Which will have the most impact?

Water heating is a major energy use. Hot water for showers, laundry, and washing dishes consumes a quarter of residential energy use worldwide; in commercial buildings, that number is roughly 12 percent. Solar water heating—exposing water to the sun to warm it—can reduce that fuel consumption by 50 to 70 percent.

The world’s first commercial solar water heater came to market in the 1890s. In the early 20th century, the technology took a leap forward by adding a separate storage tank. Solar collectors popped up on rooftops across California and Florida, but cheap energy in the post–World War II years stymied the industry in the United States.

Today, the technology is in use in many countries and almost every climate. In Cyprus and Israel, where the use of SWH has been mandated since the 1980s, 90 percent of homes have systems. Throughout its history, SWH has risen and fallen based on the price of energy, as well as government intervention to support it.

All told, SWH is among the most effective ways to convert solar energy into thermal energy. Payback periods are as short as two to four years, depending on specifics of system and location.

Utilities have long operated on the model of producing sufficient electricity to meet demand in real time. To supplement large coal, gas, or nuclear plants, they rev up highly polluting “peaker” plants as needed. Energy storage — daily, multiday, and longer-term or seasonal — is vital to reduce peaker emissions and accommodate the shift to variable renewables, namely wind and solar.

How does a utility store large amounts of electricity? One option is pumping water from lower reservoirs into higher ones, ideally 1,500 feet higher. The water is released back down into the lower reservoir as needed and runs through power-generating turbines. There are more than 200 pumped-storage systems in the world at present, accounting for 97 percent of global storage capacity.

Concentrated solar power plants are also at the forefront of energy storage, where molten salt is used to hold heat until it is needed to generate electricity. Then, there are batteries at scale. Dozens of start-ups and established companies are racing to create low-cost, low-toxicity, and safe batteries that will revolutionize energy storage, while some utilities are already installing banks of lithium-ion batteries to help meet peak demand.