Increasing the use of fossil fuels on a temporary basis may be a result of the situation, but at the same time, security concerns and elevated commodity prices underscore the need for energy autonomy and greater renewables development and improve relative economics of clean alternatives. Positive feedback loops on deployment at scale could serve as an accelerator for the energy transition. From there on - what it will take to achieve capital allocation into the relevant technologies? What are the implications of a shift from extracted to manufactured energy and the consequences of different industry patterns and supply chains? All these questions relate to the shape, speed and pathway of the energy transition. All the while, the energy transition is inevitable and irreversible, the question becomes how policy, investment and corporates will drive it forward and grasp the opportunities.

Oil flows are more easily changeable in the short term (seaborne) compared to gas; changing flows of piped oil, however, can be more difficult and requires lots of new infrastructure. Gas flows are more complicated – they need more infrastructure investment for both pipelines and LNG (terminals and ships, both of which take a long time to develop). Impacts will be felt beyond Europe – e.g., European countries may be prepared (and able) to pay higher prices for LNG cargoes originally destined for elsewhere (thus creating a supply shortfall in countries outside of Europe). LNG flows can be highly responsive to price fluctuations and may become the ultimate premium commodity with difficult to predict flows.

There is the potential for deeply discounted asset sales to Russian, Asian (e.g. Chinese, Indian) and Middle-Eastern companies. If implemented, these will likely produce non-cash accounting charges. There would be no actual emissions impact since only a change of ownership would occur. Also, a nationalisation / Custodial ownership by Russian government entities could be carried out. Another option is for the current legal structure to remain in place for the short-to-medium- term until the political situation becomes clearer.

The components of the energy trilemma calling for secure, clean and affordable energy have been dislocated. Will the current dominance of security be permanent? We have in the past seen shifts within the energy trilemma whereby particular angles were in focus more than others. Reversal is typical and a fully balanced trilemma is rare. The Ukraine conflict has shifted the emphasis of the energy trilemma in Europe away from clean energy in favour of security of supply and affordability. Government intervention or regulation has increased at the expense of deregulated markets to mitigate commodity price volatility. Price caps and windfall taxes are primarily funding affordability rather than additional, faster deployment of renewables. However, the need to diversify away from Russian gas should stimulate an acceleration in renewables longer term, particularly in solar, wind & hydrogen. From a US perspective, we anticipate further MOUs and HOAs to be signed over the next 12-18 months for additional LNG capacity. Questions remain on the duration of contracts with European and Asian counterparties.

E.ON holds a stake in the Nord Stream 1 pipeline which may be impacted. Uniper owns 11GW of generation assets in Russia and has now had to stop the divestment process of its Unipro subsidiary. There will clearly be questions as to even long-term realisable value. It further has impaired its loan to Nord Stream 2. Engie is another lender to Nord Stream 2. Enel’s Russian business contributes about 1% to EBITDA (earnings before interest, taxes, depreciation and amortisation) and includes gas fired power plants. If generators source alternative long term contracts for gas supply, those contracts could become onerous. Beyond direct impairment risk on Russian assets, European gas generators could ultimately face impairment risk if their assets cannot source competitive fuel substitutes, will run at yet lower load factors than is already the case and be marginalised further by an accelerating energy transition.

India and China combined, control the renewable energy manufacturing and export market. Following the war in Ukraine, the price of steel has increased substantially. Although this may be a short-medium term increase until the duration of the war is more clear, this would undoubtedly have a knock-on effect on the equipment price for solar and wind (I.e., Solar photovoltaic metal mounts, and wind turbine metal stands and blades). As a result of this price hike, this will increase the Levelized cost of electricity (LCOE) for solar and wind for countries that purchase renewable metal equipment from India or China. An increase in the LCOE, may once again make renewables more expensive than electricity from coal or gas However, this can be short term phenomenon. Either component prices revert downwards; or manufacturing learning rates increase; or innovation leads to substitution or alternative solutions. This the nature of manufactured energy where reinvention and substitution leads to an ability to overcome technical or economic challenges.

There is no doubt that the conflict in Ukraine is affecting automotive supply chains and therefore production of low/zero-emission vehicles. Disruption in the supply of key components from the Ukraine, such as wire harnesses (used in both internal combustion and electric vehicles), will be a production headwind for the sector, in addition to the on-going semiconductor shortage. The EU emissions targets that automakers selling vehicles into the region must comply with are based on average fleet emissions, rather than a defined electric vehicles sales target. It is unlikely that automakers will not meet compliance in 2022 as they will shift production/sales mix to meet EU targets.

In the near-term, if European utilities companies cannot pass on the high commodity costs, reductions in profits could lead to impairments of fossil fuel generation assets. Decisions to increase investments in renewables could lead to shortening of fossil fuel asset lives, potential impairments and acceleration of retirements (and so the relevant obligations). In the longer-term, using profits from high oil and gas prices to expand fossil fuel production will increase the potential for stranded assets, especially given the timescales required for decarbonisation. This is particularly the case for energy companies that rely on Europe for revenues (assuming war and the energy crisis is used as impetus to push for more renewables). Additionally, higher prices could potentially accelerate the use of disruptive technologies, such as electric vehicles, and transitions to alternative fuel sources, which could impact a company's forecasted cash flows from using existing carbon-intensive assets and lead to more impairments. Although the costs of manufacturing batteries and so purchase prices of electric vehicles may rise, if these increases are less than the rising costs of fuel (petrol) then consumers will continue to shift. If costs remain unchanged, companies such as car manufacturers may have to consider the impacts of other shifts in consumer behaviours, including an increased use in public transportation, such as trains or buses, on their forecasted cash flows. It is important for companies to continue to consider the longer-term impacts of the energy transition, and not to focus on just the short to medium-term market reactions. Assumptions and estimates used in financial reporting such as projected oil and gas prices, estimated production or remaining asset lives should include the impacts of a long-term, downward trend in demand as our system decarbonises. Reduced licensing and exploration due to longer-term, accelerated declines in demand could again impact the value of existing assets and accelerate the timing of retirement of such assets. Long-term fixed price contracts could become unprofitable. Companies with receivables from borrowers that are impacted may see an increase estimated credit losses. Companies should continue to consider the impacts of achieving net zero by 2050/no more than 1.5 degrees warming (e.g., aligning with scenarios such as IEA NZE) on medium- to long-term price and demand assumptions.