The FINANCIAL The new method of predicting battery failure is 15 – 20% more accurate than current approaches. Millions of people around the world lack access to electricity. Decentralised solar-battery systems are key for addressing this whilst avoiding carbon emissions and air pollution, but are hindered by relatively high costs and rural locations that inhibit timely preventative maintenance. When batteries in such systems fail, it can be difficult to replace them and can leave people stuck without access to power, University of Oxford notes. Knowing when the batteries are likely to fail is therefore crucial in planning repair logistics andThe FINANCIAL The new method of predicting battery failure is 15 – 20% more accurate than current approaches. Millions of people around the world lack access to electricity. Decentralised solar-battery systems are key for addressing this whilst avoiding carbon emissions and air pollution, but are hindered by relatively high costs and rural
Millions of people around the world lack access to electricity. Decentralised solar-battery systems are key for addressing this whilst avoiding carbon emissions and air pollution, but are hindered by relatively high costs and rural locations that inhibit timely preventative maintenance.
Electricity is unavailable to millions of people across the globe. A key to overcoming this issue is to set up decentralized solar-battery systems that avoid carbon emissions and air pollution.