Sustainable development in Scotland

Last updated
Definitions of sustainability often refer to the "three pillars" of social, environmental and economic sustainability. Sustainable development.svg
Definitions of sustainability often refer to the "three pillars" of social, environmental and economic sustainability.

Sustainable development in Scotland has a number of distinct strands. The idea of sustainable development was used by the Brundtland Commission which defined it as development that "meets the needs of the present without compromising the ability of future generations to meet their own needs." [2] [3] At the 2005 World Summit it was noted that this requires the reconciliation of environmental, social and economic demands - the "three pillars" of sustainability. [4] These general aims are being addressed in a diversity of ways by the public, private, voluntary and community sectors in Scotland.

Contents

Sustainable communities

Scotland's first dedicated programme for sustainable communities was delivered by Forward Scotland between 1997 and 1999 as part of a UK wide initiative led by Encams. Partnerships with a number of local authorities were developed and dedicated officers recruited to work with communities. This programme piloted the Community Eco-cal a forerunner of ecological footprinting. This programme was evaluated by Professor Michael Carley, Heriot-Watt University and the lessons learned informed a successor programme, 2000–2002, where community groups themselves were the focus. This produced the very first handbook for sustainable communities and a series of highly successful community projects. During this time the first community grants programme for sustainable communities was launched funded by the New Opportunities Fund (now the Big Lottery Fund). This programme funded some pioneering projects in areas such as community renewables, local food, community waste management and the first ecological footprinting projects in Scotland.

Eco-house at Findhorn Ecovillage PA120016.JPG
Eco-house at Findhorn Ecovillage

In April 2007 plans were announced for Biggar to become the first 'carbon-neutral' town in Scotland. [5] In the same month Findhorn Ecovillage confirmed that its ecological footprint is the lowest ever recorded in the industrialised world. [5] In January 2008 HICEC published a report to "review the opportunities and actions needed to support an island community to become carbon-neutral". [6] Following this, in June 2008 it was announced that Stirling was aiming to become Britain's first carbon-neutral city, hosting the Going Carbon Neutral Stirling project. [7]

Community Energy Scotland is a charity that provides free advice, grant funding and finance for renewable energy projects developed by community groups in Scotland. The main aim of the company is to enable all communities to generate and use renewable energy for their long term and collective benefit. [8] In March 2010 the local development trust on the island of Tiree commissioned a 950 kW community-owned wind turbine project, the fourth such large-scale project in Scotland. [9]

Transition Town projects aim to raise awareness of sustainable living and build local ecological resilience. Examples in Scotland include Forres, Portobello, West Kilbride and Hawick. [10]

In August 2010 the historian James Hunter stated that the transfer of ownership into community control had brought about "a spectacular reversal of Gigha's slide towards complete population collapse" and suggested that the UK Government should learn lessons from this and other community buy-outs in places such as Assynt, Eigg, and Knoydart to inform their Big Society plans. [11] These successes notwithstanding, civil servants have been criticised for impeding community buy-outs of land via the Land Reform (Scotland) Act 2003. For example, the proposed community purchase of the former RAF Machrihanish base was thwarted due to technical problems with the application despite 97.4% local support in a referendum. [12]

Public sector

Government policy

The first serious policy was written in 1998 in anticipation of the Scottish Parliament in 1999, by the Secretary of State's Advisory Group for Sustainable Development. This was followed by strategy that focussed on Waste, Energy and Travel in 2002 and Choosing our Future in 2005, which was written in association with the UK shared framework for sustainable development. In 2007 the Scottish National Party took office in a minority government pursuing 5 strategic objectives that encompass sustainable development but do not specifically reference it. Instead the government has adopted sustainable economic growth as its principal target.

In June 2007 John Swinney, the new Cabinet Secretary for Finance and Sustainable Growth in the Scottish Government, announced plans for a Climate Change Bill that would include an intention to cut greenhouse gas emissions by 80% by 2050. [13]

In August 2007 the Scottish Government announced the creation of a Saltire Prize for innovation in industry, which will reward excellence in developing new renewable energy technologies. [14] In contrast the UK government's stance the Scottish Government have ruled out both new nuclear power stations in Scotland and the burial of nuclear waste. [15] [16]

The passage of the Climate Change (Scotland) Act 2009 has a created and informed a wide variety of initiatives. The Climate Change Delivery Plan sets out what needs to be done to achieve emissions reductions to meet the statutory targets that are included in the Act. The Climate Change Adaptation Framework, published in December 2009 aims to build resilience and capacity for change. Other public sector initiatives include:

Scottish Sustainable Development Forum

The Scottish Sustainable Development Forum (SSDF) is a group the focussed on promoting debate and action on sustainable development issues in Scotland. Forum membership is open to any individual who wishes to make Scotland more sustainable. [17]

Public bodies

In January 2010 it emerged that SEPA, the government body responsible for protecting the environment had failed to reach its carbon emissions targets. Its aim is to cut CO2 emissions from business activities by 25% by 2012 compared with 2006 but a report showed that they had risen by 10% in the past year. [18]

Energy production and distribution

Wind, wave and tide make up more than 80% of Scotland's renewable energy potential. Windmills and Ailsa Craig aka Paddy's Milestone rotated.jpg
Wind, wave and tide make up more than 80% of Scotland's renewable energy potential.

The natural resource base for renewables is extraordinary by European, and even global standards. In addition to an existing installed capacity [a] of 1.3 Gigawatts (GW) of hydro-electric schemes, Scotland has an estimated potential of 36.5 GW of wind and 7.5 GW of tidal power, 25% of the estimated total capacity for the European Union and up to 14 GW of wave power potential, 10% of EU capacity. [19] [20] The renewable electricity generating capacity may be 60 GW or more, considerably greater than the existing capacity from all Scottish fuel sources of 10.3 GW. [19] [21]

Much of this potential remains untapped, but continuing improvements in engineering are enabling more of the renewable resources to be utilised. Fears regarding "peak oil" and climate change have driven the subject high up the political agenda and are also encouraging the use of various biofuels. Although the finances of many projects remain either speculative or dependent on subsidies, it is probable that there has been a significant, and in all likelihood long-term change, in the underpinning economics. [22]

In addition to planned increases in both large-scale generating capacity and microsystems using renewable sources, various related schemes to reduce carbon emissions are being researched. [23] Although there is significant support from the public, private and community-led sectors, concerns about the effect of the technologies on the natural environment have been expressed. There is also an emerging political debate about the relationship between the siting, and the ownership and control of these widely distributed resources. [24]

Wind power

Wind power in Scotland is an area of considerable activity, with 1550 MW of installed capacity as at October 2008. [25] Wind power is the fastest growing of the renewable energy technologies in Scotland and the world's largest wind turbine generator (5 MW) is currently undergoing testing in the North Sea, 15 miles off the east coast. There are numerous large wind farms as well as a number, both planned and operating, which are in community ownership. The siting of turbines is sometimes an issue, but surveys have shown high levels of community acceptance for wind power in Scotland. There is further potential for expansion, especially offshore, given the high average wind speeds.

In May 2008 Scottish and Southern Energy confirmed it was proceeding with the Greater Gabbard wind farm, located off the south coast of England. However, they sold their stake in this project, expected to become the largest wind farm in the world, to Npower some six months later. [26] [27]

Lower carbon power stations

In May 2007 Scottish Power announced that Alstom Power and Doosan Babcock had been commissioned to design plans for "clean coal" technology at Longannet and Cockenzie power stations. This would have become the largest project of its kind in Europe [28] but it was cancelled in 2011 after the Westminster Government withdrew funding. [29] Scottish Power have also announced that they wished to reduce carbon emissions by using biomass products such as willow or cereals at Longannet and Cockenzie. This could save up to 300,000 tonnes (330,000 tons) of carbon emissions per annum. However, the challenge of replacing large-scale power production with renewables was highlighted by the fact that to replace 5% of the fuel from these plants, fully 12% of Scotland's agricultural land would be required. [30]

Carbon sequestration

The British Geological Survey estimate that potentially 755 billion tonnes of CO2 could be stored in carbon dioxide sinks in the North Sea (Scotland's annual CO2 output is circa 50 million tonnes). The process also aids the recovery of oil and gas as it increases pressure in the oil field. The DTI estimate that as much as 2 billion additional barrels of oil could be recovered as a result of CO2 injection. [20]

Although this process could reduce CO2 emissions from conventional power plants by as much as 80–90%, if combined with increased oil recovery the net savings in carbon emissions may be much less as the total volume of oil and gas used from that field would increase. [22]

Electricity distribution

However, controversy has arisen about Ofgem's proposed plans to increase transmission charges for distant electrical generation. This was widely seen as placing renewable energy production in Scotland at a considerable disadvantage. Jason Ormiston, the chief executive of Scottish Renewables was quoted as saying "At a time when the UK government's chief scientific adviser has said that climate change is the greatest threat to humanity, here we have the industry regulator penalising renewable electricity generators for generating where the resource is greatest." [31] The issue was highlighted the following month when leaked Department of Trade and Industry documents indicated that, despite Scottish successes, under current policies Britain would miss the EU's 2020 target of 20% energy from renewables by a considerable margin. [32] In the same month a report by Xero Energy Limited into these 'use of system' transmission charges across Europe indicated that the UK system creates costs that are up to thirty times higher in Scotland than elsewhere in Europe and that charges for the islands are "almost certainly higher than any other European country". Rob Gibson an MSP for the Highlands and Islands described the charges as "a tax on geography", and Elaine Hanton of HIE claimed the report raised "serious concerns". [33] [34]

Discussions between the Scottish and Norwegian governments aimed at creating a sub-sea grid to take renewable energy from Scotland to the European mainland are planned for early 2008. [35]

Hydrogen economy

An innovative approach was proposed by BP in partnership with Scottish and Southern Energy for the creation of a hydrogen-based power station at Peterhead. The project would have taken natural gas extracted from the North Sea, crack the gas to produce hydrogen and carbon dioxide, and burn the hydrogen as the fuel source to create electricity in a 475 MW power station. The CO2 would then have been returned to the Miller field reservoir more than 4 kilometres (2 mi) under the seabed in a process called carbon sequestration (see above). The scheme was expected to be in production by 2009 at a projected cost of $600 million, although it fell through as it failed to gain sufficient support from the UK government to enable this to occur. Had it been completed, the plant would have been the first industrial-scale, hydrogen power station in the world. [23] [36]

In October 2007 a joint venture was announced by the PURE Energy Centre and the Hjaltland Housing Association to create two “unplugged” hydrogen houses on a remote site in Eshaness, Northmavine, in Shetland. The installation will involve two combined heat and power systems, wind turbines and a hydrogen fuel cell to heat the houses at times when the wind is not blowing. There is also the possibility of a hydrogen refuelling station at the site for hydrogen-powered cars. A spokesman for PURE said “Forty per cent of the world-wide population lives with no access to electricity and heat. The CHP scheme will provide these populations with such access. There will be no impact on the environment whatsoever. This is totally clean energy." [37]

Housing

Eco-houses at the Inverness expo Expohouses.jpg
Eco-houses at the Inverness expo

"Tygh-Na-Cladach" (English: the house by the shore") in Dunoon is the UK's first "affordable" passivhaus, designed by Gokay Deveci of Robert Gordon University for Fyne Homes. [38] For the month of August 2010 Scotland's first green housing expo opened in Inverness. The event showcased 52 new designs. [39]

Waste treatment

Moray Council has announced an 800 kW landfill gas project near Spey Bay. Contractors Renewable Power Systems expect the facility to come into production in 2008. [40] There are as yet no plans for Plasma arc waste disposal in Scotland although a plant is under construction at Swindon in England. [41]

In 2013 Baron Wallace of Tankerness sided with liquidators KPMG who are arguing UK insolvency law has precedence over Scottish environmental regulations. Wallace's position, taken "on behalf of the UK Government" is that the liquidators have the power to abandon environmental clean-up costs after the company with the responsibility for them has gone bust. KPMG estimates the liquidation of Scottish Coal will leave up to £30 million that would be paid to creditor Lloyds Bank rather go towards the restoration of disused mines in Ayrshire and Lanarkshire. Opponents of KPMG include the Scottish Government, the Scottish Environment Protection Agency, South Lanarkshire Council and East Ayrshire Council. [42]

Agriculture and food

In November 2008, Keenan Recycling completed a £3.2 million plant at New Deer for the production of organic fertilisers. Capable of producing 20,000 tonnes per annum the operators hope to capitalise on the soaring price of compound fertilisers, which tripled in the previous 18 months. [43]

Transport

Electric Vauxhall run by the Cairngorms National Park Authority CairngormsEV.jpg
Electric Vauxhall run by the Cairngorms National Park Authority

Designated recharging points to run electric vehicles have been installed at the Cairngorms National Park Authority offices at Grantown and at the Aviemore offices of local charity, the Badenoch and Strathspey Community Transport Company. In 2010 the government body that manages and promotes sustainable transport in Scotland announced that, despite a goal of reducing carbon emissions for travel by staff by 8% over a two-year period, that they had risen by 3%. Transport Scotland has now set a new target of cutting their travel emissions by 12% over the next three years. [44]

In 2011 Caledonian MacBrayne announced they were developing engineering concept designs for the world's first sea going RORO passenger hybrid (battery/diesel-electric) ferry. The ferries are designed for use on short crossing routes and use battery banks supplying a minimum of 20% of the energy consumed on board. [45] MV Hallaig was launched in December 2012 at Ferguson's yard in Port Glasgow by Deputy First Minister Nicola Sturgeon. [46] The Scottish Government invested more than £20 million in the project [46] and Hallaig is the first of two vehicle roll-on roll-off hybrid-powered ferries. She has a low-carbon system of diesel electric and lithium ion battery power. [46]

See also

Related Research Articles

Carbon neutrality is an approach for climate change mitigation in which carbon dioxide emissions (or all greenhouse gas emissions) are balanced by absorbing carbon via carbon sinks or by removals. This can be achieved by reducing emissions, most of which come from the burning of fossil fuels, and by removing carbon dioxide from the atmosphere. The term is used in the context of carbon dioxide-releasing processes associated with transport, energy production, agriculture, and industry. Although the term "carbon neutral" is used, the approach also includes other greenhouse gases, measured in terms of their carbon dioxide equivalence. The term climate-neutral reflects the broader inclusiveness of other greenhouse gases in climate change, even if CO2 is the most abundant.

<span class="mw-page-title-main">Sustainable energy</span> Energy that meets social, economic, and environmental needs

Energy is sustainable if it "meets the needs of the present without compromising the ability of future generations to meet their own needs." Most definitions of sustainable energy include considerations of environmental aspects such as greenhouse gas emissions and social and economic aspects such as energy poverty. Renewable energy sources such as wind, hydroelectric power, solar, and geothermal energy are generally far more sustainable than fossil fuel sources. However, some renewable energy projects, such as the clearing of forests to produce biofuels, can cause severe environmental damage.

<span class="mw-page-title-main">Energy in the United Kingdom</span> Overview of the energy use of the United Kingdom

Energy in the United Kingdom came mostly from fossil fuels in 2021. Total energy consumption in the United Kingdom was 142.0 million tonnes of oil equivalent in 2019. In 2014, the UK had an energy consumption per capita of 2.78 tonnes of oil equivalent compared to a world average of 1.92 tonnes of oil equivalent. Demand for electricity in 2014 was 34.42 GW on average coming from a total electricity generation of 335.0 TWh.

<span class="mw-page-title-main">Energy policy of the United Kingdom</span> Overview of the energy policy of the United Kingdom

The energy policy of the United Kingdom refers to the United Kingdom's efforts towards reducing energy intensity, reducing energy poverty, and maintaining energy supply reliability. The United Kingdom has had success in this, though energy intensity remains high. There is an ambitious goal to reduce carbon dioxide emissions in future years, but it is unclear whether the programmes in place are sufficient to achieve this objective. Regarding energy self-sufficiency, UK policy does not address this issue, other than to concede historic energy security is currently ceasing to exist.

<span class="mw-page-title-main">Climate Change and Sustainable Energy Act 2006</span> United Kingdom legislation

The Climate Change and Sustainable Energy Act 2006 is an Act of the Parliament of the United Kingdom which aims to boost the number of heat and electricity microgeneration installations in the United Kingdom, so helping to cut carbon emissions and reduce fuel poverty.

Community Energy Scotland is an independent Scottish charity established in 2008 that provides advice and financial support for renewable energy projects developed by community groups in Scotland. The stated aim of Community Energy Scotland is 'to build confidence, resilience and wealth at community level in Scotland through sustainable energy development'.

<span class="mw-page-title-main">Low-carbon economy</span> Economy based on energy sources with low levels of greenhouse gas emissions

A low-carbon economy (LCE) or decarbonised economy is an economy based on energy sources that produce low levels of greenhouse gas (GHG) emissions. GHG emissions due to human activity are the dominant cause of observed climate change since the mid-20th century. Continued emission of greenhouse gases will cause long-lasting changes around the world, increasing the likelihood of severe, pervasive, and irreversible effects for people and ecosystems. Shifting to a low-carbon economy on a global scale could bring substantial benefits both for developed and developing countries. Many countries around the world are designing and implementing low-emission development strategies (LEDS). These strategies seek to achieve social, economic, and environmental development goals while reducing long-term greenhouse gas emissions and increasing resilience to the effects of climate change.

<span class="mw-page-title-main">Renewable energy in Scotland</span>

The production of renewable energy in Scotland is a topic that came to the fore in technical, economic, and political terms during the opening years of the 21st century. The natural resource base for renewable energy is high by European, and even global standards, with the most important potential sources being wind, wave, and tide. Renewables generate almost all of Scotland's electricity, mostly from the country's wind power.

<span class="mw-page-title-main">Energy in Iceland</span> Energy sources in the country of Iceland

Iceland is a world leader in renewable energy. 100% of Iceland's electricity grid is produced from renewable resources. In terms of total energy supply, 85% of the total primary energy supply in Iceland is derived from domestically produced renewable energy sources. Geothermal energy provided about 65% of primary energy in 2016, the share of hydropower was 20%, and the share of fossil fuels was 15%.

<span class="mw-page-title-main">Energy policy of China</span> Energy sources used and produced by China

Ensuring adequate energy supply to sustain economic growth has been a core concern of the Chinese government since 1949. The country is the world's largest emitter of greenhouse gases, and coal in China is a major cause of global warming. However, from 2010 to 2015 China reduced energy consumption per unit of GDP by 18%, and CO2 emissions per unit of GDP by 20%. On a per-capita basis, it was the world's 51st largest emitter of greenhouse gases in 2016. China is also the world's largest renewable energy producer. China is the largest producer of hydroelectricity, solar power and wind power in the world. The energy policy of China is connected to its industrial policy. The goals of China's industrial policy dictate its energy needs.  

<span class="mw-page-title-main">Renewable energy in the United Kingdom</span> Overview of renewable energy in the United Kingdom

Renewable energy in the United Kingdom contributes to production for electricity, heat, and transport.

<span class="mw-page-title-main">Fossil fuel phase-out</span> Gradual reduction of the use and production of fossil fuels

Fossil fuel phase-out is the gradual reduction of the use and production of fossil fuels to zero, to reduce deaths and illness from air pollution, limit climate change, and strengthen energy independence. It is part of the ongoing renewable energy transition.

<span class="mw-page-title-main">Renewable energy in China</span>

China is the world's leader in electricity production from renewable energy sources, with over triple the generation of the second-ranking country, the United States. China's renewable energy sector is growing faster than its fossil fuels and nuclear power capacity, and is expected to contribute 43 per cent of global renewable capacity growth. China's total renewable energy capacity exceeded 1,000 GW in 2021, accounting for 43.5 per cent of the country's total power generation capacity, 10.2 percentage points higher than in 2015. The country aims to have 80 per cent of its total energy mix come from non-fossil fuel sources by 2060, and achieve a combined 1,200 GW of solar and wind capacity by 2030. In 2023, it was reported that China was on track to reach 1,371 gigawatts of wind and solar by 2025, five years ahead of target due to new renewables installations smashing records.

Energy policy in Scotland is a matter that has been specifically reserved to the UK parliament under the terms of the Scotland Act 1998 that created the devolved Scottish Parliament. However, since planning is a matter that has been devolved, the Scottish government has the ability to shape the direction of energy generation in Scotland by approving or refusing new projects.

<span class="mw-page-title-main">Climate change in Scotland</span> Emissions, impacts and responses of Scotland related to climate change

Climate change in Scotland is causing a range of impacts on Scotland, and its mitigation and adaptation is a matter for the devolved Scottish Parliament. Climate change has already changed timings of spring events such as leaf unfolding, bird migration and egg-laying. Severe effects are likely to occur on biodiversity.

<span class="mw-page-title-main">Renewable energy debate</span>

Policy makers often debate the constraints and opportunities of renewable energy.

<span class="mw-page-title-main">Electricity sector in the United Kingdom</span> Overview of the electricity sector in the United Kingdom

The United Kingdom has a National Grid that covers most of mainland Great Britain and several of the surrounding islands, as well as some connectivity to other countries. The electrical sector supplies power at 50 Hz AC, and ~240 volts is supplied to consumers. In 2020 the electricity sector's grid supply came from 55% low-carbon power, 36.1% fossil fuelled power, and 8.4% imports. Renewable power is showing strong growth, while fossil fuel generator use in general and coal use in particular is shrinking, with historically dominant coal generators now mainly being run in winter due to pollution and costs, and contributed just 1.6% of the supply in 2020.

<span class="mw-page-title-main">Energy in Sweden</span> Overview of energy use in Sweden

Energy in Sweden describes energy and electricity production, consumption and import in Sweden. Electricity sector in Sweden is the main article of electricity in Sweden. The Swedish climate bill of February 2017 aims to make Sweden carbon neutral by 2045. The Swedish target is to decline emission of climate gases 63% from 1990 to 2030 and international transportation excluding foreign flights 70%. By 2014 just over half of the country's total final energy consumption in electricity, heating and cooling and transport combined was provided by renewables, the highest share amongst the then 28 EU member countries. About a third of Sweden's electricity is generated by nuclear power. In generating a year's worth of this energy, Swedes generate about 4 tonnes of CO2 emissions each. Since 2010, sustainability measures have reduced total emissions even as the population has increased.

<span class="mw-page-title-main">Energy in Portugal</span> Energy and electricity production in Portugal

Energy in Portugal describes energy and electricity production, consumption and import in Portugal. Energy policy of Portugal will describe the politics of Portugal related to energy more in detail. Electricity sector in Portugal is the main article of electricity in Portugal.

Green hydrogen (GH2 or GH2) is hydrogen generated by renewable energy or from low-carbon power. Green hydrogen has significantly lower carbon emissions than grey hydrogen, which is derived from fossil fuels without carbon capture. Green hydrogen may be used to decarbonize sectors that are hard to electrify, such as cement and iron production. Green hydrogen can be used to produce green ammonia, the main constituent of synthetic fertilizer. It can also be used for long-duration grid energy storage, and for long-duration seasonal energy storage.

References

  1. Adams, W.M. (2006). "The Future of Sustainability: Re-thinking Environment and Development in the Twenty-first Century." Report of the IUCN Renowned Thinkers Meeting, 29–31 January 2006. Retrieved on: 2009-02-16.
  2. United Nations. 1987."Report of the World Commission on Environment and Development." General Assembly Resolution 42/187, 11 December 1987. Retrieved: 2007-04-12
  3. Smith, Charles; Rees, Gareth (1998). Economic Development, 2nd edition. Basingstoke: Macmillan. ISBN   0-333-72228-0.
  4. United Nations General Assembly (2005). 2005 World Summit Outcome Archived 2009-08-07 at the Wayback Machine , Resolution A/60/1, adopted by the General Assembly on 15 September 2005. Retrieved on: 2009-02-17.
  5. 1 2 Johnston, Ian (20 April 2007). "Biggar and better as Lanarkshire town bids to be Scotland's first carbon-neutral community" Edinburgh. The Scotsman. Retrieved on 27 April 2007.
  6. "Establishing a carbon-neutral island". HIE. Retrieved 10 February 2008. Archived March 5, 2008, at the Wayback Machine
  7. "Stirling bids to be first carbon-neutral city" (13 June 2008) Glasgow. The Herald. Retrieved 6 April 2010.
  8. HICEC. (2006) Highlands and Islands Community Energy Company Annual Review. Inverness.
  9. "Tiree renewable energy". tireerenewableenergy.co.uk. Retrieved 22 August 2010. The first three projects were on Gigha and Westray and at Findhorn Ecovillage.
  10. "Where Transition is happening". transitionscotland.org. Retrieved 17 August 2010.
  11. "Ross, David (20 August 2010) "Cameron should visit Gigha to see the Big Society in action, says historian". Glasgow: The Herald.
  12. Ross, David (1 September 2010). "'Bias' thwarts community bids to buy land claims capaigner". Glasgow: The Herald.
  13. Schofield, Kevin (22 June 2007). "Scotland could be ‘world leader’ in fighting climate change". Glasgow. The Herald. Retrieved on 31 August 2007. Archived September 26, 2007, at the Wayback Machine
  14. "Green energy excellence to be rewarded": John Swinney announces Saltire Prize Hi-Energy (15 August 2007) Press release. Retrieved on 29 August 2007. Archived September 27, 2007, at the Wayback Machine
  15. "The Scottish Government's response to the UK Consultation on the Future of Nuclear Power." (9 October 2007)The Scottish Government. Retrieved 22 January 2008.
  16. "Nuclear waste burials ruled out" bbc.co.uk. Retrieved 22 January 2008.
  17. "About Us" Scottish Sustainable Development Forum. Retrieved 22 January 2008.
  18. Fyall, Jenny (29 January 2010) 'Green police' fail to hit own targets".The Scotsman. Edinburgh.
  19. 1 2 RSPB Scotland, WWF Scotland and FOE Scotland (February 2006) The Power of Scotland: Cutting Carbon with Scotland's Renewable Energy. RSPB et al.
  20. 1 2 A Scottish Energy Review. (November 2005) Scottish National Party Framework Paper. Edinburgh.
  21. Scottish Renewables (January 2006) Market and Planning Report. Issue No 4.
  22. 1 2 Monbiot, George (2006) Heat: How to Stop the Planet Burning. London. Allen Lane.
  23. 1 2 "Peterhead hydrogen project". BP . Retrieved 2007-02-02.
  24. HICEC. (2006) Highlands and Islands Community Energy Company Annual Review. (PDF). Inverness. Retrieved on 31 August 2007.
  25. Turbines achieve energy landmark
  26. "Greater Gabbard Wind Project Gets Go-ahead " (27 May 2008) Renewable Energy World.com. Retrieved 9 November 2008.
  27. Rutherford, Hamish (4 November 2008) "SSE sells half of giant wind farm project to Npower for £308m." Edinburgh. The Scotsman.
  28. Dalton, Alistair (18 May 2007). " 'Dinosaur' power stations in line for £1bn green revamp". Edinburgh. The Scotsman. Retrieved on 31 August 2007.
  29. Currie, Brian (19 Oct 2011) "Scots £1bn climate change plant is axed". Glasgow. The Herald.
  30. "Crop energy power plan unveiled". BBC online (July 19, 2007). Retrieved on 27 July 2007.
  31. Johnston, Ian (27 July 2007). " 'Mad' fines of £200,000 jeopardise Scots green energy sector". Edinburgh. The Scotsman. Retrieved on 27 July 2007.
  32. "Revealed: cover-up plan on energy target". London. Guardian Unlimited (13 August 2007). Retrieved on 13 August 2007.
  33. Ross, John (14 September 2007) "Green energy in Highlands being hampered by 'tax on geography' ". Edinburgh. The Scotsman.
  34. Scott, N.C. (August 2007) European practices with grid connection, reinforcement, constraint and charging of renewable energy projects (pdf) Inverness. HIE/Xero Energy. Retrieved on 13 September 2007.
  35. "Salmond plans Norwegian energy link up" (29 October 2007) The Scotsman. Edinburgh.
  36. There are ongoing attempts to keep the project alive—see for example Perry, David (25 May 2007) "Last-ditch fight on to save green gas project". Aberdeen. Press and Journal.
  37. "‘Unplugged Houses’ at Northmavine" (pdf) (October 2007) Community Energy News No 6. Dingwall. HICEC. Retrieved 18 October 2007.
  38. "Tygh-Na-Cladach - the first Passive House in Scotland is UK's first 'Affordable Housing' Passivhaus". Scottish Passivhaus Centre. Retrieved 22 August 2010.
  39. "Welcome to Scotland's Housing Expo!". scotlandshousingexpo.com. Retrieved 17 August 2010.
  40. Paterson, Lorna (28 September 2007) "Landfill site's waste gases set to provide enough power for around 1,600 homes." Aberdeen. The Press and Journal.
  41. "Swindon Gasplasma® plant". Advanced Plasma Power. Retrieved 23 July 2011.
  42. Vass, Stephen (11 August 2013) "Scots rules attacked by UK Government in clean-up battle over open-cast mines". Glasgow. The Herald.
  43. Buglass, Dan (4 November 2008) "Green fertiliser plant 'will help cut production costs'." Edinburgh. The Scotsman.
  44. Henderson, Damien (28 July 2010) "Red-faced for missing green target". Glasgow. The Herald.
  45. "Hybrid ferries: the opportunity for Scotland". Caledonian Maritime Assets Limited. Retrieved 27 Nov 2011.
  46. 1 2 3 "Hybrid ferry Hallaig to be launched". East Kilbride News. 17 December 2012. Retrieved 13 January 2013.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.