Here are our ecological facilities in Japan :
This system, which uses discounted night-time electricity to store ice in storage tanks, has been installed at three locations within Isehara Works.
The ice created during the night is useful for cooling and contributes to reducing the building’s power usage and daytime peak power.
NAS (sodium/sulfur) battery facilities are systems for storing electric power at night and utilizing the batteries for electric power during the daytime. NAS batteries are subject to the Electric Power Load Smoothing Measures Promotion Policy prescribed by the Japanese government.
Electrical power in the night is used to drive a turbo chiller and store cold water in a storage tank. The cold water is then used for production during the day.
AMADA received a certificate of appreciation from the Heat Pump and Thermal Storage Technology Center of Japan for the significant contributions made to CO2 emission reductions by our large 1,000m³ scale of our thermal storage system, which includes equipment for storing cold water at night.
The Ono plant upgraded their thermoelectric equipment for air-conditioning from “heavy oil absorption-type water cooler/ heater” to a “heat pump-chiller” in April, 2011.
As a result, we were able to cut CO2 emissions by 60% in the first half of FY2011, and 31% in the second half, or a 52% reduction for entire year.
The entire lighting system in No.1 Plant is powered by solar panels installed on the plant’s roof at the time of its construction. They have a power output of 100 kW and produce 100,000 kWh of electricity a year, enough for about 300 households. An electronic noticeboard inside No.1 Plant displays current generating status, the amount of power gene- rated up to now and other information to employees.
Various green devices at the Toki Office cover the energy used at the Technical Center.
Faithful to its state-of-the-art and eco-friendly concept, Toki Works Technical Center is entirely lit by LED lighting. Great ingenuity has been applied to many aspects of the building where interior design was given high priority while dramatically reducing annual electricity consumption. As a recognition of such achievements, AMADA Toki Works Technical Center won a prize for excellence in the Public and General Facilities category of the Ministry of the Environment's 2012 Power Saving and Lighting Design Awards.
The solar panels on the roofs of the Technical Center and the factory generate electricity. Their output totals approximately 300 kW.
Circulation pipes are installed in the rain water drainage pipes to apply the geothermal energy that maintains year round constant temperature for air conditioner heat exchange.
The entrance is naturally ventilated by the chimney effect. By keeping the exhibition hall pressurized, heat is dissipated from natural ventilation windows.
In conventional peripheral device production at the Fukushima Plant, in order to cope with customer needs (quick delivery, customized specifications, delivery month), the production load was at times low and at times overwhelming. This resulted in wasted materials, wasted energy, wasted man-hours, and excessive overtime.
Considering our customers’ needs, we installed the Module MARS, building a module production system to equalize the production load and to shorten lead time (reduction of man-hours, JIT).
Full-scale operation began in FY2017, but electricity was reduced by 1.9% (55,300 kWh/25.9t-CO2), and LP gas by 10.9% (14.7 t/44.5t-CO2).
Looking forward, we will further promote the reduction of CO2 emissions through this Module MARS production system.