This paper intends to give an impression of new technologies and processes that are in
development for application to achieve decarbonization, and about which less or no …

Experiments were conducted in a closed duct filled with copper foam to study the premixed
syngas-air flame propagation behaviors. A copper foam with a thickness of 20 mm is …

With the rapid expansion of the national economy and strategic adjustments to the energy
structure, natural gas, a crucial clean energy source, encounters significant safety …

To investigate the effect of venting diameter and static activation pressure on the explosion
venting behavior of hydrogen-air mixtures, tests were performed utilizing the explosion …

Porous materials have good wave-absorbing and shock-absorbing effects, so it is one of the
common measures to adopt them for explosion isolation in the field of safe transportation of …

Pore-scale simulations of quenching, acceleration, and transition to detonation of gaseous
hydrogen explosions by metal foams were performed. The model solves the three …

This study examines the influence of polyurethane porous materials and carbon dioxide on
hydrogen/air explosions within an enclosed vessel. Through analysis of peak overpressure …

An innovative combination of metal wire mesh, flexible rare-earth metal, and Al 2 O 3 foam
ceramics were selected to form a rigid-flexible porous explosion-proof material. The …

Foam metal as a promising application of explosion-proof and explosion-suppression
materials, which itself has a complex three-dimensional pore structure, can be more effective …

The energy-absorbing material of metal foam have enormous potential in mitigating the
consequences of natural gas explosion disaster in urban utility tunnels. When double-layer …