Optimal loading times for electricity memory: Experts give tips!

Optimal loading times for electricity memory: Experts give tips!

Berlin, Deutschland - The University of Technology and Economy (HTW) Berlin recently published some groundbreaking knowledge of inverters and electricity storage. This information is part of your annual comparison test, which evaluates the performance of common products on the market. According to Econom of Solar Systems has put an optimization guideline online, which is intended to help use their devices more profitable.

It is noteworthy that the guide gives concrete recommendations for optimal use of power storage. Experts advise you to move the loading times of the batteries to the lunch hours when solar energy production is highest. This is a crucial step to increase efficiency and maximize your own consumption.

new impact grade record of Kostal

As part of the test, Kostal presents a latest generation of product that comes up with a new efficiency record in charging operations. As energy experts , the Plenticore G3 M 10 achieves an impressive efficiency of 98.2 %. This record was realized by the implementation of IMS conductor's platform technology in combination with silicon carbide performance haulders.

The IMS technology promotes the removal of the waste heat from the performance and leads to lower component temperatures. This significantly reduces conversion losses. Compared to one of the 18 tested hybrid inverters, which only achieves an efficiency of 92 %, the Plenticore G3 M 10 shows that efficiency can be significantly increased. In less efficient devices, up to 8 % of the solar power is lost than waste heat.

The role of the battery systems

With the steadily increasing need for sustainable energy supply, the focus is increasingly in focus. According to Gosolar Battery systems increase the efficiency and reliability of renewable energy sources. Accumulators store energy in electrochemical form and are therefore ideal for repeated charging and unloading.

The optimization of energy storage is crucial to better use the irregular energy generation and reduce greenhouse gas emissions. Innovative battery technologies such as lithium-ion batteries, redox flow batteries and hydrogen stores increase and are becoming increasingly important. These technologies are not only crucial for the storage of excess energy from renewable sources, but also enable the increase in efficiency in various applications, including electric vehicles and households.