SWEPT2

Reference Number

InnUK/102239/01

Title

SWEPT2

Status

Completed

Energy Categories

Renewable Energy Sources(Wind Energy)

Research Types

Applied Research and Development

Science and Technology Fields

ENGINEERING AND TECHNOLOGY (Mechanical, Aeronautical and Manufacturing Engineering)

UKERC Cross Cutting Characterisation

Not Cross-cutting

Principal Investigator

Project Contact
Garrad Hassan and Partners Ltd

Award Type

Collaborative Research & Development

Funding Source

Innovate UK

Start Date

01 May 2015

End Date

30 April 2018

Duration

36 months

Total Grant Value

£678,400

Industrial Sectors

Region

South West

Programme

Competition Call: 1405_CRD_ENE_GEN_ENCATMSR1 - Energy Catalyst Mid Stage Round 1. Activity Energy Catalyst Rnd 1 Mid Stage

Investigators

Principal Investigator

Project Contact, Garrad Hassan and Partners Ltd

Other Investigator

Project Contact, CFMS Services Limited
Project Contact, Zenotech Limited

Industrial Collaborator

Project Contact, Chemistry, Imperial College London
Project Contact, University of Surrey
Project Contact, STFC Laboratories RAL Space
Project Contact, Chemical and Process Engineering, University of Strathclyde
Project Contact, University of Bristol

Web Site

Objectives

The SWEPT2 consortium is funded via 5 EPSRC grants and one InnovateUK award : see EP/N508500/1, EP/N508512/1, EP/N508524/1, EP/N508536/1, EP/N508548/1, and InnUK/102239/01

Abstract

SWEPT2 follows the successful Simulated Wake Effects Platform for Turbines project to establish the viability of GPU-based fluid dynamics simulation of turbine array wake interaction effects. With a view to growing a UK-based technology supply chain, the original partners (DNV GL, Zenotech and the University of Bristol) will be joined by the Offshore Renewable Energy Catapult (providing access to LIDAR data for validation), STFC Daresbury (to apply the latest in big-data analytics to the challenge of comparing CFD & experimental data), CFMS (cloud computing integration and optimisation), and the universities of Surrey, Strathclyde and Imperial College to provide expertise in wake turbulence and wind tunnel data. SSE has agreed to independently assess the functionality and value of the service during the project.

SWEPT2 addresses the energy trilemma by (i) reducing costs, thus enabling a displacement of fossil fuels thereby (ii) cutting carbon emissions & (iii) reducing dependence on insecure imports.

Data

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Projects

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Publications

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Added to Database

16/10/15