Energy Storage

Norwegian consultancy Rystad Energy says that hydrogen pipelines will be “far better” than vessels at moving hydrogen over short- and medium-range distances in the years ahead.

Austria’s new incentive program will support the deployment of residential batteries with storage capacities of 4 kWh to 50 kWh.

Altech Batteries, a battery tech company in Western Australia, has included “game-changing” sodium chloride technology in its new battery 1 MWh GridPack. It said it expects the new systems to be up to 40% cheaper to produce than dominant lithium-ion alternatives.

Much has been said about the benefits installing solar and batteries can offer to businesses but, as companies face mounting input cost inflation, is the upfront investment too much to bear or have volatile electricity costs made the decision a no-brainer?

Germany’s cumulative residential battery installations hit 5.5 GW at the end of 2022, with the large-scale storage business growing by more than 900%.

France’s Sirea has developed a new range of smart plug-in systems for PV storage. The batteries can deliver from 20 kW (AC) to 500 kW, depending on the model, with storage capacities ranging from 100 kWh to 1 MWh.

South Korean scientists have developed a new way to integrate a lithium-metal anode into a battery and reach higher energy capacity levels than current lithium-ion tech. They worked with a carbon fiber paper infused with lithium and demonstrated an energy density of 428 Wh/kg, along with encouraging performance in stability and potential ease of manufacturing.

Amprius has obtained third-party performance verification for a battery cell that offers high power density in a lightweight package.

The New Zealand government will investigate the viability of establishing a pumped hydroelectric facility on the South Island. The project could provide up to 8.5 TWh of annual generation and storage capacity to support the nation’s transition to 100% renewable electricity generation.

Swiss researchers have looked at whether storage could be cheaper than curtailment in medium-voltage distribution networks with significant amounts of PV capacity. They considered storage costs, operational costs, grid constraints, electricity costs, PV generation models, and loads.