waste heat recovery units to existing electric air conditioning systems.

last updated Mar 18, 2025

Utilizing geothermal energy for factory cooling.

Use of cold water for air conditioning within the factory! A case study that reduced electricity consumption and CO2 emissions by approximately 40%.

last updated Mar 18, 2025

Trends in domestic consumption of wood pellets

Rapid increase of about 5 times over 4 years! Introduction of wood pellet production and import volumes in Japan.

last updated Mar 17, 2025

Benefits of Using Wood Pellets

Utilizing wood pellets as a heat source for air conditioning systems! A reduction in CO2 emissions is expected.

last updated Mar 17, 2025

Utilizing cold water generated from locally sourced wood as fuel for air conditioning in student dormitories.

A case study of achieving air conditioning in student dormitories that reduces electricity consumption and CO2 emissions!

last updated Mar 24, 2025

Utilization of cold water generated from local timber as fuel for the town hall's air conditioning.

Local wood pellets as fuel! Introduction of an air conditioning system using a wood pellet-fired absorption chiller.

last updated Mar 24, 2025

Utilizing cold water generated from wood pellets as fuel for hospital air conditioning.

Installation of a wood pellet-fired absorption chiller for cooling and heating water! A case where it covered the base operation of the existing unit.

last updated Mar 24, 2025

Reducing hot water energy consumption in hospitals by utilizing solar heat.

The solar thermal energy utilization is 181.3 GJ! A case where CO2 emissions were reduced by approximately 10 tons annually.

last updated Mar 24, 2025