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2. 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
3. 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
4. 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
5. 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
6. 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
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