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2. Roadmap to Zero-Carbon Electrification of Africa by 2050: The Green Energy Transition and the Role of the Natural Resource Sector (Minerals, Fossil Fuels, and Land)
- Author:
- Jeffrey D. Sachs, Perrine Toledano, and Martin Dietrich Brauch
- Publication Date:
- 01-2022
- Content Type:
- Special Report
- Institution:
- Columbia Center on Sustainable Investment
- Abstract:
- All Africans—whether living in urban or rural areas—need access to affordable, clean, efficient, reliable, climate- proof, and renewable energy for both residential and productive uses to achieve sustainable development objectives. This report sets out a comprehensive and actionable roadmap for Africa’s zero-carbon energy transformation by 2050, with most advances achieved by 2030. Natural resource management in minerals, fossil fuels, and land sits at the core of the strategy. The world is moving to decarbonization by 2050. This is the dominant geopolitical message of 2021, appearing, for example, in U.S. President Joe Biden’s online summit with world leaders in April 2021 and in the new IEA Report on Net Zero by 2050: A Roadmap for the Global Energy Sector. Africa will be part of this global trend. Prospective oil and gas projects in Africa will no longer be pursued as overseas markets and financing will shrink. At the same time, Africa’s vast renewable energy potential, in the solar and hydropower sectors especially, will engage increasingly bankable and highly attractive investments. In net terms, Africa has a huge amount to gain from a decisive build-up of renewable energy and the capacity to produce the minerals, hardware, and software of the new zero-carbon energy economy. Starting from a simple and transparent model of the annual investment volumes needed to provide continent-wide access to electricity based on renewable sources (Section 2), the report addresses various imperatives and challenges regarding Africa’s energy planning (Section 3) and financing (Section 4) and outlines recommendations for immediate implementation of the strategy from 2022 (Section 5).
- Topic:
- Climate Change, Development, Energy Policy, Environment, Sustainable Development Goals, Sustainability, Decarbonization, and Energy Crisis
- Political Geography:
- Africa
3. New Producer Contract Terms and Uncertainty: Lessons From the Recent Past
- Author:
- Patrick Heller, Perrine Toledano, Tehtena Mebratu-Tsegaye, and David Mihalyi
- Publication Date:
- 03-2022
- Content Type:
- Special Report
- Institution:
- Columbia Center on Sustainable Investment
- Abstract:
- The petroleum industry is volatile, and governments in “new producer” countries have operated at a significant information disadvantage when negotiating with international oil companies. This challenge is growing today; new producer countries face intensifying questions around whether to offer fiscal incentives to maintain investment in the face of 1) the pandemic-induced volatility in oil prices and 2) long-term questions about the future of the industry in the face of the climate crisis and the global energy transition. This confluence of short-term and long-term uncertainty is prompting a reexamination of the narrative that once took hold in many new producer countries. The traditional story was one of linear progression from being non-producers to small levels of production to ultimately having oil and gas become a major economic contributor over the long term. This notion of progression was associated with a commonly held theory: After a country’s first major discovery, the geological risk that wells will be dry was expected to decrease. Countries could therefore shift from a position of having to grant tax breaks (and other concessions) to international investors, to taking a tougher stance in laws and negotiations for new projects going forward. In this paper we examine whether this theory has been borne out in practice and make recommendations to support new producers in their navigation of the uncertainty associated with the energy transition. Among the eight “new producer” countries, for which we analyzed a total of 26 contracts signed before and 25 contracts signed after discovery events (all occurring between 2001 and 2014), the evidence is mixed. Only three of the eight countries in our sample—Ghana, Mozambique and Uganda—demonstrated a clear pattern in the direction of more stringent terms in post-discovery contracts. They featured definitive steps to increase some of the obligations of contractors to the state, and no significant terms that became less stringent. Five out of eight countries did not meaningfully alter their approach to gain greater concessions from their company partners.
- Topic:
- Energy Policy, Oil, Governance, Gas, and Private Sector
- Political Geography:
- Uganda, Africa, Mozambique, and Ghana
4. U.S. Strategy: Rebalancing Global Energy between Europe, Russia, and Asia and U.S. Security Policy in the Middle East and the Gulf
- Author:
- Anthony H. Cordesman
- Publication Date:
- 05-2022
- Content Type:
- Special Report
- Institution:
- Center for Strategic and International Studies
- Abstract:
- The war in Ukraine has already shown how dangerous it is for the U.S. to assume that it can rebalance its forces to one region and count on a lasting peace or detente in others. It now is all too clear that U.S. strategy must continue to focus on Europe as well as China. What is less clear is the extent to which the Ukraine War is an equal warning that the U.S. must have a truly global strategy – and one that continues to focus on other critical regions like the Middle East. The sudden escalation of the Ukraine crisis into a major regional conflict and the need for political and diplomatic support in the UN as well as for sanctions are warnings that much of the U.S. success in deterrence and defense lies in creating long-term global diplomatic and political support as well as true and lasting strategic partnerships.
- Topic:
- Security, Energy Policy, International Trade and Finance, Hegemony, and Strategic Interests
- Political Geography:
- Russia, Europe, Middle East, Asia, North America, and United States of America
5. Making Energy Resilient: State Strategies, Progress, and Opportunities
- Author:
- Morgan Higman
- Publication Date:
- 05-2022
- Content Type:
- Special Report
- Institution:
- Center for Strategic and International Studies
- Abstract:
- Amidst energy transitions and the rising impacts of climate change, resilience is a growing part of state energy strategies. But there is relatively little consolidated information describing what states are doing to build adaptive capacities in the power sector. This report fills this gap. It examines how resilience is addressed in planning and policy resources from a selection of representative states. These resources describe anticipated hazards and vulnerabilities, use-cases for emerging clean energy technologies, and broader efforts to create new resilience institutions and authorities. Though resilience garners considerable policy attention, most state initiatives are not guided by well-defined performance goals or measures or a plan that provides an overarching vision for grid resilience. This paper highlights challenges in these areas and describes new, innovative, and replicable approaches to promote more complete and robust resilience strategies.
- Topic:
- Climate Change, Energy Policy, Governance, Renewable Energy, Resilience, and Strategic Interests
- Political Geography:
- Global Focus
6. Greenhouse Gas Emissions from State-Owned Enterprises: A Preliminary Inventory
- Author:
- Alex Clark and Philippe Benoit
- Publication Date:
- 02-2022
- Content Type:
- Special Report
- Institution:
- Center on Global Energy Policy (CGEP), Columbia University
- Abstract:
- State-owned enterprises (SOEs) play a major role in the production of goods and services across many of the world’s largest economies, particularly in electricity generation, oil and gas, and heavy industry. SOEs (defined in this report as companies for which 50 percent or more of voting shares are held by a government) are also major sources of greenhouse gas emissions. The governments that control these SOEs are also signatories to the Paris Agreement on climate change. State ownership provides these governments with a major direct point of control over the climate and energy outcomes of these companies, both in terms of reducing emissions and directing future investment into low-carbon technologies and infrastructure. Improving the measurement of SOEs’ contribution to both national and global-level emissions provides important information to help understand to what extent SOEs should be targeted and to design strategies to maximize their potential role in the broader energy transition. This report provides an accounting of direct emissions associated with SOEs globally. It is challenging to comprehensively identify every SOE, as the total is estimated at well over 100,000. In addition, most identified SOEs do not disclose their emissions nor are estimates of these emissions available in the public domain. Despite these limitations, data compiled for this report covering almost 300 major SOEs suggest that SOEs globally are responsible for at least 7.49 gigatons of carbon dioxide equivalent (GtCO2e) annually in direct (Scope 1) emissions. While the true scale of SOE-related emissions is likely to be substantially higher, particularly when accounting for national oil companies and iron and steel manufacturers that do not currently report their emissions, this figure is over 1 GtCO2e greater than various previous estimates, and larger than the total annual emissions of any country except China.
- Topic:
- Climate Change, Energy Policy, Environment, and Green Technology
- Political Geography:
- China, Asia, and Global Focus
7. Reducing Methane Emissions from Global Gas
- Author:
- Ben Cahill
- Publication Date:
- 05-2022
- Content Type:
- Special Report
- Institution:
- Center for Strategic and International Studies
- Abstract:
- Cutting methane emissions from oil and gas will help slow the pace of global warming, and methane is firmly on the international climate agenda. But how will progress on methane rules and regulations spread beyond Europe and North America, especially to regions where state utilities and national oil companies (NOCs) play a prominent role? And how can global gas trade—especially the liquefied natural gas (LNG) sector—evolve in ways that lower methane emissions? This report outlines recent global, national, and sub-national efforts to curtail methane emissions from oil and gas. It analyzes how demand for cleaner, or “differentiated,” gas might develop, delving into the drivers for buyers and others in the gas ecosystem. It concludes with policy recommendations and suggested engagement strategies with global gas players.
- Topic:
- Climate Change, Energy Policy, Environment, and Gas
- Political Geography:
- Global Focus
8. Decarbonizing Aluminum: Rolling Out a More Sustainable Sector
- Author:
- William Alan Reinsch and Emily Benson
- Publication Date:
- 02-2022
- Content Type:
- Special Report
- Institution:
- Center for Strategic and International Studies
- Abstract:
- As the effects of climate change intensify, countries and industries alike are seeking new ways to decarbonize to meet emissions targets, avoid carbon border tariffs, and reduce energy costs. Today, energy use in industry is the number one contributor to global greenhouse gas (GHG) emissions. Therefore, decarbonization of heavy industry would have a direct and immediate impact on reducing GHG emissions and slowing climate change. Aluminum is the second most used metal in the world. Its applications are numerous and fundamental, from electrical transmission to defense and construction. Aluminum is also a key input in other goods that help reduce emissions, such as electric vehicles and energy-efficient buildings, meaning that decarbonizing aluminum can help industries that are playing a critical role in global climate efforts. This paper evaluates global progress on sectoral emissions reductions and assesses policies governments can pursue to accelerate decarbonization of the aluminum sector. The aluminum industry consists of three component segments: upstream aluminum, downstream aluminum, and recycled aluminum. The upstream aluminum sector is responsible for the sourcing of raw material components from mined bauxite that is then refined into alumina and smelted into aluminum. Aluminum production is usually accomplished in two phases. In the first stage, bauxite ore is refined to obtain aluminum oxide through the Bayer process. The Hall-Heroult process of smelting the aluminum oxide to release pure aluminum comprises the second stage. Upstream production of aluminum involves the mining of bauxite and refining it into alumina. The downstream segment refers to the production of semi-fabricated aluminum products and their use in a wide range of sectors, from manufacturing and automobiles to construction and consumer products. Aluminum not only offers durability, but also is lightweight and infinitely recyclable, meaning it has clear environmental benefits compared to other similar inputs, such as steel or plastic. While aluminum does offer some environmental benefits, producing it is carbon intensive. Aluminum production processes have changed very little since the 1800s, and many countries continue to rely on coal to produce the electricity required for aluminum production. Globally, the aluminum sector contributes roughly 2 percent of GHG emissions—equivalent to about 1.1 billion tons of carbon dioxide (CO2). Yet demand for aluminum is expected to increase by 50 to 80 percent by 2050. In 2019, the aluminum industry consumed 6 percent of all global coal-fired electricity, exceeding the total amount of coal-fired electricity generated in Europe. That same year, coal-fired electricity used in aluminum electrolysis produced 636 million tons of C02 emissions, or 58 percent of the sector’s carbon footprint. On average, 72 percent of GHG emissions from primary production of aluminum are from electricity, meaning greater use of renewable energy in aluminum production could significantly decrease the sector’s carbon output. According to the Intergovernmental Panel on Climate Change (IPCC), global CO2 emissions need to decrease by 45 percent by 2030 in order to keep global warming below the 1.5 degree threshold. By accelerating the deployment of renewables and designing policies that encourage and support the decarbonization of heavy industry, the private and public sectors can play key roles in helping to reduce carbon emissions, while also continuing to grow the global economy.
- Topic:
- Climate Change, Energy Policy, Renewable Energy, and Carbon Emissions
- Political Geography:
- Global Focus
9. The Impact of the Russian Aggression Against Ukraine on the EU's Economy
- Author:
- Melchior Szczepanik
- Publication Date:
- 03-2022
- Content Type:
- Special Report
- Institution:
- The Polish Institute of International Affairs
- Abstract:
- A spike in energy prices provoked by Russia’s invasion of Ukraine will inhibit the economic rebound in the EU. Member States will have to face high inflation for longer than previously expected. Forced to increase spending, they also could postpone plans to reduce their debts. The conflict with Russia is mobilising the Community to speed up the development of renewable energy and reduce dependencies on third countries, especially authoritarian ones, in strategic sectors.
- Topic:
- Energy Policy, War, European Union, Economy, and Inflation
- Political Geography:
- Russia, Europe, and Ukraine
10. New Perspectives for Nuclear Energy in the EU
- Author:
- Maciej Zaniewicz and Zuzanna Nowak
- Publication Date:
- 03-2022
- Content Type:
- Special Report
- Institution:
- The Polish Institute of International Affairs
- Abstract:
- EU countries opposing nuclear energy, mainly Austria and Germany, are trying to limit its development in the Union by using the dispute over the details of the “green taxonomy”. The Russian aggression against Ukraine, however, has strengthened the arguments of supporters of this technology. They present nuclear energy as a way to make Europe independent of Russian gas and oil imports while reducing CO2 emissions. The final shape of the delegated act supplementing the taxonomy and the date of its entry into force will significantly affect the future of new nuclear projects in the EU, including in Poland.
- Topic:
- Energy Policy, European Union, Carbon Emissions, and Nuclear Energy
- Political Geography:
- Russia, Europe, Ukraine, Germany, and Austria
11. Impact of the Russia-Ukraine War on the Global Energy Policy
- Author:
- Mamuka Komakhia
- Publication Date:
- 07-2022
- Content Type:
- Special Report
- Institution:
- Georgian Foundation for Strategic International Studies -GFSIS
- Abstract:
- The Russia-Ukraine war has been going on for five months, and it can be said that it is a war that has changed the world, and not only in military and security terms. In this edition of “The Security Review”, we will discuss the food, energy, and transportation aspects of this conflict. Mamuka Komakhia deals with one of the most important aspects of the war - energy, and discusses Europe's dependence on Russian oil and gas and the possible scenarios to escape from it.
- Topic:
- Energy Policy, Oil, War, European Union, Gas, Exports, Energy Dependence, and Russia-Ukraine War
- Political Geography:
- Russia, Ukraine, and Eastern Europe
12. EU – Pacific Talks: H2 – Hydrogen Hype
- Author:
- David Plhák
- Publication Date:
- 03-2022
- Content Type:
- Special Report
- Institution:
- Europeum Institute for European Policy
- Abstract:
- Czechia is in many respects similar to Japan in its limited ability to rely fully on renewables. It is therefore in the interest of Czechia to increase hydrogen imports and its use in the energy mix. In order to ensure a steady supply of hydrogen the gas system operators of Czechia, Slovakia, Ukraine, and Germany launched in 2021 joined initiative to create a Central European Hydrogen corridor in an effort to create a supply of hydrogen from Ukraine. Unfortunately, given the Russian aggression on Ukraine, this project must be stopped, until Ukraine will be free of war again.
- Topic:
- Climate Change, Energy Policy, European Union, Economy, and Hydrogen
- Political Geography:
- Japan, Ukraine, Germany, Asia-Pacific, Slovakia, European Union, and Czechia
13. The Geopolitics of Hydrogen in the Indo-Pacific Region
- Author:
- Jane Nakano
- Publication Date:
- 06-2022
- Content Type:
- Special Report
- Institution:
- Center for Strategic and International Studies
- Abstract:
- Large energy consumers in the Indo-Pacific region and their traditional energy suppliers are examining the potential role of clean hydrogen in energy systems as well as their own potential roles in hydrogen supply chains. Several Asian governments are leading the charge in creating a clean hydrogen economy by releasing and executing hydrogen strategies and funding new projects, while others are beginning to articulate visions and strategies. This report surveys national visions and strategies of leading Asian economies and their traditional energy suppliers and presents key implications of clean hydrogen development in the Indo-Pacific region. The report further offers recommendations on the role the United States could play in this rising market, including ensuring resilience and robustness in clean hydrogen supply chains, recognizing the energy security benefit of clean hydrogen exports from the United States, and ensuring the environmental sustainability in hydrogen value-chain creation.
- Topic:
- Security, Energy Policy, Environment, Sustainability, and Hydrogen
- Political Geography:
- Indo-Pacific
14. Making Hydrogen Hubs a Success
- Author:
- Joseph Majkut, Jane Nakano, and Mathias Zacarias
- Publication Date:
- 07-2022
- Content Type:
- Special Report
- Institution:
- Center for Strategic and International Studies
- Abstract:
- In a low-carbon world, low-emissions hydrogen will be useful as an energy carrier and when end uses are too hard or expensive to electrify. Thus, hydrogen plays a key role in modeled scenarios of a decarbonized future. Notably, the International Energy Agency’s (IEA) Net-zero Scenario has called for hydrogen from low-carbon sources to make up 10 percent of final energy consumption worldwide by 2050. This large scale of projected consumption means that standing up an industry to make, process, and use low-carbon hydrogen is one part of a needed response for many countries, including the United States. In the Infrastructure Investment and Jobs Act (IIJA), the U.S. Congress authorized the creation of Regional Clean Hydrogen Hubs (H2Hubs) to address the multiple challenges facing this nascent industry. In the United States, there is presently little production of low-emissions hydrogen, few users, and almost no linkages between them. To solve these challenges, the legislation calls for each H2Hub to establish “a network of clean hydrogen producers, potential clean hydrogen consumers, and connective infrastructure located in close proximity” to demonstrate the production, processing, storage, transportation, and use of clean hydrogen. Under the legislation, hydrogen is considered clean if less than two kilograms of carbon dioxide (CO2) is emitted for every kilogram of hydrogen produced. The production of such low-emissions hydrogen is the key requirement of the H2Hubs program, which also needs to demonstrate the production of clean hydrogen from different sources, including fossil fuel feedstocks, renewables, and nuclear power. H2Hubs will also need to demonstrate the use of hydrogen in power generation, industry, heating, and transportation. The legislation also calls for H2Hubs to be an engine of economic growth and investment in the regions where the hubs are located. Beyond the formal requirements for technical demonstration, the only other instruction from Congress is that the U.S. Department of Energy (DOE) “shall give priority to regional clean hydrogen hubs that are likely to create opportunities for skilled training and long-term employment to the greatest number of residents in the region.” In a June 2022 announcement on the program, the DOE highlighted how the economic goals of the program are part of the IIJA and President Biden’s agenda, including by “enhancing U.S. competitiveness in the world, creating good jobs, and ensuring stronger access to these economic benefits for underserved communities.” The H2Hubs program offers $8 billion in investment for a nascent industry that could both help the United States reduce greenhouse gas emissions and lead the way in a growing part of the global energy industry, creating jobs and economic benefits at home. As communities, states, and consortia compete for H2Hubs grants, they can design hubs for technical and economic success. And the DOE can build upon existing experience instituting Energy Innovation Hubs to build ecosystems of innovation at a large scale. In spring 2022, the CSIS Energy Security and Climate Change Program hosted several workshops to explore how best practices in regional economic development and innovation policy could help inform the design and administration of H2Hubs. The program also considered how hub models are being used around the world to foster investment in clean-hydrogen production and create market demand for it. This report is a product of those workshops and research that preceded and followed them.
- Topic:
- Energy Policy, Environment, Electricity, and Hydrogen
- Political Geography:
- Global Focus
15. Creating a New Energy Strategy for a Post Ukraine War World
- Author:
- Anthony H. Cordesman and Paul Cormarie
- Publication Date:
- 08-2022
- Content Type:
- Special Report
- Institution:
- Center for Strategic and International Studies
- Abstract:
- There is every reason for the U.S. to focus on the dangers of climate change and the need to change the sources of its energy supplies to reduce carbon emissions. The new Inflation Reduction Act that President Biden signed on August 16, 2022, is an important step toward achieving these goals. At the same time, the U.S. needs to work with its European strategic partners to permanently reduce their dependence on Russian oil and gas exports and work with Asian partners like Japan and South Korea to ensure that they will not confront a similar threat in the future from China.
- Topic:
- Climate Change, Energy Policy, Environment, International Cooperation, and Russia-Ukraine War
- Political Geography:
- Global Focus
16. CCP Inc. in Greece: State Grid and China’s Role in the Greek Energy Sector
- Author:
- Briana Boland, Jude Blanchette, and Cory Combs
- Publication Date:
- 10-2022
- Content Type:
- Special Report
- Institution:
- Center for Strategic and International Studies
- Abstract:
- How did one of China’s core state-owned enterprises gain a foothold in Greece’s electricity sector? This case study examines the “CCP Inc.” ecosystem of Chinese officials, state-owned enterprises, policy banks, and private firms that helped State Grid Corporation of China (State Grid) and other Chinese companies gain a stake in the national electric grid and renewable energy projects in Greece. State Grid is the world’s largest utility company, pursuing an international strategy of expansion that both implements and informs Beijing’s policy goals for global energy infrastructure. By investigating how State Grid acquired a stake in Greece’s national power grid operator, the Chinese financing and energy sector business deals that followed State Grid’s investment, and the constraints that limited State Grid’s later efforts to expand its control over Greece’s electric grid, this case study offers insight to the role of state-owned enterprises in the global reach of China’s state capitalist system.
- Topic:
- Energy Policy, Finance, Electricity, and State-Owned Enterprises
- Political Geography:
- China and Asia
17. Roadmap to Zero-Carbon Electrification of Africa by 2050: The Green Energy Transition and the Role of the Natural Resource Sector (Minerals, Fossil Fuels, and Land)
- Author:
- Jeffrey D. Sachs, Perrine Toledano, and Martin Dietrich Brauch
- Publication Date:
- 11-2022
- Content Type:
- Special Report
- Institution:
- Columbia Center on Sustainable Investment
- Abstract:
- All Africans—whether living in urban or rural areas—need access to affordable, clean, efficient, reliable, climateproof, and renewable energy for both residential and productive uses to achieve sustainable development objectives. This report sets out a comprehensive and actionable roadmap for Africa’s zero-carbon energy transformation by 2050, with most advances achieved by 2030. Natural resource management in minerals, fossil fuels, and land sits at the core of the strategy. The world is moving to decarbonization by 2050. This was the dominant geopolitical message of 2021, appearing, for example, in U.S. President Joe Biden’s online summit with world leaders in April 2021 and in the International Energy Agency’s (IEA) Report on Net Zero by 2050: A Roadmap for the Global Energy Sector, which stated that there was “no need for investment in new fossil fuel supply” in a pathway to net zero by 2050. Africa will be part of this global trend. The UNFCCC COP 26 evidenced the continued commitment to the world to this agenda, with the Global Methane Pledge and the Glasgow Leaders’ Declaration on Forest and Land Use, holding strong promises to respectively reduce methane by 2030 by 30% relatively to 2020 levels and end all deforestation by 2030 while strongly investing in reforestation. Prospective oil and gas projects in Africa will no longer be pursued as overseas markets and financing will shrink. The Russian war on Ukraine in 2022 has reinforced the determination of Europeans and Americans to wean off Russian gas in the short term and off all gas in the medium to long term, seeing in the energy transition an opportunity to meet parallel goals of decarbonization and energy independence. The IEA’s World Energy Outlook 2022 notes that, even under a relatively conservative “stated policies” scenario, global demand for coal, oil, and gas will peak or plateau in the coming years and subsequently fall. The report also notes that the energy crisis triggered by Russia’s invasion of Ukraine, though leading to a short-term increase in fossil fuel demand, has consolidated the global long-term shift toward renewable energy, energy efficiency, and electrification. In parallel to this reality, Africa’s vast renewable energy potential, in the solar and hydropower sectors especially, will engage increasingly bankable and highly attractive investments. In net terms, Africa has a huge amount to gain from a decisive buildup of renewable energy and the capacity to produce the minerals, hardware, and software of the new zero-carbon energy economy.
- Topic:
- Energy Policy, Regional Cooperation, Natural Resources, Carbon Emissions, and Decarbonization
- Political Geography:
- Africa
18. Energy Politics in the MENA Region: From Hydrocarbons to Renewables?
- Author:
- Valeria Talbot
- Publication Date:
- 11-2022
- Content Type:
- Special Report
- Institution:
- Italian Institute for International Political Studies (ISPI)
- Abstract:
- After Russia's invasion of Ukraine and its weaponisation of natural gas supplies, energy security has become a top political priority for Europe. Given the Middle East and North Africa (MENA) region's abundant oil and gas resources, the European countries inevitably turned to the region to make up for the shortfall. This Report analyses the impact of Europe's "scramble for alternatives" on key MENA exporters of fossil fuels. Specific attention is attached to their prospects as short-term suppliers of fossil fuels while they set the stage for their green transition. How is the current energy crisis affecting the role of MENA hydrocarbons producers as Europe's energy suppliers? Which impact on energy relations among MENA countries? Which new prospects for their green transition?
- Topic:
- Security, Energy Policy, Renewable Energy, Hydrocarbons, and Green Transition
- Political Geography:
- Middle East and North Africa
19. Small Modular Reactors: The Next Phase for Nuclear Power in the Indo-Pacific?
- Author:
- Carl Baker, Jor-Shan Choi, Ferenc Dalnoki-Veress, Sanjana Gogna, and Victor Nian
- Publication Date:
- 08-2022
- Content Type:
- Special Report
- Institution:
- Pacific Forum
- Abstract:
- In an effort to understand the rising interest worldwide in so-called “small modular reactors” (SMRs) and their companion “floating nuclear power plants” (FNPPs), the Pacific Forum commissioned three papers on this topic. Written by Victor Nian, the first paper unpacks SMR/FNPP technologies and discusses their applicability in the Indo-Pacific. The second paper, authored by Jor-Shan Choi, examines the safety, security, and safeguards (i.e., the “3S”) considerations associated with SMRs/FNPPs. Finally, penned by Miles Pomper, Ferenc Dalnoki Veress, Dan Zhukov, and Sanjana Gogna, the third paper addresses the potential geopolitical implications of SMR/FNPP deployments in the Indo-Pacific. By looking at these three areas – the technology, the 3S considerations, and geopolitics – the papers seek to provide a comprehensive, albeit preliminary, analysis of the SMR/FNPP question in the Indo-Pacific.
- Topic:
- Security, Energy Policy, Science and Technology, Nuclear Power, Geopolitics, and Small Modular Reactors (SMRs)
- Political Geography:
- Indo-Pacific
20. Unfinished Connectivity in the Bay of Bengal
- Author:
- Amit Bhandari, Sagnik Chakraborty, Naren Punjabi, and Gitanjoli Dasgupta
- Publication Date:
- 10-2021
- Content Type:
- Special Report
- Institution:
- Gateway House: Indian Council on Global Relations
- Abstract:
- The Bay of Bengal is a bridge between the Indo-Pacific and the Indian Ocean, and with a population of 1.4 billion, an increasingly important economic zone in its own right. India has been slow to build regional connectivity. The space has been filled by China's Belt and Road Initiative projects, which have not always been beneficial for host countries. The region may be better off pursuing digital connectivity by enabling tech startups – areas of India’s strength. This research uses maps to explore the potential for energy, transport, and financial connectivity across the Bay of Bengal.
- Topic:
- Energy Policy, Science and Technology, Infrastructure, Regional Integration, Belt and Road Initiative (BRI), and Transportation
- Political Geography:
- China, South Asia, India, Indian Ocean, Indo-Pacific, and Bay of Bengal
21. Risky Bet: National Oil Companies in the Energy Transition
- Author:
- David Manley and Patrick Heller
- Publication Date:
- 02-2021
- Content Type:
- Special Report
- Institution:
- Natural Resource Governance Institute
- Abstract:
- The global energy transition from fossil fuels to cleaner energy will profoundly affect the global economy. It will limit how much greenhouse gases humanity emits and hopefully avoid catastrophic global warming. This transition will, however, also have a profound effect on state-owned national oil companies (NOCs). NOCs—in which the government is the sole or the dominant shareholder—produce half of the world’s oil and gas, and invest 40 percent of the capital in the global oil and gas industry. They are also important for millions of citizens in the developing countries where many NOCs operate. This report explores the risks the energy transition brings for NOCs and governments reliant on oil revenues. With the pace of energy transition uncertain, the authors of this report offer a warning to governments and NOCs as they consider their future investment plans.
- Topic:
- Climate Change, Energy Policy, Oil, and Investment
- Political Geography:
- Global Focus
22. Thermal Coal in Colombia: Perspectives and Risks for the Economies of La Guajira and Cesar Departments
- Author:
- Natural Resource Governance Institute
- Publication Date:
- 04-2021
- Content Type:
- Special Report
- Institution:
- Natural Resource Governance Institute
- Abstract:
- The exploitation of thermal coal in Colombia faces great challenges despite the abundance and quality of the country’s reserves. The main challenges are due to the external context: the downward trend in prices due to the structural drop in consumption due to the rapid substitution of coal for less polluting fuels or renewable sources in the European market, coupled with the great distance to Asian markets, have raised doubts about the economic viability of coal exports from Colombia. Colombia could be one of the first countries to suffer from the contraction in global demand for thermal coal, because its main markets are Turkey (23 percent) and the Atlantic ports in Europe (19 percent), two markets where demand will likely diminish in the short term. The contraction in demand would have various effects on the country’s economy, as it is the second-most important export (after oil), an important source of royalties and one of the main axes of the economies of La Guajira and Cesar departments. This study analyzes the implications of the decline in coal demand for the national economy and for the main producing regions, such as La Guajira and Cesar, which are highly dependent on coal exploitation.
- Topic:
- Energy Policy, Natural Resources, and Coal
- Political Geography:
- Colombia and South America
23. Reconceptualizing Lithuania’s Importance for U.S. Foreign Policy
- Author:
- Nikolas Gvosdev
- Publication Date:
- 07-2021
- Content Type:
- Special Report
- Institution:
- Foreign Policy Research Institute
- Abstract:
- During the immediate post-Cold War period, the importance of Lithuania, along with other Central-Eastern European countries, to U.S. foreign policy increased. Lithuania became one of the jumping-off points for further “democratic enlargement” in Europe, Eurasia, and the Greater Middle East. Today, U.S. policy is focused on retrenchment and consolidation—defined by a shift in attention and resources away from the Euro-Atlantic region and the Greater Middle East towards the Indo-Pacific region—as well as the growing priority of climate change and the environment as central organizing principles. U.S. foreign policy is also increasingly subordinated to domestic political considerations about the costs and benefits of overseas action for constituencies within the United States. In the 2020s, Lithuania’s importance will rest less on the Russia dimension and further Euro-Atlantic enlargement into the post-Soviet space, and more on its ability to play a greater role in European affairs, to assist in the rebalance to Asian affairs more generally, and to contribute to energy, supply chain, and environmental security.
- Topic:
- Foreign Policy, Energy Policy, Geopolitics, and Supply Chains
- Political Geography:
- Europe, Eurasia, Lithuania, and United States of America
24. Indigenous Peoples and Climate Justice in the Arctic
- Author:
- Shaugn Coggins and James D. Ford
- Publication Date:
- 02-2021
- Content Type:
- Special Report
- Institution:
- Georgetown Journal of International Affairs
- Abstract:
- Arctic regions are experiencing transformative climate change impacts. This article examines the justice implications of these changes for Indigenous Peoples, arguing that it is the intersection of climate change with pronounced inequalities, land dispossession, and colonization that creates climate injustice in many instances.
- Topic:
- Climate Change, Energy Policy, Environment, Poverty, Culture, Income Inequality, Justice, Indigenous, and Sustainability
- Political Geography:
- Arctic
25. The Harmonization of Russian and Abkhazian legislations and Its Significance for the Abkhazian Society and Official Tbilisi
- Author:
- Aleksandre Kvakhadze
- Publication Date:
- 01-2021
- Content Type:
- Special Report
- Institution:
- Georgian Foundation for Strategic International Studies -GFSIS
- Abstract:
- On November 25, 2020, a document titled "Plan of measures for the formation of a common socio-economic space between the Russian Federation and Abkhazia" was published on the government websites of the Russian Federation and internet resources belonging to the unrecognized Abkhazia. The document was signed by Aslan Bzhania, the de facto president of Abkhazia, Alexander Ankvab, the prime minister, and Dimitri Kozak, the deputy head of the Russian presidential administration. The document consists of 45 paragraphs and covers issues such as customs and tax legislation, energy, healthcare, education, social security, economy and real estate. Alongside every paragraph in the document, the relevant responsible agency and the estimated years of its implementation is indicated. Most of the agreement provisions entail the harmonization of the legislations of Russia and Abkhazia. This document is a logical continuation of the recognition of Abkhazia's sovereignty by Russia in 2008, and the subsequent agreements. Notable among these agreements is the 2014 "Alliance and Integration Agreement", which, among many other clauses, includes the transfer of command of Abkhazia's de facto armed forces to the Russian General Staff. The aforementioned document was met with mixed assessment in Abkhazian political circles and media. Inal Khashig, a journalist and editor-in-chief of the “Chegemskaya Pravda” newspaper, positively assesses the prospect of an increase in pensions and budget salaries under the agreement, but is wary of a number of points in the document.
- Topic:
- Energy Policy, Government, Governance, Legislation, and Society
- Political Geography:
- Russia, Caucasus, Georgia, and Abkhazia
26. The Role of Corporate Renewable Power Purchase Agreements in Supporting US Wind and Solar Deployment
- Author:
- James Kobus and Ali Nasrallah
- Publication Date:
- 03-2021
- Content Type:
- Special Report
- Institution:
- Center on Global Energy Policy (CGEP), Columbia University
- Abstract:
- In recent years, many of the world’s biggest corporations, including Google, Facebook, Microsoft, and Apple, have pledged to power their businesses with increasing amounts of renewable energy in order to reduce their carbon footprints and contribute to efforts to address climate change. Such efforts have had an encouraging impact on US power sector decarbonization, with a material and increasing share of US wind and solar deployments now driven by the procurement preferences of corporate customers. The vast majority of corporate procurement of renewable energy has been secured via power purchase agreements (PPAs). Going forward, a wider universe of companies is expected to look to such PPA agreements as a means of contributing to a low-carbon future, raising the question of how substantial these initiatives might be in supporting the overall transition to zero-carbon electricity. Indeed, a number of positive underlying trends are likely to facilitate continued growth in the corporate renewables PPA market. For example, electricity demand in the technology sector continues to grow rapidly, while renewables PPA penetration in the commercial and industrial sectors more broadly remains low, with room to grow. Additionally, expectations of continued declines in the costs of solar and wind technologies are likely to facilitate more procurement. Lastly, US companies are facing increased pressure from customers, employees, and institutional investors to improve their greenhouse gas emissions profiles. At the same time, certain factors may constrain the size of the PPA market, such as market regulations that limit the feasibility of PPAs in certain regions and the need for renewable PPA prices to be competitive relative to wholesale power prices. Scale and creditworthiness requirements can also limit the universe of potential corporate buyers, and the financial risks brought about when signing long-term contracts may further deter some market participants. Finally, companies increasingly have alternative emission reduction mechanisms at their disposal, such as renewables energy credits (RECs), carbon offsets, and green tariff programs. This student-led paper, from the Power Sector and Renewables Research Initiative at Columbia University’s Center on Global Energy Policy, explores the drivers influencing the renewables PPA market and assesses whether these procurement initiatives by nonutility corporations are likely to continue growing in the United States at a rapid enough pace to support power sector deep decarbonization goals. The analysis finds that while robust private sector participation in recent years has been encouraging, the potential market size going forward may be smaller than previously projected, highlighting the need for comprehensive policy frameworks to support power sector decarbonization.
- Topic:
- Energy Policy, Renewable Energy, Wind Power, and Solar Power
- Political Geography:
- North America and United States of America
27. Investing in the US Natural Gas Pipeline System to Support Net-Zero Targets
- Author:
- Erin Blanton, Melissa Lott, and Kristin Smith
- Publication Date:
- 04-2021
- Content Type:
- Special Report
- Institution:
- Center on Global Energy Policy (CGEP), Columbia University
- Abstract:
- The Biden administration’s move to bring the United States back into the Paris Agreement and lower greenhouse gas emissions to address climate change will, if carried through, lead to a reduction in fossil fuel consumption. Cutting back on the burning of coal, oil, and natural gas will be critical to transitioning the country to the lower-carbon energy system it needs to achieve decarbonization targets. But while it may seem counterintuitive, investing more in the domestic natural gas pipeline network could help the US reach net-zero emission goals more quickly and cheaply. Fortifying and upgrading the system could prepare the existing infrastructure to transport zero-carbon fuels as they become available and, in the meantime, reduce harmful methane leaks from natural gas. Studies by energy agencies, universities, and the industry that model future US natural gas consumption consistently show continued use of natural gas for at least the next 30 years, even in scenarios where the country achieves net-zero targets by midcentury. There is no quick replacement for gas in the US energy mix. And for many of the needs natural gas currently meets, the eventual replacement may be zero-carbon gaseous fuels (e.g., hydrogen, biogas). These fuels may play a significant role in supporting reliability and making the energy transition more affordable—but they, too, will require a pipeline network for efficient delivery to markets and end users. Building new pipelines is a time-consuming and costly process, especially when added to all the other infrastructure needs associated with the energy transition. When possible, adjusting existing infrastructure—already permitted and built—can help minimize the costs and accelerate the speed of the transition. The US has 2.5 million miles of natural gas pipeline infrastructure across the country, which, with investment, could be upgraded to cut emissions and be retrofitted for future transport of cleaner fuels. However, investments in pipeline infrastructure have drawn concern that they would lock fossil fuels into the US energy mix for a longer period of time and work against the energy transition. Such concerns are understandable given the contribution of fossil fuels to the global climate crisis. But retrofitting and otherwise improving the existing pipeline system are not a choice between natural gas and electrification or between fossil fuels and zero-carbon fuels. Rather, these investments in existing infrastructure can support a pathway toward wider storage and delivery of cleaner and increasingly low-carbon gases while lowering the overall cost of the transition and ensuring reliability across the energy system. In the same way that the electric grid allows for increasingly low-carbon electrons to be transported, the natural gas grid should be viewed as a way to enable increasingly low-carbon molecules to be transported. This paper, part of the work by Columbia University’s Center on Global Energy Policy on natural gas and the energy transition, examines projections of continued natural gas use and the zero-carbon fuels that are poised to become a bigger part of the energy mix. It details the state of the existing US natural gas pipeline network and trends within this segment of the market, as well as technical considerations for moving new, zero-carbon fuels through the system. The findings, combined with potential net-zero goals, lead to recommendations for curbing greenhouse gas emissions caused by leakage in the existing network, as well as opportunities to refurbish sections to carry increasing levels of cleaner fuels. It focuses on policy options that will minimize environmental impacts and maximize economic benefits. These options fall into two main categories: changing regulations on methane leak detection and repair to make the existing pipeline network as low emissions as possible while it still transports natural gas, and expanding on existing regulatory authority to allow for retrofitting the system for more hydrogen usage, along with increased R&D funding to test the integrity of the pipeline system with greater levels of hydrogen and other zero-carbon fuels.
- Topic:
- Energy Policy, Natural Resources, Gas, and Energy Dependence
- Political Geography:
- North America and United States of America
28. Opportunities and Limits of CO2 Recycling in a Circular Carbon Economy: Techno-economics, Critical Infrastructure Needs, and Policy Priorities
- Author:
- Amar Bhardwaj, Colin McCormick, and Julio Friedmann
- Publication Date:
- 05-2021
- Content Type:
- Special Report
- Institution:
- Center on Global Energy Policy (CGEP), Columbia University
- Abstract:
- Despite growing efforts to drastically cut carbon dioxide (CO2) emissions and address climate change, energy outlooks project that the world will continue to rely on certain products that are currently carbon-intensive to produce but have limited alternatives, such as aviation fuels and concrete. Recycling CO2 into valuable chemicals, fuels, and materials has emerged as an opportunity to reduce the emissions of these products. In this way, CO2 recycling is a potential cornerstone of a circular carbon economy that can support a net-zero future. However, CO2 recycling processes have largely remained costly and difficult to deploy, underscoring the need for supportive policies informed by analysis of the current state and future challenges of CO2 recycling. This report, part of the Carbon Management Research Initiative at Columbia University’s Center on Global Policy, examines 19 CO2 recycling pathways to understand the opportunities and the technical and economic limits of CO2 recycling products gaining market entry and reaching global scale. The pathways studied consume renewable (low-carbon) electricity and use chemical feedstocks derived from electrochemical pathways powered by renewable energy. Across these CO2 recycling pathways, the authors evaluated current globally representative production costs, sensitivities to cost drivers, carbon abatement potential, critical infrastructure and feedstock needs, and the effect of subsidies. Based on this analysis, the paper concludes with targeted policy recommendations to support CO2 recycling innovation and deployment.
- Topic:
- Economics, Energy Policy, Infrastructure, Carbon Emissions, and Decarbonization
- Political Geography:
- Global Focus
29. Will COVID Drive an Early Peak in Transportation Activity and Oil Demand?
- Author:
- Marianne Kah, Lew Fulton, Amy Myers Jaffe, Mark Schwartz, and Mark Finley
- Publication Date:
- 06-2021
- Content Type:
- Special Report
- Institution:
- Center on Global Energy Policy (CGEP), Columbia University
- Abstract:
- A critical question to emerge from the oil demand crash in 2020 caused by the global pandemic is whether it marked the beginning of an inexorable decline in consumption of the fossil fuel that could significantly speed up government efforts to meet net zero carbon targets. The changes in government policy, technology, consumer behavior, and shipping during COVID-19 have been profound. Electric vehicle sales increased in a number of countries, while overall automobile sales declined. The use of digital technology accelerated with a sharp rise in telecommuting, teleshopping, and teleconferencing, cutting into transportation oil use primarily in passenger and air travel. However, some aspects of the COVID experience increased oil use. There was significant substitution away from mass transit to greater use of personal vehicles and there is some evidence that people left large cities in the United States for the suburbs and smaller cities where there is less mass transit available and people drive more for non-commuting activities. There was also a large increase in e-commerce deliveries in the US and other nations that buoyed short-haul truck vehicle miles traveled. While unrelated to transportation, there was also an increase during COVID in petrochemicals used for personal protection equipment and packaging for take-out food and e-commerce deliveries. Because of fossil fuels’ greenhouse gas emissions, understanding how oil demand might return and when it could peak will be factors in governments’ strategies for addressing climate change. In the summer and fall of 2020, Columbia University’s Center on Global Energy Policy and the University of California, Davis Institute for Transportation Studies (ITS-Davis) conducted an oil demand scenario study out to 2030. The goal was to understand how COVID, in combination with other political, economic, social, and technological drivers, may impact long-term transportation activity and global oil demand and to try to determine whether oil demand has already peaked. Forty-four leading energy and transportation experts developed four scenarios that varied by the pace of economic recovery, the level of government intervention in energy markets, and the stickiness in the mobility trends that were set in motion during the 2020 pandemic lockdowns. ITS-Davis then modeled the impacts of these scenarios on transportation energy and oil use. Other sectors less impacted by COVID were modeled with lesser detail. Global oil demand grows through 2030 in three out of the report’s four scenarios, which is generally in line with forecasts by agencies such as the International Energy Agency and others for that period. The one scenario that bucks the trend, named Forced Revitalization, is characterized by strong government intervention in green stimulus, acceleration of digital mobility technologies, and a slower economic recovery—the result being oil demand falling after 2025. The greater competitiveness of alternative fuels and the weaker economy in that scenario contribute to lower oil use overall. The study finds that while great uncertainty remains about the speed and strength of the world’s recovery from COVID, the current state of government climate policies and technology innovation are unlikely to reduce global oil demand fast enough to help the world keep within a 1.5°C temperature rise along the net zero carbon trajectory. Both government climate policies and technology innovation would need to move well beyond what was contemplated in this study’s scenarios.
- Topic:
- Energy Policy, Oil, Natural Resources, Infrastructure, Transportation, Pandemic, and COVID-19
- Political Geography:
- North America and United States of America
30. Evaluating Net-Zero Industrial Hubs in the United States: A Case Study of Houston
- Author:
- Julio Friedman, Mahak Agrawal, and Amar Bhardwaj
- Publication Date:
- 06-2021
- Content Type:
- Special Report
- Institution:
- Center on Global Energy Policy (CGEP), Columbia University
- Abstract:
- New legislation, corporate action, and public interest have created both an imperative and opportunities associated with rapid and profound CO2 reduction and removal. Net-zero industrial hubs present a pathway to focus investment, innovation, and public policy to create industries and infrastructure toward achieving that goal. Such a hub would require building facilities, plants, and linked infrastructure that would reduce and eventually eliminate greenhouse gas emissions through the application of advanced clean energy, emissions control technology, and possibly CO2 removal technology. This concept, while relatively new, has already gained interest from some nations and companies, most notably in the United Kingdom around net-zero hubs like the Teesside collective. This paper, part of the work from the Carbon Management Research Initiative of Columbia University’s Center on Global Energy Policy, examines Houston as a potential net-zero hub location. Houston, a major US refining and petrochemical center, possesses a high concentration of industrial sites and fossil-fueled power plants. Regional CO2 storage capacity, low-cost energy, infrastructure like the Port of Houston, and a large skilled labor pool also suggest a possible opportunity for investment, trade, and greenhouse gas reduction in this area. The paper also makes recommendations for policy makers should they seek to pursue a net-zero hub in the Houston area.
- Topic:
- Energy Policy, Industry, Carbon Emissions, and Energy Dependence
- Political Geography:
- North America and United States of America
31. Getting to 30-60: How China’s Biggest Coal Power, Cement, and Steel Corporations Are Responding to National Decarbonization Pledges
- Author:
- Edmund Downie
- Publication Date:
- 08-2021
- Content Type:
- Special Report
- Institution:
- Center on Global Energy Policy (CGEP), Columbia University
- Abstract:
- In September 2020, China announced its intentions to peak carbon emissions by 2030 and achieve carbon neutrality by 2060. The neutrality goal in particular was a breakthrough for global climate ambitions: a net-zero target from the world’s largest emitter, responsible for around one-quarter of global greenhouse gas (GHG) emissions. The two new goals—referred to in Chinese policy discourse as the “30-60” goals—are not China’s first public targets on GHG reduction. They are, however, the centerpieces of a new Chinese climate policy in which GHG cuts are a standalone goal rather than an ancillary benefit of more immediate priorities like energy efficiency and industrial upgrading. Prior approaches had required little engagement from firms in carbon management. Indeed, none of the largest Chinese firms in the coal power, cement, and steel sectors had publicized quantitative targets for reducing or controlling carbon emissions before the government announced the 30-60 goals. They faced little pressure to do so; authorities pressed firms in climate-adjacent areas like reducing air pollution rather than carbon management. The 30-60 announcement appears to mark a break from this era, forcing firms to adjust accordingly. This report, part of the China Energy and Climate Program at Columbia University’s Center on Global Energy Policy, assesses how China’s high-emitting industries have responded to the 30-60 targets and the accompanying elevation of climate within national policy priorities. It focuses on corporate and sectoral emissions reduction targets through June 2021 among 30 major firms in three of China’s largest sources of direct emissions: coal power generation, cement, and steel.
- Topic:
- Energy Policy, Natural Resources, Infrastructure, Coal, Industry, and Decarbonization
- Political Geography:
- China and Asia
32. Oil Intensity: The Curiously Steady Decline of Oil in GDP
- Author:
- Christof Ruhl and Titus Erker
- Publication Date:
- 09-2021
- Content Type:
- Special Report
- Institution:
- Center on Global Energy Policy (CGEP), Columbia University
- Abstract:
- Oil is the largest primary fuel, and the trajectory of oil consumption is of great concern and consequence for economic, political, and, not least, for climate change reasons. Anticipating oil prices and production from year to year is not easy; identifying even basic ingredients of aggregate demand and supply schedules, such as price or income elasticities, is notoriously difficult. It’s an additional challenge to model the structure of a market that sometimes appears to be highly cartelized, and at other times populated by a large flock of peaceful price takers. But a remarkably steady metric—and possible tool for projecting consumption into the future—has been identified in this paper: oil intensity. Oil intensity is the volume of oil consumed per unit of gross domestic product (GDP). Measured simply in barrels per dollar, it is often viewed as a broad measure of oil efficiency; it certainly demonstrates the importance of oil in a society. The efficiency of oil use has improved, in other words oil intensity has declined, over the years and decades. In 1973, for example, when oil intensity was at its zenith, the world used a little less than one barrel of oil to produce $1,000 worth of GDP (2015 prices). By 2019 (the last data set before Covid) global oil intensity was 0.43 barrel per $1,000 of global GDP—a 56% decline. Oil has become a lot less important and humanity has become more efficient in making use of it. What is worth a closer look, and is the focus of this paper reporting on oil and gas related research at Columbia University’s Center on Global Energy Policy, is the pattern by which this progress has been achieved. Since 1984, oil intensity has fallen every year in an almost perfectly linear fashion: the amount of oil used per dollar of global GDP has dropped by roughly the same amount each year. Wars and revolutions, booms and busts, OPEC successes and failures, and every other monumental event in the last 35 years left their imprint on oil markets but didn’t alter oil intensity’s steady, downward crawl. This kind of regularity is very rare in any long-time trend, in economics or in energy. Although oil intensity isn’t a new topic, an attempt to explain its curiously consistent downward progress—or even any discussion about it—is hard to find in the literature. For this paper, the authors explain the trend and cross-validate its predictive potential before delving into possible reasons behind the linear decline in oil intensity. It finally extrapolates what such a continuing trend might mean for oil consumption and policies around it going forward.
- Topic:
- Economics, Energy Policy, Oil, Natural Resources, and GDP
- Political Geography:
- Global Focus
33. Green Giants? China’s National Oil Companies Prepare for the Energy Transition
- Author:
- Erica Downs
- Publication Date:
- 09-2021
- Content Type:
- Special Report
- Institution:
- Center on Global Energy Policy (CGEP), Columbia University
- Abstract:
- On September 22, 2020, China’s leader, Xi Jinping, made a surprise announcement about China’s climate ambitions during remarks to the United Nations General Assembly. He stated that China, the world’s largest emitter of greenhouse gases (GHGs), aims to achieve carbon neutrality before 2060. Xi also said that China’s GHG emissions would peak before 2030, a slight revision to China’s pledge under the Paris Climate Agreement to peak emissions around 2030. China’s new climate targets spurred the country’s three major national oil companies (NOCs)—China National Petroleum Corporation (CNPC), China Petrochemical Corporation (Sinopec Group), and China National Offshore Oil Corporation (CNOOC)—to strengthen their climate ambitions. PetroChina (the flagship subsidiary of CNPC), which had already set a goal of achieving near-zero emissions by 2050, intends to peak its carbon emissions by 2025. Sinopec Corp. (the flagship subsidiary of Sinopec Group) also aims to peak its carbon emissions by 2025 and to achieve carbon neutrality by 2050. CNOOC Ltd. (the flagship subsidiary of CNOOC) plans to reduce its GHG emissions by 16 percent between 2020 and 2025 and aims to peak its carbon emissions before 2030 and achieve carbon neutrality before 2060. This report, part of the China Energy and Climate Program at Columbia University’s Center on Global Energy Policy, provides a baseline for understanding how China’s NOCs are responding to climate change. It examines the activities the three companies identified as part of their emerging energy transition strategies before Xi unveiled the carbon peaking and carbon neutrality targets, and why they didn’t do more. The report then assesses the implications of China’s new climate ambitions for its NOCs and lays out their preparations to date for supporting Xi’s 2030 and 2060 pledges.
- Topic:
- Energy Policy, Oil, Natural Resources, Infrastructure, and Green Technology
- Political Geography:
- China and Asia
34. Advancing Corporate Procurement of Zero-Carbon Electricity in the United States: Moving from RE100 to ZC100
- Author:
- Melissa Lott and Bruce Phillips
- Publication Date:
- 12-2021
- Content Type:
- Special Report
- Institution:
- Center on Global Energy Policy (CGEP), Columbia University
- Abstract:
- Corporate pledges to purchase renewable electricity have led to significant new solar and wind capacity investments and driven down the carbon intensity of the power sector in the United States. Participating companies have increasingly procured this power, many with a goal of procuring quantities that are equal or proportional to the amount of electricity that they consume at their facilities on an annual basis.[1] Corporate buyers can reap many benefits from renewables procurement, including hedging against power price fluctuations and enjoying positive brand association, helping them meet shareholder demands around climate or other environmental, social, and governance (ESG) goals. However, the reality is that commitments to buy 100 percent renewable electricity may not equate to a company actually reducing its power carbon footprint to zero. This report from Columbia University’s Center on Global Energy Policy quantifies the mismatch between companies’ contracted variable renewable electricity (VRE) and their actual use of electricity to highlight the degree to which these companies still rely on a partially fossil-fueled power grid to bridge the gap. A modeling exercise and analysis done in collaboration with The NorthBridge Group reveals a significant shortfall between electricity demand and VRE supply, leaving companies that contract for 100 percent renewables to in fact draw between 20 percent and 50 percent[2] of their annual electricity from the regional electric grid, depending on their location, demand profile, and mix of contracted renewable supplies. This disparity presents a number of challenges to corporations that wish to achieve deep decarbonization and are unable to curtail operations to match renewable energy supplies. There are several approaches to get closer to a true zero-carbon power footprint. Installing storage capacity either on-site or at the power plant to provide stored electricity when renewables are not sufficient, such as with a battery,[3] is one option. However, this only reduces the minimum shortfall by half, requiring a customer to continue to rely on electricity from the regional electric grid for 10 percent to 28 percent of its annual load.[4] Resolving the shortfall by procuring extra renewable power (e.g., to 150 percent of annual electricity demand with renewables) can drive costs up substantially without closing the gap.
- Topic:
- Climate Change, Energy Policy, Environment, Green Technology, Carbon Emissions, and Decarbonization
- Political Geography:
- North America and United States of America
35. Oil or Nothing: Dealing with South Sudan’s Bleeding Finances
- Author:
- International Crisis Group
- Publication Date:
- 10-2021
- Content Type:
- Special Report
- Institution:
- International Crisis Group
- Abstract:
- Upon South Sudan’s independence in 2011, many hoped the country’s oil wealth would help build the state and lift citizens out of poverty. Instead, politicians have shunted these revenues toward patronage and personal enrichment, feeding internal conflict. Transparency and accountability are badly needed.
- Topic:
- Energy Policy, Oil, Natural Resources, and Fossil Fuels
- Political Geography:
- Africa and South Sudan
36. Stemming the Insurrection in Mozambique’s Cabo Delgado
- Author:
- International Crisis Group
- Publication Date:
- 06-2021
- Content Type:
- Special Report
- Institution:
- International Crisis Group
- Abstract:
- Deadly conflict in Mozambique’s ruby- and natural gas-rich northernmost coastal province feeds on a mix of colonial-era tensions, inequality and Islamist militancy. To tame the insurrection, Maputo needs to use force, with bespoke assistance from outside partners, and to carefully address underlying grievances.
- Topic:
- Energy Policy, Natural Resources, Inequality, and Insurrection
- Political Geography:
- Africa and Mozambique
37. The Automotive Industry: The Achilles’ Heel of German Economy?
- Author:
- Marie Krpata
- Publication Date:
- 03-2021
- Content Type:
- Special Report
- Institution:
- Institut français des relations internationales (IFRI)
- Abstract:
- The global car market has been shrinking since 2018. This is a key economic sector for Germany whose producers belong to the Top 15 carmakers worldwide. Yet they are running the risk of being outclassed and eventually replaced, given emerging actors in the USA and China. These new competitors benefit from the growing digitization of the mobility sector, disruptive economic models and the obsolescence of vehicles with an internal combustion engine. This form of propulsion is progressively being replaced by less-polluting alternatives, which are being endorsed by public authorities. The Chinese-American rivalry is also impacting German carmakers, whose strategy greatly relies on the globalization of production chains. This has led to major successes in the past, but the threat of a technological decoupling between the USA and China limits German carmakers’ activities in terms of production and exports. Access to the Chinese market, which accounts for nearly 20% of the global population, is indispensable for the German brands that intend to benefit from China’s catch-up effects. European industrial and political actors plan to invest in promising sectors whilst seeking to respect environmental and social objectives. Also, the European Union (EU), led by a German powerhouse, intends to prevent market distortions such as hurdles to market access, while supporting the emergence of technologies and the compliance with production standards. However, developments in the automotive sector are challenging the EU’s capacity to act in a unified fashion, even if the EU is not seeking to impose its vision on the industry’s private sector, in a top-down manner.
- Topic:
- Climate Change, Economics, Energy Policy, Industrial Policy, European Union, Social Policy, Mobility, Industrialization, Green Deal, and Automotive Industry
- Political Geography:
- Europe and Germany
38. Denmark: A Case Study for a Climate-Neutral Europe
- Author:
- Thibault Menu
- Publication Date:
- 04-2021
- Content Type:
- Special Report
- Institution:
- Institut français des relations internationales (IFRI)
- Abstract:
- In recent years, Denmark has steadily emerged as a leader and role model in the global green energy transition. Its greenhouse gas (GHG) emissions since 2010 have been reduced at greater pace than those of the European Union (EU) average. This transformation is all the more impressive, given that the country used to be a significant oil and gas producer which also relied heavily on coal for power generation. From its highly publicized success in offshore wind, to its ambitious goal of cutting GHG emissions by 70% by 2030 - which would put Denmark as a European and global frontrunner, with only Finland being more ambitious and planning to be climate neutral already by 2035 – as well as its pioneering green energy policies, the country has transformed itself into a beacon for low carbon technologies and public policies. The country has a record high share of renewable energy sources in power generation, with wind in the lead. Given the recent announcements and climate goals set by the Von der Leyen Commission, Denmark serves as an interesting case study for other European and world nations alike on how to embark on their own energy transitions. This paper assesses whether the country is really successful in accelerating even more than its European peers in its decarbonization process. And if so, what is so special about Denmark and what can be learned from its transformation? Policies range from well-publicized successes, such as the country’s ability to nearly rid itself from coal in its power mix in less than thirty years by increasingly developing its wind power potential, in leading the offshore wind segment and championing repowering, but also its lesser-known achievements, such as the diffusion of combined heat and power (CHP) and district heating across the country. Another success point of the country’s strategy relies in promoting energy efficiency in the industrial sector as well as its use of energy taxation for enhanced decarbonization, even in challenging sectors such as transportation. Questions remain open, especially concerning the sustainability credentials of biomass, a fuel which is a key component of the country’s energy mix, but also the future role of natural gas, which has an important balancing role in power generation, given the country decision to rid itself of oil and gas (O&G) production by the middle of the century. To a large extent, the Danish success story so far can be linked to a combination of socio-political factors including: a high level of stability and predictability in energy policy stemming from Denmark’s long historical tradition of broad energy agreements, a cross-sectoral and holistic approach to developing the nation’s energy policy involving a high level of participation from various public and private actors, a willingness to back innovative technologies, combined with generous public policy schemes in order to bring them to market-level competitiveness. Next frontiers will consist of large-scale carbon capture and sequestration projects, as well as low carbon energy islands. However, it would be somewhat reductive to simply equate Denmark’s success story to these previously mentioned factors. Indeed, the Scandinavian nation also benefits from certain geographical dispositions which are great assets for its path to decarbonization. For one, the country is ideally placed to develop variable renewable energy sources, most notably wind power given its topography and its strong wind resources. On top of this, Denmark also benefits from an incredibly reliable and interconnected power grid thereby making renewable energy integration into the wide energy system all the easier. In addition, the fact that its power grid is one of the most interconnected in Europe entails that excess renewable energy production can quickly be exported when the wind blows, just as imports can hastily be called upon when wind is found to be lacking. Finally, from a more socio-political perspective, the relatively flat social structure of Danish society as well as the country’s high level of institutional trust, makes policymaking and policy implementation simpler as well as more effective than in other European states. As such, although this paper identifies important lessons to be learnt from Denmark’s decarbonization strategies, the context as well as the particular characteristics of the country in which these were implemented should nevertheless be considered when seeking to establish similarly successful carbon reduction policies. In any case, Denmark is still far from coming close to achieving its objectives and will have to accelerate its decarbonization on all fronts: the country’s current total primary energy supply still relies for 60% on fossil fuels.
- Topic:
- Climate Change, Energy Policy, Decarbonization, and Green Deal
- Political Geography:
- Europe and Denmark
39. Acceleration of Climate Policy and the Energy Transformation in Slovakia
- Author:
- Łukasz Ogrodnik
- Publication Date:
- 07-2021
- Content Type:
- Special Report
- Institution:
- The Polish Institute of International Affairs
- Abstract:
- The Eduard Heger government wants to increase the production of energy from renewable sources and nuclear energy. This is evidenced among others by the preparations for the commissioning of two new units of the Mochovce nuclear power plant. Although Visegrad Group states include pronouncements they plan to use nuclear power in their national energy mixes, the difference in those mixes limits the possibilities of formulating regional climate policy and results in a lack of coherence on the EU forum. Hydrogen fuel, the use of which is growing in Slovakia, also remains an untapped potential for regional cooperation.
- Topic:
- Climate Change, Energy Policy, Government, Nuclear Power, and European Union
- Political Geography:
- Central Europe and Slovakia
40. Transnational Threats (Syllabus Resource)
- Author:
- Georgetown Journal of International Affairs
- Publication Date:
- 02-2021
- Content Type:
- Special Report
- Institution:
- Georgetown Institute for Women, Peace and Security (GIWPS)
- Abstract:
- The following is material to consider for your syllabus. Specifically, there is: Climate Change and Environment, Displacement, Energy Policy and Security, Global Health Security and Pandemics, Globalization and Demographic Trends, Water Politics and Water Scarcity. Scholarly writing on transnational threats written by diverse scholars and experts. Scholarly writing providing geographic variety and geographically varied perspectives. Studies and analyses examining diversity, equity and inclusion-related dimensions of transnational threats.
- Topic:
- Security, Climate Change, Demographics, Energy Policy, Environment, Globalization, Water, Displacement, Pandemic, and Global Health
- Political Geography:
- Global Focus