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Hydroelectric power

Hydroelectric power. By Andrew Verney NBS-MO16. The hydrological cycle. Courtesy Queen Mary University of London. t. Hydro Power Potential. 3 Types of Hydro Power. Run of River schemes – use the natural flow of the river and there is continuity of flow.

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Hydroelectric power

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  1. Hydroelectric power By Andrew Verney NBS-MO16

  2. The hydrological cycle • Courtesy Queen Mary University of London t

  3. Hydro Power Potential

  4. 3 Types of Hydro Power • Run of River schemes – use the natural flow of the river and there is continuity of flow. • Storage – water is stored behind a dam and released through the plant • Pumped Storage – the plant can be reversed to pump water uphill when surplus power is available Source: DECC

  5. Scales of Hydro Power • Pico:   <5kW • Micro:  5kW  – 50kW • Small / Mini: 50kW – 20MW • Large:  >20MW Source: DECC

  6. Hydro Power: UKGeneration • In 2008, hydro power using natural flows generated approximately: • 18.6 PJ of electricity, or • 24 % of electricity generated from renewables in the UK • Hydro power from pumped storage generated approximately: • 19 PJ of electricity, or • 1.11 % of all electricity sold in the UK in 2008 http://www.decc.gov.uk/en/content/cms/statistics/source/renewables/renewables.aspx

  7. Once the dam is built,the energy is very cheap Water ‘energy’ can be stored above the dam Much more reliable than other renewables No waste or pollution produced “Switch off and onable” Reservoirs are multi-purpose amenities – leisure; irrigation; flood control and wetland habitats Advantages of Large-Scale HEP

  8. Dams are very expensive Dams cause environmental upheaval upstream and downstream The UK is running out of suitable sites Siltation reduces life expectancy Pumped storage requires available ‘baseline’ power and is not renewable Constraints of Large-Scale HEP

  9. Small Scale Resource and Limitations • 675MW of unexploited hydroelectric power in Scotland alone according to recent survey • Design life is high, investment cost relatively low • Generate electricity for 3p/kWh • Short construction times cf Large Scale • Requires a suitable watercourse • Initial capital cost is significant • Environment Agency may not be supportive • Multiple ownership of land, fishing and water abstraction rights causes confusion and delay

  10. Assumptions – Large Scale • Used Declared Net Capacity (DNC) figures from DUKES 2008 • Load factor will improve slightly as control management systems improve • Changes in rainfall are ignored • Glendoe online in 2009 • Pumped storage is a management tool not additional capacity

  11. Projections – Large scale

  12. Assumptions small scale • Government incentives such as feed-in tariffs promote small-scale development • Planning and environmental restrictions do not counteract Government incentives • Current improved load factors remain at 38% • Three Scenarios – Current rate of growth – Doubled rate of growth or halved rate of growth

  13. Projections – Small Scale

  14. Conclusions • Large Scale development promoted by the Scottish Government could see one or two more large power stations come online. • Small scale pant could see a significant increase in percentage terms but remains a small sector.

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