Kyocera achieves 100% renewable energy at main production plants
August 29, 2023
KYOCERA Document Solutions Inc. announced that in April 2023, it has achieved 100% renewable energy at its two main production sites for multifunction products and printers.
KYOCERA Document Technology Vietnam Company Co.,Ltd operates as a multifunction plant that combines R&D functions with the production of multifunction machines and printers, while KYOCERA Document Technology (Dongguan) Co., Ltd. operates as a production base for multifunction machines, printers, and OPC drums.
By switching all previous electricity used at these two locations, instead to electricity with Environmental Value Certificates, Kyocera has achieved 100% renewable energy.
In addition, Kyocera Document Solutions aims to achieve 100% renewable energy at all production plants by using a combination of energy-saving production facilities, installation of renewable energy, and solar power generation facilities at all other production sites, including those in Japan.
In addition, to promote self-procurement of green energy, Kyocera said it will gradually expand solar power generation facilities. As a result, it is estimated that all production sites will be able to provide approximately 8.5GkWh of electricity per year by 2026.
Kyocera said: “Our company has set long-term environmental targets based on the goals of the Paris Agreement, which sets an international framework for combating global warming. One of these targets is to achieve 100% renewable energy at all Group sites by 2030 through implementation of concrete measures such as installing solar power generation facilities and obtaining environmental value certificates.
“In order to contribute to the progress and development of humanity and society, we will continue to support the sustainable development of our customers’ businesses by defining LIVING TOGETHER as the axis of all corporate activities at Kyocera.”
Categories : Around the Industry
Tags : 100 Renewable Energy Environment Kyocera Production Sustainability