the edinburgh research partnership in engineering and mathematics heriot-watt university eh14 4as ...

The Edinburgh Research Partnership in Engineering and Mathematics Heriot-Watt University EH14 4AS www.erp.ac.uk University of Edinburgh EH9 3JL Joint Research Institute in Energy The JRI in Energy brings together engineers and scientists within the Institute for Energy Systems at the University of Edinburgh and the Energy Academy at Heriot-Watt University. There are six key areas of common activity that act all the way down the renewable energy supply chain. Marine Energy & Coastal Defence These activities support the development of the marine energy sector by increasing understanding of the interaction of marine energy devices with the sea at all scales, from university test tank to the open sea. Work on coastal defence explores the overtopping of sea walls by increasingly stormy seas. Urban Energy Demand and Supply At the urban scale JRI research focuses on demand-side technological interventions, supply/demand matching of micro-generation, electricity generation at the micro-scale, and understanding the time-of-day carbon intensity of network electricity. Energy Conversion & Network Delivery JRI staff are developing new breeds of electricity generator that can operate slowly but yet be robust and not too expensive, to convert renewable energy from wind, wave and tidal sources. Understanding the effects of large amounts of renewable energy generation in future electricity networks allows JRI staff to explore new system operation and management to enable the delivery of remote energy resources to distant demand centres. Renewable Energy & Climate Understanding the atmospheric interactions that determine and characterise future wind, wave and hydro resources will be fundamental to the evolution of the energy mix and designs of generating equipment. JRI effort explores the influence of climate change on the nature and availability of these renewable energy resources to future-proof the technology. © 2005 Scottish Parliamentary Corporate Body Contact: Prof. Robin Wallace, University of Edinburgh, [email protected] Dr. Bryce Richards, Heriot-Watt University, [email protected] Photovoltaics & Solar Energy While the solar resource is limited in northern Europe, photovoltaics will play a major role in future energy supply given their ability to generate electricity and heat directly at the point of consumption in cities. JRI research extends from developing new thin-film solar cells, the integration of PV/thermal systems that concentrate diffuse light into buildings, to PV-powered water treatment systems for developing countries and disaster relief. Fuel Cells & Energy Storage Newly-established work in the areas of high- and low- temperature fuel cells is developing advanced materials to improve operation at lower temperatures and reduce costs of devices. Energy storage will be a key enabler of a future renewable energy portfolio, at all levels of scale from atmospheric to geophysical and to chemical at device level. Work in this area is developing understanding and new materials for short and long term energy storage.

Upload: victor-hudson

Post on 23-Dec-2015

217 views

Category:

Documents

0 download

Report

Download

Tags:

Embed Size (px):

TRANSCRIPT

The Edinburgh Research Partnership in Engineering and Mathematics

Heriot-Watt University EH14 4AS www.erp.ac.uk University of Edinburgh EH9 3JL

Joint Research Institute in Energy

The JRI in Energy brings together engineers and scientists within the Institute for Energy Systems at the University of Edinburgh and the Energy Academy at Heriot-Watt University. There are six key areas of common activity that act all the way down the renewable energy supply chain.

Marine Energy & Coastal DefenceThese activities support the development of the marine energy sector by increasing understanding of the interaction of marine energy devices with the sea at all scales, from university test tank to the open sea. Work on coastal defence explores the overtopping of sea walls by increasingly stormy seas.

Urban Energy Demand and SupplyAt the urban scale JRI research focuses on demand-side technological interventions, supply/demand matching of micro-generation, electricity generation at the micro-scale, and understanding the time-of-day carbon intensity of network electricity.

Energy Conversion & Network DeliveryJRI staff are developing new breeds of electricity generator that can operate slowly but yet be robust and not too expensive, to convert renewable energy from wind, wave and tidal sources. Understanding the effects of large amounts of renewable energy generation in future electricity networks allows JRI staff to explore new system operation and management to enable the delivery of remote energy resources to distant demand centres.

Renewable Energy & ClimateUnderstanding the atmospheric interactions that determine and characterise future wind, wave and hydro resources will be fundamental to the evolution of the energy mix and designs of generating equipment. JRI effort explores the influence of climate change on the nature and availability of these renewable energy resources to future-proof the technology.

Contact: Prof. Robin Wallace, University of Edinburgh, [email protected]. Bryce Richards, Heriot-Watt University, [email protected]

Photovoltaics & Solar EnergyWhile the solar resource is limited in northern Europe, photovoltaics will play a major role in future energy supply given their ability to generate electricity and heat directly at the point of consumption in cities. JRI research extends from developing new thin-film solar cells, the integration of PV/thermal systems that concentrate diffuse light into buildings, to PV-powered water treatment systems for developing countries and disaster relief.

Fuel Cells & Energy StorageNewly-established work in the areas of high- and low-temperature fuel cells is developing advanced materials to improve operation at lower temperatures and reduce costs of devices. Energy storage will be a key enabler of a future renewable energy portfolio, at all levels of scale from atmospheric to geophysical and to chemical at device level. Work in this area is developing understanding and new materials for short and long term energy storage.

3, GLENISLA GARDENS LANE, EDINBURGH, EH9 2HP · Main heating and fuel: Boiler and radiators, mains gas ... 3 GLENISLA GARDENS LANE, EDINBURGH, EH9 2HP 21 September 2017 RRN: 0813-6121-7000-0701-7996

Medieval Edinburgh - Cost E53coste53.net/downloads/Edinburgh/Edinburgh-Presentation/p77.pdf · Medieval Edinburgh ‘The Future of ... Edinburgh The Final Conference of COST Action

Edinburgh Research Explorer · School of GeoSciences, University of Edinburgh, EH9 3FF, Edinburgh, UK. corresponding author(s): Jevgeniy Bluwstein ([email protected], [email protected])

the home report - Microsoft...2 Terms & Conditions (With MVR) - 1\10\2008 Page 2 of 6 3F4, 8 Livingstone Place, Edinburgh, EH9 1PA 22nd May 2018 ME045431 MPP/KK 1.3 The Report and

EDINBURGH - Paris Steele 8 Middleby Court.pdf · EDINBURGH 8 MIDDLEBY COURT 3 SOUTH GRAY STREET EH9 1TB PARIS STEELE 35 Westgate, North Berwick, EH39 4AG ... with doors to the sun

55 RATCLI FFE TERRACE, EDINBURGH EH9 1 SU TEL 031 ...salroadrunningandcrosscountrymedalists.co.uk/Archive...55 RATCLI FFE TERRACE, EDINBURGH EH9 1 SU TEL 031-668 25 DUELLIST AIR WINDRUNNER

Diamond Formation in association with Deep Mantle Dehydration Zones Ben Harte ; School of GeoSciences, University of Edinburgh, Edinburgh EH9 3JW, U.K

The Age of the Universe - CERN Document Server · 2009-07-04 · The Age of the Universe Raul Jimenez Royal Observatory, Blackford Hill, Edinburgh EH9 3HJ, UK Abstract. In this article

Mineral Resource Information for Development Plans · 2012. 8. 10. · e-mail: sales @bgs.ac.uk BGS Internet Shop: Murchison House, West Mains Road, Edinburgh EH9 3LA 0131–667 1000

Edinburgh Research Explorer€¦ · 6 Edinburgh EH9 3JK, ... 11 The Chemical Engineering Plant Cost Index (CEPCI) ... 23 perhaps heralded changes to the index formula in 1982 and

PowerPoint Presentation · 2012-09-21 · Tom Denman ([email protected]) +44 (0) 131 667 5454 1-2 Sciennes Gardens, Edinburgh, EH9 1NR . Title: PowerPoint Presentation Author: Island

PE1179/B Acquired Brain Injury – National Managed Clinical … · 2020-05-27 · Administration Building MCN Office Astley Ainslie Hospital 133, Canaan Lane Edinburgh EH9 2HL Tel: