Shakespeare’s allegory can be employed to articulate sustainable strategies in many of the SDG themes. For example, SDG 3 (Good health and well-being); SDG 7 (Affordable and clean energy); SDG 8 (Decent Work and economic growth); SDG 13 (Climate Action) and SDG 16 (Peace, Justice and Strong Institutions). This article examines how Shakespeare's works anticipate sustainability narratives for society at large and its individual actors.
LexisNexis Legal & Professional,

LexisNexis France, Lexis360, Collectivités Territoriales, 16 February 2017

In France the goal is to reduce greenhouse gas emissions by 25% by 2050. To support this, there are ambitious targets for the development of photovoltaic energy: 500 MW of new installations per year at a constant rate. Following a consultation with the stakeholders from the photovoltaic sector, a new regulatory framework for solar energy, set out in this detailed practice note, has been implemented which provides two distinct mechanisms depending on the type of installation. Solar energy is critical to SDG 7.2 to increase substantially the share of renewable energy in the global energy mix.

Texte en français.
LexisNexis Legal & Professional,

LexisNexis France, Lexis360, Collectivités Territoriales, 13 February 2017

In France, the law on the development of wind farms has undergone major reform over the last few years aimed at easing regulation to remove existing barriers to the transition to a low carbon economy and to simplify financing. This practice note provides detailed guidance on the current regulations, as they apply to existing wind farms and to the development of new wind farms. Wind power is critical to SDG 7.2 to increase substantially the share of renewable energy in the global energy mix.

Texte en français.
ICIS,

Chemical Business, 5 January 2017

Carbon dioxide is becoming a valuable raw material for chemical industry
It is a sign of the maturity of the green and biobased chemicals sector that major producers and technology providers are making moves to join the entrepreneurs and start-ups that have been driving the technology forward. This positive trend supports the advancing of SDG 9 Industry, Innovation and Infrastructure, and SDG 7 Affordable and Clean Energy.
Elsevier,

Renewable and Sustainable Energy Reviews, Volume 67, January 2017, Pages 1420-1435

This article argues that an integrated electricity market in the Association of Southeast Asian Nations (ASEAN) would enable an efficient use of the regions vast clean energy resources, in support of SDG 7. Ppossible techniques that help expedite the renewable power generations to overcome the limitations associated with the establishment of the ASEAN power grid (APG) are explored, as well as future research direction in enhancing the utilization of APG for ASEAN.
Elsevier,

Sustainable Cities and Society, Volume 28, 2017, Pages 450-452

This paper discusses the CO2 footprint of California’s drought during 2012–2014. The authors show that California drought significantly increased CO2 emissions of the energy sector by around 22 million metric tons, indicating 33% increase in the annual CO2 emissions compared to pre-drought conditions. They argue that CO2 emission of climate extremes deserve more attention, because their cumulative impacts on CO2 emissions are staggering. Most countries, including the United States, do not have a comprehensive a nationwide energy-water plan to minimize their CO2 emissions, therefore the authors argue that developing a national water-energy plan under a changing climate should be prioritized in the coming years.
Elsevier,

Current Opinion in Chemical Engineering, Volume 17, Pages 22-34, August 2017

This paper deals with carbon capture and storage. It provides an overview of the different technologies that have been trialled and the technological gaps that need to be bridged to make this a viable option in the long term and therefore working towards SDG 7 (affordable and clean energy) and SDG 13 (climate action).
In a world where the demand for energy continues to rise and fossil-fuel reserves become more depleted each day, we desperately need new clean energy resources to keep pace with the demand. Renewable energy generated via wind, solar, geothermal, and tidal power will help to reduce our CO2 emissions by 80% of 1990 levels by 2050, but implementing these resources is challenging. In this Catalysis piece, Kaltsoyannis and Liddle explore the role that nuclear power will play in the future. In particular, they discuss the major problems associated with nuclear power and how chemists and fundamental chemical research can take a lead role in providing solutions to make it clean and support SDG 7. This catalyst article generates two reaction responses from Dame Sue Ion and Dr. Robin Taylor.
California-based Facebook is planning to build two data centres measuring 184,000 square metres in Denmark’s third largest city. This could push up total Danish power demand by a 10%, and accelerate investments in wind production. Increasing the production of wind power and other renewables contributes to the advancement of SDG target 7.2 to increase the share of renewable energy in the global energy mix.
In the latest Catalysis piece, Professor Leif Hammarström from Uppsala University discusses one potential solution to SDG 7: utilizing the power of the sun to generate clean energy. This overview catalyzes a response from Professors Bolsen, Druckman, and Cook on the impact that accommodating such change would have on society.

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