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Denmark is moving convincingly on decarbonisation

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Denmark remains a global leader in decarbonising its economy and is on track to meet its ambitious goal of becoming a low-carbon economy by the middle of the century, according to the International Energy Agency’s latest reviews of the country’s energy policies.

Denmark has a long tradition of setting ambitious national energy targets, based on nation-wide Energy Agreements. In 2030, it aims for renewables to cover at least half of the country’s total energy consumption. By 2050, Denmark aims to be a low-carbon society independent of fossil fuels. The IEA’s latest review of Denmark’s energy policies finds it is moving convincingly to meet these world-leading targets.

The growing share of wind power creates new challenges and opportunities for the Danish electricity and heating sectors, as well as for end-use sectors such as transport, buildings and industry. This review of Denmark’s energy policy has a special focus on two interrelated issues: how to increase the share of renewables in the power system beyond its current share of 45%, and how to decarbonise the heating sector. These two areas are critical for further advancing decarbonisation in Denmark and they also offer an attractive potential for energy system integration. The report also offers a series of recommendations.

Electricity generation in Denmark has changed fundamentally over the past two decades. Coal generation has been steadily replaced, and the bulk of power generation now comes from wind and bioenergy. Since the previous in-depth review in 2011, Denmark has made impressive progress towards decarbonising its energy sector while maintaining robust security of supply. Denmark’s energy intensity and carbon intensity are among the lowest of all IEA member countries.

The country has also become a world leader in system integration of variable renewable energy (VRE); it has the highest share of wind power in electricity generation, and electricity supply is stable and secure at both transmission and distribution levels. Denmark is also among the global leaders in using energy-efficient technologies, including combined heat and power (CHP), which provides half the electricity and two-thirds of heat sold in the country.

“It is highly encouraging to see that wind power is becoming market competitive,” said Paul Simons, the IEA Deputy Executive Director, who presented the report in Denmark. “Tapping into the large offshore wind resource will help Denmark decarbonise even further.”

“Denmark is now widely recognised as a global leader in integrating variable renewable energy while at the same time maintaining a highly reliable and secure electricity system, thanks to a flexible domestic power system and a high level of cross-border connections,” said Mr Simons.

The heating sector is also critical for Denmark’s low-carbon ambitions. Denmark is already switching from coal to biomass in district heating, and is favouring renewables over oil and natural gas in individual heating. These trends will have to continue in order for Denmark to meet its targets.

Denmark’s large-scale use of combined heat and power plants with heat storage capacity, and the increasing deployment of wind power offer great potential for efficient integration of heat and electricity systems, for example through large heat pumps. Smart policies and measures are essential to realise that potential at least cost. Finding the right levels of taxation for fuels and electricity is particularly important.

Energy-related CO2 emissions are declining overall, thanks to a combination of energy efficiency improvements and fuel switching to renewables. As in all countries, more needs to be done to limit emissions from transport. 

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Indonesia’s contribution in renewables through Rare Earth Metals

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The increasing of technological advances, the needs of each country are increasing. The discovery of innovations, the production of goods that are increasing, and renewing energy in a country. It causes countries to desperately need an adequate supply of energy to meet these needs. Energy especially mineral is important in the manufacture of raw materials for an electronic product or can be used as a raw material for realizing renewable energy. Entering the Covid-19 Pandemic, the demand for electronic goods is increasing because, amid a pandemic, people spend more time at home and use digital goods in conducting transactions, using electronic devices, both those used in households such as televisions, refrigerators, induction cookers, washing machines as well as those things we use every day, such as cellphones, laptops and other electronic devices that can accompany people’s daily activities during the pandemic. Besides being able to be used as raw material for making electronic goods, energy, especially Mineral Resources, it can also contribute to realizing the renewable energy in the world, which is the increasing greenhouse gas emissions which will have an impact on the environment and will worsen the environmental, social conditions and Worsening human health is caused by CO2 gas released into the air. Based on data from the World Meteorological Organization (WMO) explained that the concentration of greenhouse gas emissions in the atmosphere increased and reached a record high last year. Therefore, the supply of Mineral Resources is important in a country to meet human needs and realize renewable energy in the future. The Geological Agency of the Indonesian Ministry of Energy and Mineral Resources revealed that Rare Earth Metals were found in a Lapindo mud located in Sidoarjo, East Java, Indonesia. (Murdaningsih, 2021) Rare Earth Metal is one of the minerals that have very important content to be used as raw materials for the manufacture of electronic goods, electric vehicles, and as an energy that can be used as a source of realizing renewable energy. Currently, the world’s largest reserves of Rare Earth Metals are in China, which is the main producer of Rare Earth Metals in the world followed by the United States, Australia, and India (Potential of Rare Earth Metals in Indonesia, 2019). The discovery of rare earth metals in Indonesia can be maximized by Indonesia to take advantage of this invention. Maximizing a Rare Earth Metal can be done to meet the needs of society, especially to meet the supply of electronic goods in a country, and participate in producing Rare Earth Metals in the world to maximize international cooperation both in terms of cooperation to meet electronic products, as well as mutual fulfillment the need to work together in realizing the renewable energy in the world.

Based on data from the Indonesian Central Statistics Agency, it explains that China is still becoming the biggest partner to export telecommunication equipment to Indonesia with an amount of US$ 5,002.8 in 2020 (Central Bureau of Statistics, 2021). Not only telecommunications equipment, but Indonesia is also imports machinery for industrial purposes as much as 757.1 tons (Central Bureau of Statistics, 2021). Therefore, this data shows that Indonesia is still completely dependent on China in importing electronic products as well as products for industrial purposes. To minimize this dependence, Rare Earth Metals can be used as a strategy by Indonesia to participate in producing local electronic goods, as well as a reserve energy source in a country. Indonesia can maximize its diplomatic strategy to cooperate with other countries, such as opening a raw material processing industry by bringing in technologies from other countries to manage raw materials to semi-finished materials or finished products. this strategy can be used by Indonesia to maximize its resources and improve Indonesia’s performance so that it is better in the future and can produce its products without having to import from other countries. Electronic devices will always be updated for the sake of updating to be able to keep up with the growing era of globalization. This causes the technology industry market to become one of the most influential for the economy of a country. The electronics industry facing an increase in raw material prices which causes pressure on prices for finished products to also increase. Secretary-General of the Association of Electronic Entrepreneurs (Gabel) Daniel Suhardiman, said that the increase in raw material prices is continuing to soar due to the scarcity of chip or semiconductor components due to the high demand for the technology industry (Ayu, 2021). The high level of use of electronic devices in daily life will have an impact on the high market demand for the technology industry, so the technology industry must be very careful in dealing with the supply of raw materials.

In addition to Rare Earth Metals which have the potential to meet the supply of raw materials for the manufacture of electronic goods, on the other hand, Rare Earth Metals greatly contribute to assisting in implementing renewable energy in the future. Which is realizing renewable energy in a country is increasingly being carried out by the world caused by increasing greenhouse gas emissions that have an impact on the environment. Based on data from the World Meteorological Organization (WMO) explained that the concentration of greenhouse gases reached a new high. which has levels of carbon dioxide (CO2) released into the air as much as 413.2 parts per million (ppm), methane (CH4) at 1,889 parts per billion (ppb)) and nitrous oxide (N2O) at 333.2 ppb and the increase has continued in 2021 (World Meteorological Organization, 2021). Rare Earth Metals contain minerals in the form of Monazite, Xenotime, and Zircon (Alkalis, 2021). Where these mineral sources can contribute to realizing renewable energy in developing electric vehicles because Rare Earth Metals can also be used as the main raw material for making electric vehicle batteries. The discovery of Rare Earth Metals in Indonesia can also be an opportunity for Indonesia to contribute to realizing a balance in the supply of electronic goods in the world and contribute to realizing the world’s renewable energy in the future.

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Libya’s Energy Puzzle: Every Challenge is an Opportunity

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Libya’s energy sector remains divided between two authorities, the National Oil Corporation (NOC) and the Petroleum Facilities Guard, and three governments namely the House of Representatives in Tobruk, the General National Congress and the Presidential Council in Tripoli. Failure to conduct a fair and expedient election in late December 2021 is expected to prolong division of Libya’s oil wealth between East and West. This would cement the presence of foreign powers and mercenaries in and around Libyan oil and gas installations.

The country’s oil and gas reserves are estimated at approximately 48 billion barrels of crude oil and 52 trillion cubic feet of gas. Libya’s oil production was 1.3 million barrels per day (bpd) on average throughout 2020, with plans for oil production to reach up to 2 million bpd within the next five years.

These plans, however, can prove futile because of militant attacks on oil and gas installations, increased number of leaks due to lack of infrastructure maintenance, and the possibility of renewed months-long blockades on energy facilities. The December closure of Shahara field, Libya’s largest oil field in the southwest part of the country, by militants was translated into temporary reduction of oil production by around 350 thousand bpd. That means overall oil production easily decreased at approximately 700 thousand bpd, thus constituting Libya’s lowest production level within a year period.

In addition, months-old blockades on energy facilities, throughout the last few years, have led to the halt of significant part of exports. According to the central bank in Tripoli, oil and gas revenues for 2020 plummeted to 652 million dollars from around 7 billion dollars in 2019, which is, practically, a drop by 92 percent.

Overall, militant attacks and blockades prevent oil exports and deprive Libya from revenues that could be otherwise funneled to its reconstruction. It is also noteworthy that the under-funding of the NOC due to failure to pass a national budget has starved it of economic resources, preventing upgrades to the aging or damaged oil infrastructure, and limiting oil and gas production. 

Foreign Energy Investment Flows

Despite the challenges, foreign investment plans continue unabated. French Total, through its subsidiary Total Energies, foresees the execution of a 2-billion-dollar investment plan to increase the production capacity of the North Gialo and NC-98 oil fields.

Concurrently, Total Energies partners with American ConocoPhilips exploration and production company for the acquisition of American Hess Corporation’s 8.16 percent interest in the six Waha oil concessions located in the Sirte Basin in eastern Libya. The commercial deal will increase the French company’s stake in the concessions to 20,4 percent from the current 16,3 percent, thus solidifying the energy footprint of France in Libya.

On a parallel level, Royal Dutch Shell announced its plans not only to re-develop ageing fields like the block NC-174 in the Murzuq basin but also to develop new fields offshore the Cyrenaica basin and onshore the Ghadames and Sirte basins. Shell’s investment plans signal its re-entry in Libya after a decade’s absence attributed to the 2011 first Libyan civil war.

The attraction of substantial international investment in the energy sector of Libya, however, remains dependent on improved security and a stable and united government that is outcome of elections.

Russia and Turkey at the Forefront of Actions

In the meantime, foreign powers persist in their battle for control over Libya’s energy wealth, with Russia and Turkey being at the forefront of the evolving dominance process. Russian security contractors and Russian-aligned mercenaries are stationed in Libya to protect critical energy assets operated by Russian oil companies like Gazprom and Rosneft.  Moscow wants to export Libyan oil to Europe in accordance with the relevant provisions of a Memorandum of Understanding (MoU) signed between Russian major Rosneft and NOC that foresees the sale of Libyan crude oil to third markets, and the signing of additional energy deals that will allow Moscow to maintain its position as a leading supplier of energy to Europe.

Moscow also looks eager to get a piece of the reconstruction pie in Libya with the renewal of a 2.6-billion-dollar contract for a railway that will connect the city of Sirte to Benghazi, and with the execution of other infrastructure projects. On top of that, Moscow maintains military interests in Libya and persistently pursues its bid to gain a permanent naval facility on the 1,900-kilometer Libyan coast that will serve as a Russian gate to Africa.

For its part, Turkey looks eager to collect Qaddafi-era debt owed to Turkish businesses, to participate in the 50-billion-dollar of reconstruction contracts, and to establish a Turkey-Libya axis that would disrupt the alignment between Greece, Israel, Cyprus, and Egypt. This was the specific goal of the Turkey-Libya MoU on the demarcation of maritime boundaries, which is nevertheless invalid for two reasons: Firstly, it was not ratified by the Libyan Parliament and, secondly, it was not approved unanimously by members of the Presidential Council in breach of the UN-sponsored Libyan Political Agreement.

Alarming bells have started to ring in western capitals over the alleged close cooperation between Russia and Turkey on the basis that they have practically divided Libya, on the patterns of Syria, into distinct spheres of influence between them. There are worries that Libya is divided along Islamic lines supported by Turkey. Turkish support of Islamic militias with military equipment is allegedly used to damage Libyan critical energy infrastructure. The ultimate Turkish goal is to control a large portion of Libya’s offshore gas, to disrupt the unimpeded flow of energy, and thus control a significant part of Libyan energy reserves.

The Way Out

To prevent a security breakdown and another round of civil conflict that will negatively impact development and production of energy resources in Libya, a new definite elections date must be declared. The UN can serve as valuable vehicle in this direction by ensuring that Libyan presidential and parliamentary elections are held as soon as possible, while enabling the resolution of pending matters that postponed them in the first place. Failure to meet a new elections’ deadline would trigger a constitutional crisis, undermine the legitimacy of the political system, create an opening for domestic spoilers, and provide a pretext for foreign powers to maintain their malign military presence in Libya.

Evidently, time is of essence. But still, there is a window of opportunity for Libya to escape the vicious cycle of instability and uncertainty that prevents the realization of its full energy potential. It is beyond the shadow of a doubt that the international community can play a constructive role to this end.

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Energy transition is a global challenge that needs an urgent global response

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COP26 showed that green energy is not yet appealing enough for the world to reach a consensus on coal phase-out. The priority now should be creating affordable and viable alternatives 

Many were hoping that COP26 would be the moment the world agreed to phase out coal. Instead, we received a much-needed reality check when the pledge to “phase out” coal was weakened to “phase down”. 

 This change was reportedly pushed by India and China whose economies are still largely reliant on coal. The decision proved that the world is not yet ready to live without the most polluting fossil fuels. 

 This is an enormous problem. Coal is the planet’s largest source of carbon dioxide emissions, but also a major source of energy, producing over one-third of global electricity generation. Furthermore, global coal-fired electricity generation could reach an all-time high in 2022, according to the International Energy Agency (IEA).

 Given the continued demand for coal, especially in the emerging markets, we need to accelerate the use of alternative energy sources, but also ensure their equal distribution around the world.

 There are a number of steps policymakers and business leaders are taking to tackle this challenge, but all of them need to be accelerated if we are to incentivise as rapid shift away from coal as the world needs. 

 The first action to be stepped up is public and private investment in renewable energy. This investment can help on three fronts: improve efficiency and increase output of existing technologies, and help develop new technologies. For green alternatives to coal to become more economically viable, especially, for poorer countries, we need more supply and lower costs.

 There are some reasons to be hopeful. During COP26 more than 450 firms representing a ground-breaking $130 trillion of assets pledged investment to meet the goals set out in the Paris climate agreement. 

 The benefits of existing investment are also becoming clearer. Global hydrogen initiatives, for example, are accelerating rapidly, and if investment is kept up, the Hydrogen Council expects it to become a competitive low-carbon solution in long haul trucking, shipping, and steel production.

 However, the challenge remains enormous. The IEA warned in October 2021 that investment in renewable energy needs to triple by the end of this decade to effectively combat climate change. Momentum must be kept up.

 This is especially important for countries like India where coal is arguably the main driver for the country’s economic growth and supports “as many as 10-15 million people … through ancillary employment and social programs near the mines”, according to Brookings Institute.  

This leads us to the second step which must be accelerated: support for developing countries to incentivise energy transition in a way which does not compromise their growth. 

Again, there is activity on this front, but it is insufficient. Twelve years ago, richer countries pledged to channel US$100 billion a year to less wealthy nations by 2020, to help them adapt to climate change. 

The Organization for Economic Cooperation and Development estimates that the financial assistance failed to reach $80 billion in 2019, and likely fell substantially short in 2020. Governments say they will reach the promised amount by 2023. If anything, they should aim to reach it sooner.

There are huge structural costs in adapting electricity grids to be powered at a large scale by renewable energy rather than fossil fuels. Businesses will also need to adapt and millions of employees across the world will need to be re-skilled. To incentivise making these difficult but necessary changes, developing countries should be provided with the financial support promised them over a decade ago.

The third step to be developed further is regulation. Only governments are in a position to pass legislation which encourages a faster energy transition. To take just one example, the European Commission’s Green Deal, proposes introduction of new CO2 emission performance standards for cars and vans, incentivising the electrification of vehicles. 

This kind of simple, direct legislation can reduce consumption of fossil fuels and encourage industry to tackle climate change.

Widespread legislative change won’t be straightforward. Governments should closely involve industry in the consultative process to ensure changes drive innovation rather than add unnecessary bureaucracy, which has already delayed development of renewable assets in countries including Germany and Italy. Still, regardless of the challenges, stronger regulation will be key to turning corporate and sovereign pledges into concrete achievements. 

COP26 showed that we are not ready as a globe to phase out coal. The priority for the global leaders must now be to do everything they can to drive the shift towards green energy and reach the global consensus needed to save our planet.

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