Is water the solution for renewable energy storage?


Thursday, 27 February, 2020


Is water the solution for renewable energy storage?

A new study has suggested that seasonally pumped hydropower storage (SPHS) could be the answer for storing renewable energy over the long term.

Seasonal pumped hydropower storage means pumping water into a deep storage reservoir, built parallel to a major river, during times of high water flow or low energy demand. When water is scarce or energy demand increases, stored water is then released from the reservoir to generate electricity.

IIASA research published in the journal Nature Communications showed that compared with other mature storage solutions, such as natural gas, there is considerable potential for SPHS to provide highly competitive energy storage costs.

“The energy sectors of most countries are undergoing a transition to renewable energy sources, particularly wind and solar generation,” said IIASA postdoc Julian Hunt, the study’s lead author.

“These sources are intermittent and have seasonal variations, so they need storage alternatives to guarantee that the demand can be met at any time. Short-term energy storage solutions with batteries are underway to resolve intermittency issues; however, the alternative for long-term energy storage that is usually considered to resolve seasonal variations in electricity generation is hydrogen, which is not yet economically competitive.”

The new study provides a global, high-resolution analysis of the potential and costs for SPHS technology. In their analysis, researchers assessed the theoretical global potential for storing energy and water seasonally with SPHS, focusing on the locations with the highest potential and lowest cost. They also analysed different scenarios where the storage of energy and water with SPHS could be a viable alternative. The study included topographical, river network and hydrology data, infrastructure cost estimation and project design optimisation, to identify technically feasible candidate sites.

The study shows that water storage costs with SPHS plants vary from US$0.007–0.2/m3, long-term energy storage costs vary from US$1.8–50/MWh and short-term energy storage costs vary from US$370–600/kW of installed power generation capacity, considering dam, tunnel, turbine, generator, excavation and land costs. The estimated world energy storage potential below a cost of $50/MWh is 17.3 PWh, which is approximately 79% of the world electricity consumption in 2017.

The researchers found that significant potential exists for SPHS around the world, in particular in the lower part of the Himalayas, Andes, Alps, Rocky Mountains, northern part of the Middle East, Ethiopian Highlands, Brazilian Highlands, Central America, East Asia, Papua New Guinea, the Sayan, Yablonoi and Stanovoy mountain ranges in Russia, and a number of other locations with smaller potential.

“Concerns about the intermittency and seasonality of wind and solar can be valid, but are also sometimes exaggerated,” said IIASA researcher Edward Byers, a study co-author.

“This study demonstrates that there is an extremely high potential for SPHS to be used across much of the world, providing a readily available, affordable and sustainable solution to support the transition to sustainable energy systems and overcome real and perceived barriers to high shares of renewable generation.”

The study also addresses some of the potential environmental concerns related to hydropower. Because SPHS reservoirs are deep and constructed parallel to, rather than within, the course of a river, the environmental and land use impacts can also be up to 10–50 times smaller than traditional hydropower plants.

“With the need for a transition to a more sustainable world with lower CO2 emissions, renewable energies and energy storage will play a major role in the near future. Given the vast untapped and cheap potential of SPHS, it will soon play an important role in storing energy and water on a yearly basis,” said Hunt.

Image credit: ©stock.adobe.com/au/Denis Gladkiy

Originally published here.

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