07-10-2022 · Insight

The energy shock will accelerate investment in smart energy solutions

Today’s energy markets are polluting, inefficient, volatile and vulnerable. The need for an energy transition has never been clearer and will be driven by electrification of end-use applications. Investments will be costly, but resistance has been lowered by the ongoing realities of high volatility, supply disruption and the need for domestic manufacturing that is both clean and energy efficient.

    Authors

  • Sanaa Hakim MBA - Co-Portfolio Manager Smart Energy

    Sanaa Hakim MBA

    Co-Portfolio Manager Smart Energy

Energy markets – in transition but far from sustainable

Energy is critical for economic growth, but it is dominated by fossil fuels. Oil, coal and gas account for more than 80% of the primary energy needed to power the world’s economies. The Paris Agreement and the transition to a net-zero economy mean the shift to renewables and other low-carbon sources will accelerate in the next decade and ultimately supplant fossil fuels’ preeminence. But though momentum has increased, we cannot get there fast enough.

With 80% of total CO2 emissions, we always knew the energy sector was dirty. But the recent convergence of crises has underscored additional dangers. It is extremely inefficient; 60% of the fossil fuels extracted are wasted, with half lost in the production of electricity, and another half lost when fuels are inefficiently burned during combustion. It is highly vulnerable due to dangerous dependencies on countries rich in fossil fuels but poor at diplomacy and governance. And it is volatile; the conflict in Ukraine took energy markets off-guard, amplifying the rise in energy prices.

In order to limit extreme global warming, nearly 75% of global electricity generation must come from low-emission sources by 2030

Clean energy requires electrification of consumption

Decarbonizing can only happen when burning hydrocarbons in engines and furnaces is replaced with racing electrons in a circuit. But that future reality depends not only on producing clean energy via renewables but also on clean consumption downstream via electric end-use applications (See Figure 1).

In order to limit extreme global warming, nearly 75% of global electricity generation must come from low-emission sources by 2030. Currently, wind and solar account for only 6% of the global mix. To reach net zero, electricity consumption needs to outgrow energy consumption by a factor of two to three in the coming decades. This will be driven not only by transport markets (via lithium-ion batteries, vehicle powertrains, green hydrogen and passenger railways), but also buildings (via electric heat pumps, HVAC and insulation), and industrial markets (via the electrification of production processes).

The world’s largest economies have already set ambitious targets to increase the share of renewables in the national energy mix, including the US where the recently passed Inflation Reduction Act (IRA) devotes nearly USD 400 billion to building up domestic renewable energy production and storage as well as clean energy use by consumers.

Figure 1 | Synchronized solutions – renewable energy supplies rise to support electric consumption

Figure 1 | Synchronized solutions – renewable energy supplies rise to support electric consumption

Renewable energy supplies will increase to support the electrification of end use applications.
Source: BP outlook

Driving not derailing the energy transition

Meanwhile, energy security has replaced climate security as an immediate concern, especially for Europe. Russia has cut EU gas supplies as tensions over the war in Ukraine have escalated, leaving the EU desperate for energy to keep its lights on, its citizens warm and its economies churning.

In the short term, countries are reverting to fossil fuels to fill the gap, but as geopolitical tensions tighten, the crisis emphasizes the high-stakes jeopardy of an economy dependent on fossil fuels. Recognizing this, the EU has acted swiftly to further accelerate its net-zero path. Its “REPowerEU” plan further cuts energy emissions, boosts electrification of buildings and industries, and expands investment in renewable supplies and infrastructure connections across bloc economies.

But the trade-offs between energy security and climate security are complicated by current technological capacity but also political will and public sentiment, especially if consumers are forced to ration.

High energy costs create incentives

Per the International Energy Agency, in order to reach net-zero emissions by 2050, annual investment needs to double to USD 5 trillion a year. Energy costs comprise a significant share of total expenses in a variety of business models, which means a company’s energy savings often have an outsized effect on the bottom line.

The benefits of transitioning will accrue in the long term, but over the short term many firms will see significant costs, especially in hard-to-electrify industries. However, renewable production costs are falling relative to traditional energy forms (see Figure 2). And with traditional energy costs exploding, consumers and energy-intensive industries will accelerate their own energy transitions as payback periods for investments in renewable energy procurement and energy-efficient solutions shorten.

Figure 2 | Renewables – cost competitive in industry and residential settings

Figure 2 | Renewables – cost competitive in industry and residential settings

The levelized cost of energy from renewable sources (solar installations, geothermal and wind) are competitive and in industrial settings much lower than conventional forms of energy such as gas, coal and nuclear.
Source: Lazard