Developments in tidal energy Proceedings of the third conference on tidal power organized by the Institution of Civil Engineers and held in London on 28-29 November 1989 Thomas Telford, London Co-sponsored by the Department of Energy, the Institution of Electrical Engineers, the Institute of Energy and the Institution of Mechanical Engineers Organizing Committee: R. Clare (Chairman), A. C. Baker, B. Count, R. Price, P. L. Surman and P. C. Warner. British Library Cataloguing in Publication Data Developments in tidal energy 1. Alternative energy sources 621.042 ISBN: 978-0-7277-1571-5 ® The Institution of Civil Engineers, 1990, unless otherwise stated. All rights, including translation, reserved. Except for fair copying no part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means electronic, mechanical, photocopying, recording or otherwise, without the prior written permission of the publisher. Requests should be directed to the Publications Manager, Thomas Telford Ltd, Telford House, 1 Heron Quay, London E14 9XF. Papers or other contributions and the statements made or opinions expressed therein are published on the understanding that the author of the contribution is solely responsible for the opinions expressed in it and that its publication does not necessarily imply that such statements and/or opinions are or reflect the views or opinions of the ICE Council or ICE committees. Published for the Institution of Civil Engineers by Thomas Telford Ltd, Telford House, 1 Heron Quay, London E14 9XF. Contents Opening address P. MORRISON 1 Session 1. 1. An introduction to the Severn barrage development project: project promotion aspects. R. CLARE 3 2. Severn barrage: site investigation and barrage layout. D. KERR, B. F. WAREHAM and D. COURSEY 11 3. Severn barrage: civil engineering aspects. D. KERR, B. SEVERN and S. J. DRIVER 29 Discussion on papers 1-3 53 Session 2. 4. Turbine generators for the Severn barrage. D. J. PETTY and A. MACDONALD 59 5. Energy production. E. GOLD WAG and R. POTTS 75 6. Getting the power away. D. M. BARR 93 Discussion on papers 4—6 107 Session 3. 7. Tidal power from the Mersey: history and prospects. N. W. HAMMOND and P. WOOD 119 8. Progress on civil engineering and planning of a Mersey tidal project. N. REILLY and B. I. JONES 129 9. Electrical and mechanical engineering aspects of a Mersey tidal project. J. R. BOLTER, H. R. GIBSON, W. D. HOGG and H. HAGUE 145 Discussion on papers 7-9 161 Session 4. 10. Initial assessment of the energy yield and economic aspects of a Mersey barrage. E. A. WILSON and R. POTTS 169 11. The use of steel in tidal barrages. R. G. GUY,N. SONDHI and C. J. BILLINGTON 179 12. In situ construction methods for tidal barrages. E. T. HAWS and A. O. MITCHELL 198 Discussion on papers 10-12 213 Session 5. 13. Sediment problems arising from barrage construction in high energy regimes: an example from the Severn Estuary. R. KIRBY 233 14. Ecological aspects of the Severn barrage. T. L. SHAW 245 15. Environmental aspects of a Mersey tidal project. J. TOWNER 263 Discussion on papers 13-15 275 Session 6. 16. Regional economic impact of the Severn barrage. R. McGLYNN 285 17. The local authorities' view of the Severn barrage. R. H. MOON 299 18. The economics of the Severn barrage. J. G. CARR 307 Discussion on papers 16-18 321 Panel discussion Panel: G. BEVAN,J. CHESSHIRE,R. CLARE, B. COUNT and R. T. GALES 327 Opening address Rt Hon. PETER MORRISON, MP, Minister of State for Energy Renewable energy sources offer the potential to increase diversity of supply and will assist in reducing the threat of the greenhouse effect. Government intends to stimulate the development and application of renewable sources of energy wherever they have prospects of being economically competitive and environmentally acceptable. We are supporting a major research and development programme aimed at developing all those technologies which are relevant to UK conditions. Our studies on tidal energy are a key element of this programme. Over £145 million (over £195 million at 1989 prices) has already been invested so far by the Department of Energy in renewable energy research and development. Over £50 million is earmarked for expenditure over the next three years. Over 250 renewable energy 'projects are under way at present with a contract value of over £60 million. It is a growing programme. Nearly 200 projects worth over £100 million are at the planning and formulation stage. We expect to start a further 70-80 projects this year. The programme is undertaken in close collaboration with industry and generating boards and over 20% of the cost of the programme is met by external contributions. Around 25% of the cost of the programme is expected to come from external sources in 1989/90. Privatisation of the electricity industry will create many opportunities for renewable energy. We expect a significant number of renewable energy contracts in the initial obligation. The 600 MW of capacity we have reserved exclusively for renewables in the Non-Fossil Fuel Obligation should encourage further developments. If every reasonable practicable estuary were to be harnessed for tidal power, about 20% of the present electricity demand in England and Wales could be met by this means. A Severn barrage could contribute about 7% of the electricity demand and is by far the Developments in tidal energy. Thomas Telford, London, 1990 DEVELOPMENTS IN TIDAL ENERGY largest single renewable project which could be built in the UK. The main objective of the Department of Energy's tidal energy research and development programme is to reduce uncertainty on costs, performance, regional and environmental issues to the point where it will be possible for private industry to make decisions on whether or not to plan for the construction of tidal barrages. The Department has funded about £4 million towards studies of a Severn barrage so far. The study carried out by the Severn Tidal Power Group, published by HMSO as Energy Paper Number 57, cost about £4 million. This cost was shared equally by the Department of Energy, the STPG, and the CEGB. The Department is also providing funding for studies of the feasibility of a Mersey barrage. The total cost of Phases 1 and 2 of the project is about £2 million shared equally by the Department and the Mersey Barrage Company. We have also funded generic tidal research and development, including funding support for pre-feasibility studies of small-scale barrages such as the River Conwy study. The total cost of generic work completed since 1986 and currently under way amounts to about £1.5 million. The possible impact of tidal barrages on the environment is a crucial factor in the consideration of barrage schemes and you will not be surprised to learn that two-thirds of the Department's generic research and development programme, i.e. about £1 million, has and is being allocated to environmental work. This work includes studies of the possible impact of barrages on birds, fish and on the general ecology of estuaries. I welcome the recently published report on the Severn tidal barrage. Publication will provide an excellent opportunity for consultation with interested parties and this third conference on tidal power will form an important early part of this process. The Severn study gives a clearer picture than hitherto on costs, performance, regional and environmental issues. Much further work remains to be done, particularly on environmental issues. This conference comes at an important time for tidal barrages in the UK. The Severn and Mersey studies have presented us with an opportunity to discuss tidal prospects in much more detail than was hitherto possible. I wish to thank the ICE for organizing the conference, thank the other sponsors, thank the Royal Institute of British Architects for providing the venue, and finally wish the conference every success in its deliberations. 1. An introduction to the Severn barrage development project: project promotion aspects R. CLARE, Sir Robert McAlpine & Sons Ltd SYNOPSIS Following publication by the STPG* in 1986 of its report "Tidal Power from the Severn", it was agreed that a further study to be known as the Severn Barrage Development Project should be undertaken. The cost of this was set at £4iM to be shared equally between the Department of Energy, the Central Electricity Generating Board and the STPG. The latter were to be responsible for the execution of the work and the objectives were established as follows. 1. To reduce uncertainty on the costs and performance of a tidal barrage near Cardiff and Weston. 2. To examine further the regional and environmental effects of a tidal barrage near to Cardiff and Weston in consultation with all other interested parties. 3. To reassess the economic viability and financing of a tidal barrage near to Cardiff and Weston in the light of the further studies carried out. 4. To consider further the organisational, procedural, administrative and legal options of a Severn Tidal Power Barrage and to discuss their implications with other interested parties. Due to the Government's decision, announced in February 1988, to privatise the ESI, the Parties funding the Project agreed that it would not be practical to pursue studies into project promotion and financing during the period of change hence these subjects were deferred from the Development Project, reducing the cost to £4.lM. A detailed content and programme for the Project was drawn up and widely circulated in February 198 7 as a Consultation Document. Many responses were received and appropriate *STPG : The Severn Tidal Power Group consisting of : Sir Robert McAlpine & Sons Ltd. Balfour Beatty Ltd. Taylor Woodrow Construction Ltd. Wimpey Major Projects Ltd.(in assn.with W.S.Atkins & Ptnrs.) GEC Turbine Generators Ltd. Northern Engineering Industries PLC. Developments in tidal energy. Thomas Telford, London, 1990 DEVELOPMENTS IN TIDAL ENERGY adiustments made to the content and programme and the principle subdivisions eventually adopted, following the omissions referred to above, were as set out below. £ K Definition of Programme of Work 75 Tide Regime, Hydrodynamics and Energy Capture, Sediment & Salinity modelling and Water Quality 570 Foundation Investigation Work and Review of Alignment 780 Power System 500 Civil Engineering 780 Annual Costs 25 Regional Development 3 75 Ecological Studies 435 Proiect Economics 50 Legal Data Assembly 105 Management & Reporting 380 It should be noted that the Definition of the Programme of Work included initial work on all subiects together with the costs of the Public Consultation. Additional ecological studies were commissioned directly by the Department of Energy and will be reported later in the Conference. As a result of the geological survey commissioned at the start of the Proiect the proposed alignment of the barrage has been modified and the civil engineering reviewed. This and the hydrodynamic studies have permitted some optimisation of the installed generating capacity, though this is not considered to be the final optimisation which would require further study. The preferred alignment considered was seaward of Cardiff and Weston-super-Mare and is illustrated in figure 1. The maiority of the barrage length would comprise reinforced concrete caissons, constructed in shore facilities, floated to site and sunk into position. There would be embankments adiacent to the Welsh shore, near Steep Holm Island and traversing deep sediments adiacent to the English shore. The alternative to use of caissons, namely insitu construction, has been studied but discarded on grounds of high risk and long construction duration. PAPER 1. CLARE 4 * Weston- *V super-Mare L« A ^ ^W Flat Lavernock Holm e ' P0Jnt LOCKS FIG. 1 Basic data for the scheme are given below: Number of turbine generators 216 Diameter of turbines 9.0m Operating speed of turbines 50 rpm Turbine generator rating 40 MW Installed capacity 8640 MW Number of sluices, various sizes 166 Total clear area of sluice passages 35 032 m2 Average annual energy output 17.0 TWh Operation mode Ebb generation with flood pumping Length of barrage, total 15.9 km including: powerhouse caissons 4.3 km sluice caissons 4.1 km other caissons 3.9 km embankments 3.6 km Proiect design life 120 years In the reference design large locks are included which would be capable of passing the largest ships currently trading to the ports within the basin (Panamax vessels) at most states of the tide. Small craft locks would be provided near each shore for inshore fishing vessels, pleasure craft and the like. Alternative designs for larger and smaller shipping locks have also been considered. DEVELOPMENTS IN TIDAL ENERGY A dual carriageway public road linking to the main highway system on both shores could cross the barrage and a separate service road would be provided. Power would be transmitted by cable from the barrage substations to shore substations on both sides of the estuary where it would link into the national grid. A 7 year construction programme to closure of the barrage is proposed although this could be reduced by one year with some increase in cost. On closure, those turbines already installed would be commissioned and commence generation whilst the remainder would be installed and commissioned over a further two years giving an overall construction programme of 9 years. A maior consideration in determining the acceptability of any barrage scheme will be its effects on the environment, hence the work carried out in this study has been aimed to develop a sufficiently detailed understanding of the system to make a first comprehensive prediction of the environmental effects of the construction and operation of the barrage. The programme assembled available data, collected further data on the present regime, identified continuing changes without the barrage, and assessed the implications of changes likely to be caused by the barrage. The central processes in the estuary are the hydrodynamics of tides (levels and currents) and waves. These influence sediments, salinity and water quality which have a maior bearing on the remainder of the ecosystem including man. The work on these environmental matters does not constitute a full environmental assessment, more work needs to be done, but it has not revealed any insuperable difficulty. The Severn Barrage would produce its primary benefit for the national economy through the generation of electricity by harnessing tidal forces in the Severn Estuary. In addition, the barrage would also have a maior socio-economic impact on the region in which it is sited. This regional analysis has been made in five sections : - Tourism and recreation - Construction/operation of the Barrage - Industrial and commercial property development - Road Transportation - Ports and shipping These effects are largely "regional" and the benefits in the form of income and employment are not all directly additive to the benefits coming from the energy generation. Nevertheless they represent significant regional benefits and those arising from a cross barrage road may be considered in national as well as regional terms. This