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15 MW Geothermal Energy Plant

15 MW Geothermal Energy Plant. Stephen Mc Loughlin Stephen Devlin Paul O Reilly Mark Flanagan. Project Introduction. Asked by interested investors to look into viability of investment in renewables - Particulary Geothermal. Market gap for mid sized geothermal solution.

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15 MW Geothermal Energy Plant

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  1. 15 MW Geothermal Energy Plant Stephen Mc Loughlin Stephen Devlin Paul O Reilly Mark Flanagan

  2. Project Introduction • Asked by interested investors to look into viability of investment in renewables - Particulary Geothermal. • Market gap for mid sized geothermal solution. • Fluctuation of fossil energy prices have made for a volatile market – Goethermal is a safe alternative. • Geothermal generation offers a dependable and constant source of revenue – costs are virtually unaffected by prevailing fuel prices. • Many geothermal plants have been in operation for years around the globe – Proven Reliability.

  3. Presentation Brief • All aspects of planning and development of a geothermal plant in Ireland. • Planning Permission and Regulation. • Budget and Risk. • Timeline and project plan. • Suitable locations and technical aspects.

  4. What is Goethermal Energy?

  5. A Natural form of Energy • Heat Generated from decay of minerals • Worldwide use – Iceland geezers, thermal baths, New Zealand ect…. • 30 Degree temp rise for each KM drilled – Ireland • Considered to be sustainable – Takes little heat from overall • Not dependant on other energy sources • Low emissions and visual impact

  6. Planning and Regulation Five areas are of key importance relating to planning and regulation for this type of project. • Pre Planning negotiations • Environmental impact statement • Planning submissions • Planning appeals • Public consultations and awareness

  7. Pre Planning negotiations • Local authority consulted from outset • Important first step prior to detailed plan • Consulted in all aspects of project • Informed of benefits to local community – job creation, clean energy ect… • Building relationships are key to this projects success

  8. Environmental Impact Statement • An EIS is a tool for decision making • Lists the pros and cons of any environmentally related project aswell as suggesting alternatives • EPA annex 1 development ensures that EIS is mandatory • Forms part of the basis of planning • Environmental consultants are tasked with EIS

  9. Planning submissions • Notice placed in local and national papers • Application lodged with local council within 2 weeks • 2-5 weeks required by council to assess development and allow for objection • Further 4 weeks required to allow appeals to be made to Bord Pleanala • If no objections within this timeframe final permission is granted

  10. Public awareness / consultation • Transparent and open approach towards the community • Public meetings to hear local views and address concerns • Website and phone information service • Sponsorship of local evens Avoid poor communication as seen in Corrib pipeline project.

  11. Budget

  12. Budget

  13. Risk – Barriers • High initial capital costs. • Environmental risk – fines and penalties. • Planning, permit and legislation – any changes hold up project. • Geographical risk – Tremors, land subsidence ect • Pre build risks – survey errors and research oversight. • Cost over runs over the life of the project.

  14. Risk Mitigation • Government cost sharing and grant schemes. • Large database of research and operation projects. • Be informed of up to date technical information and associated risk. • Tax incentives. • Euro geothermal fund scheme. • Guaranteed load structure.

  15. Timeline

  16. Project plan

  17. Project plan

  18. Finding A Suitable Location • High Temperature Gradient • Possibly at a natural fault line (Fracture) • Near Transmission or a large Industry • Near Supply of Water for Cooling • Good Surrounding Infrastructure • Reasonably priced Land – Private • Local Community impacts and planning

  19. Temperature Gradient & Fault Lines

  20. Transmission & Available Land and Water

  21. Technical aspects of project • Kinegad location shows a 90 degree gradient – perfect for binary cycle plant. • Expected thermal efficiency of 10 – 13% • System is “closed loop” No emissions to atmosphere • Takes nothing but heat – water goes back down • Expected to generate at 20kV – 15 MW output. • Plant is high availability, little downtime once operational – ideal base load generator.

  22. Environmental impact • Geo generation is far cleaner then thermal plants such as coal, oil ect…. • No negative effect on climate change • Plants of this type are low profile – surrounding area not badly affected. • The right balance must be struck regarding heat extraction • Geothermal water can be toxic – must not be released • Steam is only byproduct – large plumes can be seen from this type of plant

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