Reducing heat stroke risks in factories | Why not use unused heat effectively for cooling?
Achieved a 30% reduction in electricity costs. We propose a sustainable low running cost solution for improving hot environments. Contributes to reducing heatstroke risk as well as energy conservation and decarbonization.
At Noritz, known for its water heaters, we provide a sustainable solution for improving hot environments (heat stroke countermeasures) by utilizing unused heat through our core technology for water heaters aimed at factories. Rather than simply adding cooling equipment, we propose a method to improve hot environments sustainably by utilizing unused cooling sources such as cold wastewater and groundwater, thereby reducing outdoor air pre-cooling and air conditioning load, all at a low running cost. As needed, we also combine measures such as optimizing dehumidification and outdoor air treatment to improve WBGT, as well as suppressing indoor heat dissipation through exhaust heat exchange, presenting improvement strategies suited to site conditions. 【Features】 ■ Utilizes unused cooling sources to improve hot environments at a low running cost ■ Supports the optimization of thermal environments considering outdoor air load, ventilation, humidity, and heat sources ■ Contributes to energy savings and decarbonization through reduced air conditioning load (reduction effects calculated based on local conditions) ■ Exchanges exhaust heat from compressors and furnace exhaust to suppress heat dissipation indoors *For more details, please refer to the materials. Feel free to contact us with any inquiries.
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basic information
【Concerns like these】 - Want to improve the high-temperature environment in the work area during summer, but heat countermeasures are not keeping up. - Want to reduce the operational costs of air conditioning (electricity bills). - Strengthened ventilation is making air conditioning less effective. - Want to effectively utilize low-temperature sources such as cold wastewater and groundwater. - Want to reduce indoor heat radiation around furnaces, ducts, and compressors. 【Expected Benefits】 ◎ Reduced risk of heatstroke Improvement of the work environment, reduction of heat-related complaints, stabilization of work. ◎ Reduction of operational costs from air conditioning and ventilation Measures that do not rely on increased electricity due to pre-cooling of outside air and load reduction are possible. ◎ Improvement of WBGT (perceived temperature) as needed Reduction of muggy conditions through optimization of dehumidification and outside air processing. ◎ Suppression of indoor heat radiation Reduction of exhaust temperature through heat exchange of exhaust heat. Suppression of heat retention indoors. ◎ Directly linked to energy conservation and decarbonization Reduction of air conditioning load and energy optimization (reduction amounts estimated based on conditions). *For more details, please refer to the materials. Feel free to contact us with any inquiries.
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For more details, please refer to the materials. Feel free to contact us as well.
Company information
We are a specialized group for the "Heat Solution Business," which provides one-stop support for the effective utilization of industrial waste heat and unused heat from renewable energy. We design and realize systems for each project after confirming the emission status of unused heat, defined by Noritz, from renewable energy and waste heat. Additionally, we handle all functions of the value chain, from planning and sales to after-sales service, ensuring a system that can quickly respond to diverse needs.
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