Presentation on theme: "CRed Carbon Reduction 1 Keith Tovey ( ) Н.К.Тови M.A., PhD, CEng, MICE, CEnv Energy Science Director: Low Carbon Innovation Centre School of Environmental."— Presentation transcript:
CRed Carbon Reduction 1 Keith Tovey ( ) Н.К.Тови M.A., PhD, CEng, MICE, CEnv Energy Science Director: Low Carbon Innovation Centre School of Environmental Sciences, UEA. Rotary Club of Norwich Rotary Club of Diss and District – 28 th March 2009 Climate Change – The Greatest Threat to Mankind? Hard Choices Ahead Recipient of James Watt Gold Medal
CRed Carbon Reduction 2
CRed Carbon Reduction 3 1.0 0.5 0.0 -0.5 1860 1880 1900 1920 1940 1960 1980 2000 Temperature Rise ( o C) 1.0 0.5 0.0 -0.5 1860 1880 1900 1920 1940 1960 1980 2000 Temperature Rise ( o C) 1.0 0.5 0.0 -0.5 1860 1880 1900 1920 1940 1960 1980 2000 Temperature Rise ( o C) Source: Hadley Centre, The Met.Office actual predicted Is Global Warming man made? Prediction: Anthropogenic only Not a good match between 1920 and 1970 Prediction: Natural only good match until 1960 Prediction: Natural and Anthropogenic Generally a good match Predictions include: Greenhouse Gas emissions Sulphates and ozone Solar and volcanic activity
CRed Carbon Reduction 4 Climate Change Arctic meltdown 1979 - 2003 Summer ice coverage of Arctic Polar Region –Nasa satellite imagery Source: Nasa www.nasa.gov/centers/goddard/news/topstory/2003/1023esuice.html 20% reduction in 24 years 2003 1979
CRed Carbon Reduction 5 Options for Electricity Generation in 2020 - Non-Renewable Methods Gas CCGT 0 - 80% (curently 35%) Available now (but is now running out) ~2p + but recent trends put figure much higher UK becomes net importer of gas in 2004 Langeland and Balzand Pipe Lines completed Price projected by Government for Gas generation in 2020 5
CRed Carbon Reduction 6 Options for Electricity Generation in 2020 - Non-Renewable Methods Nuclear New Build assumes one new station is completed each year after 2018. Gas CCGT 0 - 80% (curently 35%) Available now (but is now running out) ~2p + but recent trends put figure much higher Carbon sequestration either by burying it or use methanolisation as a new transport fuel will not be available at scale required until mid 2020s 6
CRed Carbon Reduction 7 Options for Electricity Generation in 2020 - Renewable
CRed Carbon Reduction 88 Options for Electricity Generation in 2020 - Renewable Scroby Sands had a Load factor of 25.8% but nevertheless produced sufficient electricity on average for 60% needs of houses in Norwich. At Peak time sufficient for all houses in Norwich and Ipswich
CRed Carbon Reduction 9 Micro Hydro Scheme operating on Siphon Principle installed at Itteringham Mill, Norfolk. Rated capacity 5.5 kW Options for Electricity Generation in 2020 - Renewable
CRed Carbon Reduction 10 Area required to supply 5% of UK electricity needs ~ 400 sq km - But energy needed to make PV takes up to 8 years to pay back in UK. Options for Electricity Generation in 2020 - Renewable
CRed Carbon Reduction 11 Options for Electricity Generation in 2020 - Renewable But Land Area required is very large - the area of Norfolk and Suffolk would be needed to generatejust over 5% of UK electricity needs. Transport Fuels: Biodiesel? Bioethanol? Compressed gas from methane from waste.
CRed Carbon Reduction 12 Options for Electricity Generation in 2020 - Renewable
CRed Carbon Reduction 13 Options for Electricity Generation in 2020 - Renewable
CRed Carbon Reduction 14 Options for Electricity Generation in 2020 - Renewable Output 78 000 GWh per annum - Sufficient for 13500 houses in Orkney but there are only 4000 in Orkney. Controversy in bringing cables south Save 40000 tonnes of CO 2
CRed Carbon Reduction 15 Options for Electricity Generation in 2020 - Renewable
CRed Carbon Reduction Opted Out Coal: Stations can only run for 20 000 hours more and must close by 2015 New Nuclear assumes completing 1 nuclear station each year beyond 2018 New Coal assumes completing 1 new coal station each year beyond 2018 There is a looming capacity shortfall Even with a full deployment of renewables. A 10% reduction in demand per house will see a rise of 7% in total demand - Increased population decreased household size Our Choices: They are difficult: Energy Security
CRed Carbon Reduction 17 Do we want to exploit available renewables i.e onshore/offshore wind and biomass. Photovoltaics, tidal, wave are not options for next 20 years. If our answer is NO Do we want to see a renewal of nuclear power ? Are we happy on this and the other attendant risks? If our answer is NO Do we want to return to using coal? then carbon dioxide emissions will rise significantly unless we can develop carbon sequestration within 10 years UNLIKELY If our answer to coal is NO Do we want to leave things are they are and see continued exploitation of gas for both heating and electricity generation? >>>>>> Our Choices: They are difficult
CRed Carbon Reduction 18 Our Choices: They are difficult If our answer is YES By 2020 we will be dependent on GAS for around 70% of our heating and electricity imported from countries like Russia, Iran, Iraq, Libya, Algeria Are we happy with this prospect? >>>>>> If not: We need even more substantial cuts in energy use. Or are we prepared to sacrifice our future to effects of Global Warming? - the North Norfolk Coal Field? Do we wish to reconsider our stance on renewables? Inaction or delays in decision making will lead us down the GAS option route and all the attendant Security issues that raises.
CRed Carbon Reduction 19 How many people know what 9 tonnes of CO 2 looks like? 5 hot air balloons per person per year. On average each person in UK causes the emission of 9 tonnes of CO 2 each year. "Nobody made a greater mistake than he who did nothing because he thought he could do only a little." Edmund Burke (1727 – 1797)
CRed Carbon Reduction 20 Raising Awareness A Toyota Corolla (1400cc): 1 party balloon every 60m. 10 gms of carbon dioxide has an equivalent volume of 1 party balloon. Standby on electrical appliances up to 20 - 150+ kWh a year - 7500 balloons. (up to £15 a year) A Mobile Phone charger: > 10 kWh per year ~ 500 balloons each year. Filling up with petrol (~£38 for a full tank – 40 litres) --------- 90 kg of CO2 (5% of one hot air balloon) How far does one have to drive in a small family car (e.g. 1400 cc Toyota Corolla) to emit as much carbon dioxide as heating an old persons room for 1 hour? 1.6 miles At Gaoan No 1 Primary School in Xuhui District, Shanghai A tumble dryer uses 4 times as much energy as a washing machine. Using it 5 times a week will cost over £100 a year just for this appliance alone and emit over half a tonne of CO 2. School children at the Al Fatah University, Tripoli, Libya
CRed Carbon Reduction 21 Involve the local Community -The BroadSol Project Annual Solar Gain 910 kWh Solar Collectors installed 27th January 2004 Members of community agreed to purchase Solar Panels at same time. Significantly reduced costs
CRed Carbon Reduction 22 House in Lerwick, Shetland Isles with Solar Panels - less than 15,000 people live north of this in UK! It is all very well for South East, but what about the North? House on Westray, Orkney exploiting passive solar energy from end of February
CRed Carbon Reduction 23 Ways to Respond to the Challenge: Technical Solutions: Solar Photovoltaic Photovoltaic cells are still expensive, but integration of ideas is needed. A church not connected to grid e.g. Fishley, with services only once a week PV would be a sensible option. BUT English Heritage??????? Output depends on type but varies from ~70kWh to ~100kWh per square meter per year. Average house in Norwich consumes ~ 3700 kWh per year
CRed Carbon Reduction 24 6 kW Proven Turbine powering a Heat Pump providing heating for Parish Kirk, Westray Horizontal Axis Mini Wind In 2007/8, mini wind turbines had a load factor of ~ 10.5% on average >>> annual output of approximately 5500 kWh/annum
CRed Carbon Reduction 25 Throttle Valve Condenser Heat supplied to house Evaporator Heat extracted from outside Low Temperature Low Pressure High Temperature High Pressure Responding to the Challenge: Technical Solutions: The Heat Pump Compressor Any low grade source of heat may be used Coils buried in garden 1 – 1.5 m deep Bore holes Lakes/Rivers are ideal Air can be used but is not as good Best performance if the temperature source between outside source and inside sink is as small as possible. Heat pump delivers 3, 4, or even 5 times as much heat as electricity put in.
CRed Carbon Reduction 26 Involve the local Community The residents on the island of Burray (Orkney) campaigned for a wind turbine. On average they are more than self-sufficient in electricity needs and indeed are a net exporter of electricity. Many of the Islanders bought shares in the project and are now reaping the reward. Orkney is hoping to be a zero net emitter of carbon dioxide by 2015.
CRed Carbon Reduction 27 Global Warming will affect us all - in next few decades Energy Security will become increasingly important. Inaction over making difficult decisions now will make Energy Insecurity more likely in future. Move towards energy conservation and LOCAL generation of energy –It is as much about the individual s response to use of energy as any technical measures the Government may take. Wind (and possibly biomass) are the only real alternatives for renewable generation in next 5 – 10 years. –Technical/Economic constraints prevent large scale development of photovoltaic, tidal and wave in this period Otherwise Nuclear??? Even if we are not convinced about Global Warming – Energy Security issues will shortly start to affect us. Conclusions
CRed Carbon Reduction 28 WEBSITE www.cred-uk.org This presentation is now available on WEB >follow Academic Resources Link Need to act now otherwise we might have to make choice of whether we drive 1.6 miles or heat an old person s room And Finally Are you up to the Challenge?: Will you make a pledge? Lao Tzu (604-531 BC) Chinese Artist and Taoist philosopher "If you do not change direction, you may end up where you are heading."