Technology Development Cargill, Ifpen, Axens Team Up to Further Develop Lactic-To-Acrylic-Acid Technology

Editor: Ahlam Rais

Cargill, Ifpen, Axens have come together to commercialise Procter & Gamble’s lactic-to-acrylic-acid technology, which Cargill has licensed. This year, Cargill has plans to produce more than 6 million tonnes of petro-based acrylic acid and aims to make use of renewable sources for its production.

Related Company

Since Cargill’s award-winning lactic acid technology is already commercially proven, efforts will focus on the catalyst and process development needed to convert lactic acid into bio-based acrylic acid at scale.
Since Cargill’s award-winning lactic acid technology is already commercially proven, efforts will focus on the catalyst and process development needed to convert lactic acid into bio-based acrylic acid at scale.
(Source: Deposit Photos)

Wayzata/USA – Cargill, IFP Energies nouvelles (Ifpen) and Axens are joining forces to further develop and scale bio-based acrylic acid. The collaboration leverages Cargill’s experience with bio-based materials, Ifpen’s expertise in the field of catalyst and bioprocess development, and Axens’ catalyst manufacturing and industrial scale-up design process to commercialise the Procter & Gamble (P&G) company’s lactic-to-acrylic-acid technology, which Cargill licensed in earlier this year.

“More than 6 million tonnes of petro-based acrylic acid will be produced this year,” said Dr. Jill Zullo, Vice President of Biointermediates in Cargill’s Bioindustrial business. "By leveraging Cargill’s processing technology and Ifpen/Axens’ know-how in catalysis and scale up, we’re aiming to produce acrylic acid from renewable sources thereby reducing greenhouse gas emissions by more than 50 per cent.”

Since Cargill’s award-winning lactic acid technology is already commercially proven, efforts will focus on the catalyst and process development needed to convert lactic acid into bio-based acrylic acid at scale – expertise for which Ifpen and Axens are world renowned. Bio-based acrylic acid can be used in a variety of applications, from hygiene products to household paints, delivering more sustainable solutions on a wide range of consumer products.

PROCESS Insights 2020-06
Economic Evaluation of Petrochemical Projects after Corona

In the post Corona time and due to the oil price crash, the economics of large petrochemical projects has changed significantly, which made it necessary to reevaluate the planned projects. When evaluating the economics of a large project such as a cracker-based polymer complex, many factors have to be considered and have to be tested in different scenarios.

In this paper, our expert will provide you with a simple model and method for the economics evaluation of petrochemical projects and will explain possible scenarios.

Buy now!

“We’re thrilled to be working with Ifpen and Axens. Given their mutual commitment to furthering the bio-economy and demonstrated capabilities in catalysis and commercial scale up, we knew they were the right partners for this important project,” says Asheesh Choudhary, Global Business Development Director for Cargill’s Bioindustrial business.

“We firmly believe that the combined expertise of the three partners, which includes our recognised experience in the field of bio-products, represents the strength of this project,” explains Jean-Pierre Burzynski, director of the Process Business Unit at Ifpen.

Pierre Beccat, EVP Technology Development and Innovation at Axens adds: “We are very proud to be associated to Cargill and Ifpen to develop a solution in the field of bio-products thus bolstering Axens’ ambition to be a major player in the bio-economy. The technology was developed in P&G’s corporate laboratories and Axens is very excited to develop it to an industrial scale as this technology could have a significant impact on the marketplace.”

The companies are advancing the technology according to staged milestones. Although it will be several years before it is ready to be deployed at commercial scale, test samples could be ready for potential customers sometime within the next 12 months.

(ID:47024255)