Natural gas plays an essential role in Germany's energy system, both in the heating and
electricity sectors. In order to achieve climate goals, numerous technologies aim at …

Multicarrier energy systems (MCESs) are characterized by strong coordination in operation
and planning across multiple energy vectors and/or sectors to deliver reliable, cost-effective …

Electricity and gas infrastructure coupling has the twofold effect of solving production-
consumption mismatches and decarbonizing the natural gas system through power-to-gas …

In many parts of the world, electric power systems have seen a significant shift toward
generation from renewable energy and natural gas. Because of their ability to flexibly adjust …

Renewable electricity can be converted into hydrogen via electrolysis also known as power-
to-H 2 (P2H), which, when injected in the gas network pipelines provides a potential solution …

This article presents considerations toward an information and control architecture for future
electric energy systems driven by massive changes resulting from the societal goals of …

Multi-carrier energy systems meet the needs of customers in different forms of energy. Given
that these systems cover a large number of customers, it is very important to improve their …

Power systems worldwide are becoming more reliant on energy from natural gas, wind, and
solar, posing potential reliability and coordination challenges from the tighter coupling of …

Gas-fired power plants are environmentally friendly because of their high efficiency rates
and low CO2 emissions. On the other hand, the output power of renewable generators is …

Reliance on natural gas for power generation has increased the coupling between gas and
power networks. While this coupling can bring operational and economic benefits, it can …