RIC Energy has built a 1.3 MW PV array and a 4.5 MWh battery system for two water treatment plants and five water pumping stations in Malawi. The hybrid system will treat enough water to supply more than 200,000 people.
Researchers have looked at whether Germany can substitute more gas with renewables-powered heat pumps or renewable electricity to reduce load hours at gas-fired power plants. They argue that heat pumps are the fastest way to cut German gas consumption.
Raptor Maps analyzed 24.5 GW of large-scale solar assets and determined that power losses due to equipment anomalies nearly doubled from 1.61% in 2019 to 3.13% in 2022. At the module level, cell and diode anomalies were the most common issues, it said.
KStar’s new all-in-one energy storage system for commercial and industrial (C&I) applications features a 5.12 kWh lithium iron phosphate (LFP) battery system with a 50 kW inverter. It includes two clusters of batteries with 10 modules each, for a maximum capacity of 102.4 kWh.
Emilio Jorquera, technical account manager at Senergy Technical Services (STS), tells pv magazine that greater standardization is needed in the battery storage market.
MAN Energy Solutions is building an industrial-scale heat pump that generates steam without using gas. It will produce steam to dry dairy ingredients at a milk farm in New Zealand.
McKinsey & Company says in a new report that payback periods for heat pumps could fall by up to 38% by 2030.
Viessmann has developed a heat pump for residential applications that can produce between 5.8 kW to 10.4 kW of heat. It has the capacity to heat 220 liters of domestic water, with a coefficient of performance (COP) of up to 4.8 for space heating and 3.14 for water heating.
Scientists have calculated the solar generation potential of every Brazilian state. The study show that the nation has the potential to install 337.83 GW of solar. The state of Bahia leads with 43.97 GW, followed by Minas Gerais with 41.84 GW and Mato Grosso with 39.73 GW.
An international team has developed a numerical model that calculates how much groundwater can be pumped by PV systems of different sizes across the entire African continent. The results show that larger PV systems do not always pump the highest volume of water.
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