Guidelines for Testing Thermoplastic Materials’ Compatibility for High Pressure Hydrogen Service, TWI online event, 28th Nov
Wednesday, 1 November 2023
Guidelines for Testing Thermoplastic Materials’ Compatibility for High Pressure Hydrogen Service,
TWI online event, 28th November 9am and 3pm
TWI has launched this Joint Industry Project (JIP) to establish the current industrial state of the art with respect to polymer selection and qualification for hydrogen service and identify gaps.
This JIP is aimed at the development of consensus regarding the most robust testing procedures to determine polymer compatibility with high pressure hydrogen. The results will be presented in the form of guidance on testing for polymer selection and qualification for hydrogen service. The output will be intended for companies involved in every stage of the hydrogen infrastructure supply chain, including resin manufacturers and end-users in industries such as energy, aerospace and automotive.
This project will reduce the need for organisations to make their own subjective judgements regarding test methods for selecting and qualifying polymeric materials for high pressure hydrogen service.
In order to attract a global audience, we are running this webinar on 28 November at the following times below. Please ensure you register at the correct time zone for you.
Register here for webinar on Tuesday 28 November at 09.00, GMT, UK Time
Register here for webinar on Tuesday 28 November at 15.00, GMT, UK Time
Speakers
Dr Ana Antelava
Project Leader, Novel Polymer Technology (NPT)
TWI
Ana Antelava is a Project Leader in the Novel Polymer Technology (NPT) section within the Polymer and Composite Technology (PCT) group at TWI and a member of the plastics recycling and sustainability theme at TWI.
She is working on developing novel approaches to end-of-life plastics recycling and adopting circular economy business models via better plastic management practices. Ana has several publications on the thermochemical treatment of plastic solid waste (PSW), life cycle assessment and sustainable management of PSW.
