Results 61 to 70 of about 228 (172)
Integration of Salt Cavern Hydrogen Storage in a 100% Renewable Energy Supply Scenario
We address two critical environmental and technical problems for the integration of subsurface salt cavern hydrogen storage with 100% renewable electricity. First, the storage/production rate of hydrogen must match the unpredictable pattern of renewable electricity supply and (more predictable) demand for electricity by creating and strategically ...
Piovesan, Francesco +1 more
openaire +2 more sources
Abstract Mechanical–chemical coupling governs the interaction between metamorphism and deformation and controls the long‐term stability of subsurface reservoirs. Deformation induces non‐hydrostatic stresses in minerals. However, the conditions for thermodynamic equilibrium between stressed solids and fluids remain debated.
M. L. Mazzucchelli +4 more
wiley +1 more source
Hydrogen‐powered aviation offers a transformative pathway to zero‐emission flight by eliminating in‐flight CO2 emissions. Key considerations include propulsion systems (fuel cells and hydrogen combustion), cryogenic storage and insulation challenges, infrastructure and cost barriers, and supply‐chain constraints.
Mubasshira +4 more
wiley +1 more source
ObjectiveIn response to helium resource scarcity and stringent sealing performance requirements for storage in salt caverns, a study was conducted to assess sealing performance and optimize operating pressure for layered salt rock helium storage, aiming ...
Wuxing LIANG
doaj +1 more source
A Review on Magnesium Based Metal Hydrides for Thermal Energy Storage Systems
ABSTRACT The hydrogen storage in metal hydrides is an imminent, innovative, and environmentally beneficial approach that offers benefits for example, an ample amount of storage and elasticity in terms of thermodynamics necessary for hydrogen absorption and release.
Asif Nizam +3 more
wiley +1 more source
With the issue of energy shortages becoming increasingly serious, the need to shift to sustainable and clean energy sources has become urgent. However, due to the intermittent nature of most renewable energy sources, developing underground hydrogen ...
Jingyu Huang, Shunde Yin
doaj +1 more source
Energy Storage System in Microgrids: Challenges and Opportunities
Hybrid integration of multiple Energy Storage Systems (ESSs) within renewable‐powered microgrids enhances reliability, flexibility, and economic sustainability. Lithium‐ion batteries, flow batteries, hydrogen storage, and thermal systems complement each other through coordinated control via Energy Management Systems.
Mohamed G. Moh Almihat, Josiah L. Munda
wiley +1 more source
ABSTRACT The transition to affordable and clean energy sources is essential for creating a sustainable future. Green hydrogen, as an emerging energy carrier, has the potential to meet increasing energy demands while mitigating environmental impact and achieving SDG 7.
A. Telukdarie, K. Murulane, X. Maphisa
wiley +1 more source
Experimental study on mechanical properties of rock salt under hydrogen corrosion
With the growing demand for large-scale hydrogen energy storage, salt caverns have attracted considerable attention as an efficient and secure storage approach. Owing to its high reactivity and diffusivity, hydrogen may interact with the surrounding rock
Tongtao Wang +7 more
doaj +1 more source
Lifetime of the Gas Evolution Electrode of the Zn–H2 Storage System
ABSTRACT A novel electrically chargeable galvanic system is presented that efficiently stores energy in the form of zinc and releases hydrogen and electricity upon discharge. In this concept, oxygen is released at the gas electrode during charging, and zinc oxide is reduced to metallic zinc at the counter electrode.
Robert Hahn +3 more
wiley +1 more source

