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PRESS RELEASE

Asahi Kasei and Mitsui establish supply and procurement system  for bio-methanol

2023.06.08

asahi kasei engineering plastics

Press Releases

2023/6/8

Asahi Kasei Corp.
Mitsui & Co., Ltd.

Asahi Kasei and Mitsui establish supply and procurement system  for bio-methanol

 

Asahi Kasei Corp. (Head Office: Chiyoda-ku, Tokyo; President: Koshiro Kudo; hereinafter referred to as "Asahi Kasei") and Mitsui & Co., Ltd. (Head Office: Chiyoda-ku, Tokyo; President: Kenichi Hori; hereinafter referred to as "Mitsui") will establish a supply and procurement system for bio-methanol produced in the United States. Through this system, Asahi Kasei plans to use the bio-methanol procured from Mitsui to produce engineering plastics in Japan with a lower carbon footprint than the current product lineup.

 

1.  Background

Today, companies are increasingly working to reduce GHG emissions throughout their product supply chains, including greenhouse gas (GHG) emissions from raw materials, known as Scope 3, in order to achieve carbon neutrality by 2050, as advocated by the Japanese government.

Asahi Kasei is working to reduce GHG emissions by manufacturing products using biomass-based materials with low GHG emissions in various engineering plastics such as" TENAC "※1polyacetal (POM) resin. In this context, Asahi Kasei and Mitsui have worked together to find solutions to these issues.

2.Content of the initiative

In the United States, Mitsui procures RNG (renewable natural gas) generated from municipal waste landfills in the form of biogas, and uses it in the mass-balance approach※2 to produce bio-methanol at Fairway Methanol, a local joint venture. Asahi Kasei and Mitsui have acquired the International Sustainability & Carbon Certification (ISCC PLUS certification) in their supply chains in order to reliably convey their sustainability features to final products.

This will enable Asahi Kasei to procure bio-methanol manufactured by Mitsui, and to sell various types of engineering plastics made with this raw material allocated using the mass-balance approach.

3.Future outlook

The Asahi Kasei Group aims to contribute to a carbon-neutral and sustainable world from the perspective of “Care for Earth” by focusing on initiatives such as the use of biomass raw materials, recycled raw materials, and renewable energy. The company strives to meet the expectations of its customers and society by further advancing the provision of products and services with such sustainable characteristics while deepening collaboration with other companies based on its medium-term management plan for fiscal 2024 focused on the theme "Be a Trailblazer." 

Mitsui is striving to reduce the Scope 3 GHG emissions of its customers using the expertise, knowledge, and products of a variety of businesses, including the provision of low-carbon methanol such as bio-methanol, and to contribute to the sustainable development of all society.

 

※1: POM is the abbreviation of the chemical name polyoxymethylene. It is commonly called polyacetal resin. POM resins are engineering plastics with excellent sliding, toughness, and fatigue-resistance characteristics. They are crystalline thermoplastic resins. POM has a homopolymer that is polymerized only with monomeric formaldehyde and a copolymer that is polymerized from trioxane and contains oxyethylene units. Asahi Kasei is the only company in the world to produce both homopolymers of POM(TENAC™) and copolymers (TENAC™-C)through its proprietary technologies (according to "2023 Engineering Plastic Market Outlook and Global Strategy" report issued by Fuji Keizai).

※2: The mass balance approach allocates the production volume of products according to the percentage of the input biomass raw materials, etc., when the products are manufactured by blending biomass raw materials, etc., with fossil fuel-derived raw materials. It is a recognized control method stipulated in ISCC PLUS System documents.

Mass balance method diagramMass balance method diagram

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tenac

TENAC™ polyacetal resins

Excellent self-lubricating nature, fatigue behavior, and oil resistance. It is used in gears, bearings, automotive interiors and medical parts.