Nouryon reduces carbon dioxide emissions with additional bio-steam supply
Nouryon will increase the use of bio-steam at its salt production at Hengelo, in the Netherlands, making the production more sustainable and reducing carbon dioxide emissions.
AFYREN secures over 60 million euros of financing to move into its industrial development phase
In order to offer industrial firms a reliable alternative to using acids based on oil derivatives, AFYREN has confirmed the production of bio-based organic acids on a pre-industrial scale for use with multiple applications. Today, AFYREN is launching its industrial development phase after securing total financing of 60 million euros, including a 21 million euro capital increase.
Braskem and Haldor Topsoe start up demo unit for developing renewable MEG
The mechanical completion of the innovative first process step of the demonstration plant is the first milestone to be achieved by Braskem and Haldor Topsoe’s partnership to validate the MOSAIK™ sugar-to-biochemicals solution for production of cost-competitive bio-based MEG (monoethylene glycol). Currently, MEG is made from fossil-based feedstocks, such as naphtha, gas or coal. The demonstration plant is expected to produce more than 100 tons per year of glycolaldehyde, the precursor for MEG, when it begins operation on March 1, 2019. MEG is a key component of PET plastic used for food packaging, especially bottles, and polyester fabrics. The global MEG market represents a value of 25 billion dollars.
First production of isobutene from wheat straw at demo scale
New phase for the H2020 Optisochem project after 18 months of activity. Sugars from wheat straw produced at Clariant’s Sunliquid® pre-commercial plant have been shipped to Global Bioenergies’ Leuna demo plant. Successful test runs for production of straw-based isobutene, batches delivered to INEOS for evaluation
Craigavon, N.I. – Almac Sciences, a member of the Almac Group, has expanded its technology capabilities within its Active Pharmaceutical Ingredients (API) services & chemical development portfolio with the implementation of continuous flow expertise at its global headquarters in Craigavon, UK, with further plans to introduce flow capacity within Arran Chemical Company (Athlone, Ireland).
Continuous flow manufacture is an innovative technology platform which is gaining momentum within the pharmaceutical industry with the FDA supporting the adoption for the manufacture of APIs. It offers significant improvements in relation to product quality, process safety, reduction in plant footprint and provides the ability to perform chemistry that is difficult or impossible to do in batch mode.
Almac Sciences has a 4-year strategy to develop Flow Assisted Synthesis Technology (FAST) focusing on four key areas; (1) high pressure hydrogenations, (2) high energy chemistry, (3) oxidation and (4) photo-redox LED mediated chemistries. To support this, Almac Sciences has been awarded a Knowledge Transfer Partnership from Innovate UK for the development of novel routes to chiral amines using flow technology. In addition, Arran Chemical Company, in partnership with Queen’s University, Belfast, has been successful in securing a Horizon 2020 funded programme to support 4 PhD studentships for the next 4 years (beginning in 2019) in line with the FAST strategy.
Almac will develop highly flexible, robust, efficient flow technology platforms for continuous manufacture for the benefit of its clients who seek high quality and best-in-class pharmaceutical synthesis.
Prof. Tom Moody, VP Technology Development & Commercialisation, Almac & Arran Chemical Company commented, “The introduction of continuous flow technology further enhances Almac Sciences’ capabilities within API development and manufacture. Flow technology is highly flexible, robust, economic and regarded as the most exciting and innovative growth technology for the preparation of APIs. We are delighted to now offer this within our portfolio and will strive to continue providing world-class solutions to advance human health globally.”