Airgas Opens Liquid Carbon Dioxide and Dry Ice Facility in Stockton, California
STOCKTON, Calif. & RADNOR, Pa.--(BUSINESS WIRE)--Airgas, an Air Liquide company and a leading U.S. supplier of industrial, medical and specialty gases, and related products, announces the grand opening of its new liquid carbon dioxide and dry ice facility in Stockton, California.
The facility, which was engineered to have minimal environmental impact, is a zero runoff/discharge site. Technology at the site will capture and recycle all process and rain water that comes in contact with the equipment. The plant converts gaseous carbon dioxide that would otherwise be discarded as a byproduct of ethanol, manufacturing it into approximately 500 tons of liquid carbon dioxide per day.
Customers can use food and beverage grade carbon dioxide in applications such as brewing, carbonated beverages and winemaking as well as flash freezing and food packaging. The adjoining Airgas Dry Ice facility will convert up to 250 tons per day of liquid carbon dioxide into dry ice, which is used for safe transport in food and agriculture applications and a variety of life science and industrial processes.
To mark its commitment to the greater Stockton community, Airgas announced plans to make a $5,000 donation to a local high school or junior college welding program, in conjunction with the opening of this facility.
Commented Matt Whitton, Regional President, NCN: ?The Airgas business model is built on the foundation of local customer service. We stay close to our more than 1 million customers and strive to meet their needs by working collaboratively with them and our partner suppliers to help their companies succeed. We announced our plans to build this facility in March 2018 to have three strategically located CO2 plants in Northern, Central, and Southern California and today, we deliver on that commitment.?
Airgas, an Air Liquide company, is a leading U.S. supplier of industrial, medical and specialty gases, as well as hardgoods and related products; one of the largest U.S. suppliers of safety products; and a leading U.S. supplier of ammonia products and process chemicals.
Dedicated to improving the performance of its more than 1 million customers, Airgas safely and reliably provides products, services and expertise through its more than 18,500 associates, over 1,400 locations, robust e-Business platform, and Airgas Total Access? telesales channel.
As an Air Liquide company, the world leader in gases, technology and services for Industry and Health, Airgas offers customers an unrivaled global footprint and industry leading technology and innovations.
For more information, please visit airgas.com.
A world leader in gases, technologies and services for Industry and Health, Air Liquide is present in 80 countries with approximately 66,000 employees and serves more than 3.6 million customers and patients. Oxygen, nitrogen and hydrogen are essential small molecules for life, matter and energy. They embody Air Liquide?s scientific territory and have been at the core of the company?s activities since its creation in 1902.
Air Liquide?s ambition is to be a leader in its industry, deliver long term performance and contribute to sustainability. The company?s customer-centric transformation strategy aims at profitable growth over the long term. It relies on operational excellence, selective investments, open innovation and a network organization implemented by the Group worldwide. Through the commitment and inventiveness of its people, Air Liquide leverages energy and environment transition, changes in healthcare and digitization, and delivers greater value to all its stakeholders.
Air Liquide?s revenue amounted to 21 billion euros in 2018 and its solutions that protect life and the environment represented more than 40% of sales. Air Liquide is listed on the Euronext Paris stock exchange (compartment A) and belongs to the CAC 40, EURO STOXX 50 and FTSE4Good indexes.
» Publication Date: 18/07/2019
This project has received funding from the Bio-Based Industries Joint Undertaking under the European Union’s Horizon 2020 research and innovation programme under grant agreement Nº 745828