Particle technology

Jonathan Seville and Chuan-Yu Wu About the book By table of contents Book description Particle Technology and Engineering presents the basic knowledge and fundamental concepts that are needed by engineers dealing with particles and powders. The book provides a compr The book provides a comprehensive reference and introduction to the topic, ranging from single particle characterization to bulk powder properties, from particle-particle interaction to particle-fluid interaction, from fundamental mechanics to advanced computational mechanics for particle and powder systems. The content focuses on fundamental concepts, mechanistic analysis and computational approaches.

Particle technology

Evidence sources We will reduce this area as a proportion of the EPSRC portfolio over the course of the Delivery Plan period - a decision reflecting the significant increase in research activity Particle technology a proportion of the EPSRC portfolio between andinfluenced by an alignment to national initiatives such as the National Formulation Centre.

This increase was coupled with a shift in the type of research supported by EPSRC towards formulation, rather than fundamental particle technology research. Many of the recent strategic investments have inflated and shifted the balance of the portfolio towards relatively high Technology Readiness Levels TRLs relevant to UK manufacturing.

Although there is potential to identify a number of new research challenges from the current portfolio, it is essential to focus on fundamental engineering research to ensure the long-term health of the area and to enable future impacts. Examples of these longer-term challenges may include the fundamental understanding of different, novel particulate systems and products, in relation to particle behaviour and process models Evidence source 1.

Particle technology the end of the Delivery Plan, EPSRC will work with the community to encourage focused grant applications that address fundamental challenges, so that the portfolio of research in this area will be appropriately balanced. To ensure a balanced portfolio, we have considered this strategy alongside the broader chemical engineering portfolio including the Complex Fluids and Rheology and Process Systems: Components and Integration research areas.

Throughout the Delivery Plan period, we will work with the community to focus on collaboration across the chemistry and chemical engineering interface, identifying opportunities for multidisciplinary research that delivers against the Prosperity Outcomes and Ambitions in our Delivery Plan.

The growing number of chemical engineering undergraduates, emanating from strong industrial demand, means student training remains highly relevant in this research area and across the wider chemical engineering portfolio Evidence source 2.

We will work with the chemical engineering community to explore and address any concerns over academic leadership and the balance of support across all career levels.

Particle technology

These investments reflect the current importance of formulation science to industry and complement initiatives such as the National Formulation Centre, the Advanced Digital Design of Pharmaceutical Therapeutics Centre and the Innovate UK High Value Manufacturing strategy Evidence source 4,5.

These centres will enable UK businesses to collaborate with supply chain partners and academia to develop, prove, prototype and scale-up the next generation of formulated products. These innovation drivers have pushed particle technology research towards higher- TRL formulation-related research.

There is also a need to refocus the area towards long-term fundamental engineering research challenges. Particle Technology is seen as a mature subject area that is largely supported by industry.

Many Small and Medium-Size Enterprises SMEs engaged in the formulation supply chain have their origins in spinouts from UK universities; this means they are supported by world-class expertise in particle design and particle processing Evidence source 5.

Research in particle technology is core to many industrial processes and is dominated by industrial drivers Evidence source 4,5. This area contributes to a number of leading UK industrial sectors including manufacturing, formulation, healthcare and pharmaceuticals Evidence source 6 - a fact highlighted by the presence of a wide range of industrial partners on EPSRC investments Evidence source 3.

Postgraduate training in this area has grown through the formation of a number of interlinked Centres for Doctoral Training CDTswhich are strongly linked to industry.

These investments - concentrated in particular centres of excellence, with a small number distributed throughout the UK, and which maintained their number over the last Delivery Plan - broadly align with the growing industrial demand and increasing relevance of this research area.

Evidence source 2,3 This area will draw on and contribute to other research areas and disciplines, such as Process Systems: Research in this area strongly links to the Manufacturing the Future Challenge Theme. This area has the potential to significantly contribute to the Productive Nation Outcome and will align to the Healthy Nation Outcome.

It is particularly relevant to the following Ambitions: Develop future therapeutic technologies This research area will play a critical role through new approaches for the targeting, functionalisation, encapsulation and physical or chemical release of drugs.ABC Testing Incorporated is certified as ASNT SNT TC 1A, level III in Ultrasonic, Radiography, Magnetic Particle, Liquid Penetrant and visuals.

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Particle size can be determined by measuring the random changes in the intensity of light scattered from a suspension or solution. This technique is commonly known as dynamic light scattering (DLS), but is also called photon correlation spectroscopy (PCS) and quasi-elastic light scattering (QELS).

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