Stronger action needed to transform the UK's energy system
6 July 2015
An ambitious policy package is essential for the UK to transform its energy system to achieve the deep reductions in carbon emissions required to avoid dangerous climate change, according to research led by UCL scientists. To meet climate targets set for 2050, policies need to ensure strong action is taken now, while preparing for fundamental changes in how energy is provided and used in the long term.
The study is part of the Deep Decarbonization Pathway Project (DDPP) which is coordinated by the Institute for Sustainable Development and International Relations (IDDRI) and the Sustainable Development Solutions Network (SDSN) set by the United Nations Secretary General. It analysed possible pathways the UK could take to decarbonise its energy system with the aim of limiting global warming to the internationally agreed 2 degrees Celsius target by 2050.
The findings will feed into the final DDPP report which includes research from 16 countries that account for 75% of global greenhouse gas emissions and is scheduled for publication in September 2015.
Published today by IDDRI and SDSN, the study shows how the UK can meet
its targets through multiple pathways, with key findings being:
•
The power sector must decarbonise by 85-90% by 2030 – this step is
essential for increasing low carbon electricity provision in the
transport and buildings sector, which is estimated to at least double
between now and 2050.
• Carbon capture and storage (CCS), when
cost-effective and available at scale, needs to play a central role in
both power generation and industrial sectors.
• The direct use of fossil fuels in end use sectors must decrease by more than 70% by 2050.
The scientists behind the study say a stronger and more ambitious policy package than currently exists is required to transform the UK energy system, emphasising that consistency is needed across all energy-related policies and adequate policy timeframes are set to provide certainty for investors. They recommend decisions on airport infrastructure and new fossil resource extraction must consider long term carbon targets, calling into question large-scale expansion, and that cost-effective low carbon technologies such as onshore wind continue to be strongly promoted.
Report lead author, Mr Steve Pye,
UCL Energy Institute and member of wholeSEM, said: “With¬out a sustained and strong policy
push that increases year on year in ambition, the delivery of low carbon
technologies at the necessary scale will not be achieved. Carbon
emissions need to halve by 2030 to 4 tCO2/capita, and reduce to less
than 1 tCO2/capita by 2050. For this, the UK needs policies now that
realise the full low cost energy efficiency potential in buildings,
ensure the rapid deployment of low carbon generation technologies such
as CCS, and prepare for the roll-out of low emissions vehicles in the
transport sector and alternative, non-gas based heating systems for
homes.”
The modelling used to explore different pathways shows that a move to
low carbon energy sources requires a strong reduction in the supply of
conventional fossil fuels, particularly in oil used for transport and
gas used for heating buildings. In the long term, the continued use of
gas in electricity and other industries will be strongly dependent on
the availability of CCS.
Co-author Professor Neil Strachan, UCL Energy Institute and Principal Investigator for wholeSEM, said: “We’ve set out feasible pathways that can be taken now, over the next 15 years and in the long term up until 2050 which will help the UK make significant reductions in emissions needed to avoid dangerous climate change. The UK is in a position to play a strong role in international engagement on reducing carbon emissions by cooperating on developing low-carbon technologies and setting an example to other countries by implementing ambitious policies that direct towards a low carbon future.”
Mr Pye, added: “Despite the 2050 target already being challenging, the UK may need to be even more ambitious with actions taken prior to 2050, as evidence shows that a net zero emissions global energy system is likely to be required by the 2070s to limit global warming. Both near and long-term investments need to take into account the transition required after 2050.”
Teresa Ribera, Director of IDDRI, said: “The UCL team did a fantastic job. Their study on decarbonization pathways for the UK is the first on a long series of DDPP country reports. These reports which were done by recognized experts in each country with a common and transparent methodology show that each country has its own pathways but that decarbonization is feasible in each context and that it is compatible with development and economic growth. Five months before the Paris Climate conference, this is really inspiring.”
For a copy of the report or to speak to the researchers, please contact Dr Rebecca Caygill in the UCL press office, T: +44 (0)20 3108 3846 / +44 (0)7733 307 596
About UCL (University College London)
UCL was
founded in 1826. We were the first English university established after
Oxford and Cambridge, the first to open up university education to those
previously excluded from it, and the first to provide systematic
teaching of law, architecture and medicine. We are among the world's top
universities, as reflected by performance in a range of international
rankings and tables. UCL currently has over 35,000 students from 150
countries and over 11,000 staff. Our annual income is more than £1
billion.
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The Deep Decarbonization Pathways Project (DDPP) is a
collaborative global initiative led by IDDRI and SDSN that aims to
demonstrate how individual countries can transition to a low-carbon
economy consistent with the internationally agreed target of limiting
the increase in global temperature to less than 2°C. Achieving this
target will require a profound transformation of energy systems by
mid-century, a “deep decarbonization”. The project comprises 16 research
teams composed of leading institutions from the world’s largest GHG
emitting countries: Australia, Brazil, Canada, China, France, Germany
India, Indonesia, Italy, Japan, Mexico, Russia, South Africa, South
Korea, United Kingdom, and United States. Each team is exploring what is
required to achieve this transformation in their own country's economy
while taking into account socio-economic conditions, development
aspirations, infrastructure stocks, natural resource endowments, and
other relevant factors.
The Institute for Sustainable Development and International Relations (IDDRI)
The
Institute for Sustainable Development and International Relations
(IDDRI) is a non-profit policy research institute based in Paris. Its
objective is to determine and share the keys for analyzing and
understanding strategic issues linked to sustainable development from a
global perspective. IDDRI helps stakeholders in deliberating on global
governance of the major issues of common interest: action to attenuate
climate change, to protect biodiversity, to enhance food security and to
manage urbanization, and also takes part in efforts to reframe
development pathways.
www.iddri.org
The Sustainable Development Solutions Network (SDSN)
The
Sustainable Development Solutions Network (SDSN) mobilizes scientific
and technical expertise from academia, civil society, and the private
sector in support of sustainable development problem solving at local,
national, and global scales. SDSN aims to accelerate joint learning and
help to overcome the compartmentalization of technical and policy work
by promoting integrated approaches to the interconnected economic,
social, and environmental challenges confronting the world.
www.unsdsn.org