The OECD DAC aims to assist countries to implement effective and efficient policies to address climate change by conducting policy-relevant research and analysis related to climate change adaptation, financing and measuring aid in support of climate change mitigation and adaptation.
The traditional focus on energy savings as the main goal of energy efficiency policy has, at times, led to an underestimation of the full value of energy efficiency in both national and global economies. Energy efficiency can bring multiple benefits, such as enhancing the sustainability of the energy system, supporting strategic objectives for economic and social development, promoting environmental goals and increasing prosperity.
The aim of this book is two-fold: to build knowledge of the multiple benefits of energy efficiency, and to demonstrate how policy makers and other stakeholders can use existing tools to measure and maximise the benefits they seek. Five key benefits areas – macroeconomic development; public budgets; health and wellbeing; industrial productivity; and energy delivery – are investigated in-depth, showing compelling returns when the value of multiple benefits is calculated alongside traditional benefits of energy demand and greenhouse gas emissions reductions. Considering multiple benefits also has important implications for unravelling one of the persistent challenges in energy efficiency – the rebound effect – revealing that it often signals a positive outcome in terms of achieving broader social and economic goals.
By identifying and quantifying a broader range of impacts of energy efficiency, the multiple benefits approach repositions energy efficiency as a mainstream tool for economic and social development, and has the potential to motivate higher uptake of energy efficiency opportunities in the market.
English, PDF, 476kb
This is a flyer on the e-learning foundation course on the OECD policy guidance on Greening Capacity for Development.
This report is the third OECD review of Iceland’s environmental performance. It evaluates progress towards sustainable development and green growth, with a focus on the environmental aspects of Iceland's energy and tourism policies.
If we are to meet the goal of keeping global warming to 2 degrees, governments need to engage now to get on the right track to achieve zero‑net greenhouse emissions from combustion of fossil fuels in the second half of this century. Given the urgency of doing so, why does our dependence on fossil fuels appear to be unshaken?
The report presents the potential of new nanomaterials and highlights the remaining challenges for their safe and sustainable introduction in the tyre industry.
Since around 2007, the country has been enjoying an “energy renaissance” thanks to its abundant stocks of shale oil and gas. The resurgence in oil and gas production is beginning to create discernible economic impacts and has changed the landscape for natural gas prices in the United States, boosting competitiveness.
New nanomaterials offer promising avenues for future innovation, which can contribute towards the sustainability and resource efficiency of the tyre industry. Yet uncertainty over environmental health and safety (EHS) risks appears to be a main and continuous concern for the development of new nanomaterials in tyre production, even for those closest to market. Lack of sector-specific guidance represents a major gap.
This review analyses the energy policy challenges facing Luxembourg and provides recommendations for each sector. It is intended to help guide the country towards a more secure and sustainable energy future and the development of its 2030 energy strategy.
It finds that since 2008, Luxembourg’s energy policy has focused on mitigating CO2 emissions in transport and industry and on supporting renewable energies and energy efficiency towards 2020. Luxembourg’s greenhouse gas emissions have stabilised as energy-intensive industries have scaled back their activities and the government put strong energy efficiency policies in place, notably for buildings.
Since 2009, the country’s research and development (R&D) policies have promoted eco-innovation and clean energy technologies. In 2012, government spending on energy R&D as a ratio of gross domestic product was the highest among IEA members. Luxembourg is creating a national platform for smart meters and electric vehicles, the first of its kind country-wide roll out.
Nonetheless, Luxembourg faces several energy challenges. Oil consumption in transport is rising because of growing road fuel sales, largely the result of tax differences to neighbouring countries. This increases Luxembourg’s emissions and its oil stockholding needs. Because the country imports all of its energy needs, energy security is a priority. Luxembourg has sought to address this through greater regional integration such as merging its gas market with Belgium and increasing its electricity interconnection with France and Belgium. Yet the benefits of regional integration of wholesale energy markets have not yet translated to retail markets. Moreover, as regional electricity trade grows and neighbouring countries introduce ambitious decarbonisation policies and capacity markets, Luxembourg will need to define its priorities for an energy strategy through 2030.
This regulatory guidance booklet describes the characteristics of an effective nuclear safety regulator in terms of roles and responsibilities, principles and attributes. Each of the characteristics discussed in this report is a necessary feature of an effective nuclear safety regulator but no one characteristic is sufficient on its own. It is the combination of these characteristics that leads to the effectiveness of a nuclear regulatory body. The report provides a unique resource to countries with existing, mature regulators and can be used for benchmarking as well as training and developing staff. It will also be useful for new entrant countries in the process of developing and maintaining an effective nuclear safety regulator.