Application of Smart Grid Technologies: Case Studies in Saving Electricity in Different Parts of the World provides a wide international view of smart grid technologies and their implementation in all regions of the globe. A brief overview of smart grid concepts and state-of-the art technologies is followed by sections that highlight smart grid experiences in Asia, Africa, North America, South America, Europe and Australasia. Chapters address select countries or sub-regions, presenting their local technological needs and specificities, status of smart grid implementation, technologies of choice, impacts on their electricity markets, and future trends. Similar chapter makes it easier to compare these experiences.
In a time when the smart grid is becoming a worldwide reality, this book is ideal for professionals in power transmission and distribution companies, as well as students and researchers in the same field. It is also useful for those involved in energy management and policymaking.
- Presents the status and challenges of smart grid technologies and their implementation around the globe
- Includes global case studies written by local experts and organized for easy comparison
- Provides a brief overview of smart grid concepts and currently available technologies
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ix | |
| Preface |
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xi | |
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1 Smart grids---Overview and background information |
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1 | (10) |
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1 | (1) |
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1 | (1) |
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2 | (1) |
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4 Renewable energy resources |
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3 | (1) |
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4 | (1) |
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5 | (1) |
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6 | (1) |
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8 Customer active participation |
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6 | (1) |
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7 | (1) |
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7 | (1) |
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7 | (1) |
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8 | (1) |
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8 | (3) |
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9 | (2) |
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11 | (130) |
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2 Iranian smart grid: road map and metering program |
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13 | (48) |
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1 Smart grid technology roadmap in Iran |
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14 | (20) |
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2 National smart meter program |
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34 | (19) |
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53 | (8) |
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58 | (2) |
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60 | (1) |
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3 Intelligent control and protection in the Russian electric power system |
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61 | (80) |
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62 | (5) |
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2 Intelligent energy system as Russian vision of smart grid |
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67 | (5) |
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3 Informational support of IESAAN control problems |
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72 | (26) |
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4 Intelligent operation and smart emergency protection |
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98 | (26) |
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5 Smart grid clusters in Russia |
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124 | (7) |
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131 | (10) |
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134 | (7) |
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141 | (52) |
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4 Demand response: An enabling technology to achieve energy efficiency in a smart grid |
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143 | (30) |
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143 | (1) |
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2 Demand response development in the United States |
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144 | (9) |
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3 A distributed direct load-control mechanism for residential DR |
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153 | (12) |
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165 | (4) |
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169 | (4) |
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169 | (4) |
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5 Development of a residential microgrid using home energy management systems |
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173 | (20) |
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173 | (1) |
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2 Home energy system overview |
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174 | (11) |
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3 Smart buildings/smart residential community |
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185 | (6) |
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191 | (2) |
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191 | (2) |
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193 | (36) |
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6 Case studies in saving electricity in Brazil |
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195 | (34) |
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1 Introduction---Brazilian motivation |
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195 | (1) |
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2 Smart Grid perspective in Brazil |
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196 | (3) |
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3 Main Smart Grid projects in Brazil |
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199 | (15) |
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4 Centers for research development and innovation (CRD&I) |
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214 | (5) |
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5 Smart Grid roadmap---Brazilian case |
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219 | (3) |
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6 Lessons learned, diagnostics, and barriers |
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222 | (2) |
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224 | (5) |
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226 | (1) |
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226 | (1) |
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227 | (2) |
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229 | (166) |
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7 Automation for smart grids in Europe |
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231 | (44) |
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231 | (5) |
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236 | (6) |
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242 | (9) |
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4 Monitoring and forecast |
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251 | (4) |
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5 State estimation and voltage control |
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255 | (12) |
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6 The role of the aggregator in the IDE4L automation architecture |
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267 | (5) |
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272 | (3) |
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273 | (2) |
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8 Smart distribution networks, demand side response, and community energy systems: Field trial experiences and smart grid modeling advances in the United Kingdom |
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275 | (38) |
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Eduardo A. Martinez Cesena |
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1 The UK electricity context |
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276 | (7) |
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283 | (8) |
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291 | (3) |
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4 Case studies and field trials |
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294 | (14) |
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308 | (5) |
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308 | (5) |
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9 Impact of smart meter implementation on saving electricity in distribution networks in Romania |
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313 | (34) |
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1 Overview: Romania and the European situation |
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313 | (6) |
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2 The current status of smart metering in Romania |
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319 | (7) |
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3 Impact of smart metering implementation on saving electricity in distribution networks in Romania |
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326 | (16) |
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4 Conclusions and future trends |
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342 | (5) |
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344 | (3) |
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10 Smart grid digitalization in Germany by standardized advanced metering infrastructure and green button |
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347 | (26) |
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1 Applications in Germany |
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348 | (3) |
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351 | (10) |
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361 | (5) |
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366 | (1) |
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366 | (2) |
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368 | (1) |
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368 | (1) |
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8 Case studies and field trials |
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369 | (1) |
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369 | (4) |
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370 | (3) |
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11 Analysis of the future power systems's ability to enable sustainable energy---Using the case system of Smart Grid Gotland |
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373 | (22) |
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373 | (7) |
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380 | (6) |
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386 | (5) |
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391 | (4) |
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391 | (1) |
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392 | (3) |
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395 | (62) |
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12 Application of cluster analysis for enhancing power consumption awareness in smart grids |
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397 | (18) |
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397 | (2) |
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2 Mathematical preliminaries |
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399 | (4) |
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3 Detecting load outliers by clustering analysis |
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403 | (2) |
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405 | (9) |
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414 | (1) |
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414 | (1) |
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13 Smart grids and the role of the electric vehicle to support the electricity grid during peak demand |
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415 | (14) |
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415 | (1) |
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416 | (5) |
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421 | (6) |
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427 | (2) |
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427 | (1) |
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428 | (1) |
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14 Measurement-based voltage stability monitoring for load areas |
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429 | (28) |
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429 | (2) |
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2 N + 1 buses equivalent system |
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431 | (5) |
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3 Online scheme for implementation |
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436 | (2) |
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4 Demonstration on a four-bus power system |
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438 | (3) |
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5 Case studies on the NPCC test system |
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441 | (13) |
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6 Discussion and conclusions |
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454 | (3) |
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455 | (2) |
| Index |
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457 | |
Lisa Lamont graduated from University of Ulster, Northern Ireland, with a BEng (Hons) in Engineering with Specialisation in Mechanical and Electrical and Diploma in Industrial Studies. She continued her studies at this university obtaining a PhD in Modelling and Control of a VSC (Voltage Source Converter) Transmission System in 2005. After graduating, she held the position of Assistant Professor for 7 years at the Petroleum Institute in Abu Dhabi, UAE. Dr. Lamont currently works for Mott MacDonald Limited, being involved in business development and enhancement of novel technologies not only from the technical side of the business, but also the commercial side. She has published numerous technical peer reviewed journal articles, conference papers and book chapters in control and renewable energy specifically focused on wind and solar, and has been an invited presenter at worldwide events discussing issues on alternative energy sources and their implementation. She is currently a Chartered Engineer, member of the IET and IMechE, and a senior member of the IEEE. Professor Ali Sayigh, Graduated from London University, & Imperial College, B.SC. DIC, Ph.D., CEng in 1966. Fellow of the Institute of Energy, and Fellow of the Institution of Electrical Engineers, Chartered Engineer.
From 1966 to 1985, Prof Sayigh taught at Baghdad University, College of Engineering; King Saud University, College of Engineering, Saudi Arabia; fulltime; and also Kuwait University as part time professor. He was Head of Energy Department at Kuwait Institute for Scientific Research (KISR) and Expert in renewable energy at AOPEC, Kuwait from 1981-1985.
He started working in solar energy in September 1969. In 1984 he established with Pergamon Press his first International Journal for Solar and Wind Technology as an Editor-in-Chief. Since He has been Editor-in-Chief of Renewable Energy incorporating Solar & Wind Technology, published by Elsevier Science Ltd, Oxford, UK. He is editor of several international journal published in Morocco, Iran, Bangladesh and Nigeria.
He has been a member of ISES since 1973 and founder and Chairman of the ARAB Section of ISES since 1979 and was chairman of UK Solar Energy Society for 3-years and consultants to many national and international organizations, among them, the British Council, ISESCO, UNESCO, UNDP, ESCWA, & UNIDO.
Since 1977, Prof Sayigh founded and directed several Renewable Energy Conferences and Workshops in ICTP - Trieste, Italy, Canada, Colombia, Algeria, Kuwait, Bahrain, Malaysia, Zambia, Malawi, India, West Indies, Tunisia, Indonesia, Libya, Taiwan, UAE, Oman, Czech Republic, West Indies, Bahrain, Germany, Australia, Poland, Netherlands, Thailand, Oman, Korea, Iran, Syria, Saudi Arabia, Singapore, China, USA and UK.
In 1990, he established the World Renewable Energy Congress (WREC) and in 1992 the World Renewable Energy Network (WREN) which hold their Congresses every two years, attracting more than 100 countries each time. In 2000 he and others in UAE, Sharjah founded ASTF (Arab Science and Technology Foundation) and Regional Conferences have been held in Sweden, Malaysia, Korea, Indonesia, Australia, UAE, Libya to name but a few. Prof Sayigh has been running an annual international seminar on all aspects of renewable energy since 1990, in the UK and abroad. In total there have been 85 seminars.
Prof Sayigh had supervised and graduated more than 34 Ph D students and 64 M Sc students under his supervision at Reading University and University of Hertfordshire when he was Professor 1986-2004. He edited, contributed, and written more than 32-books, and published more than 500-papers in various international journals and Conferences.
In 2000-2009 initiated and worked closely with Sovereign Publication Company to produce the most popular magazine at annual bases called Renewable Energy which distributed freely to more than 6,000 readers around the world. Presently he is the Editor-in-chief of Comprehensive Renewable Energy coordinating 154 top scientists, engineers and researchers contribution in eight volume published by Elsevier Publishing Company, Oxford, UK.
