Temperature distribution in a gas-solid fixed bed probed by rapid magnetic resonance imaging

“…With MRI, in situ and operando measurements of the reacting zone inside the opaque reactor can be performed. Different MRI techniques offer solutions to spatially map process parameters like velocities, , mass transport, temperature, − and species distributions. − All techniques have in common the fact that they make use of nuclear magnetic resonance, a phenomenon that can be utilized by applying radio frequency (RF) pulses to a specimen located in a strong magnetic field. The characteristic longitudinal ( T 1 ) and transverse ( T 2 ) relaxation times play an important role in all MRI applications, as they determine how the measured signal evolves over time and how much of the signal is still available after some time.…”

“…With MRI, in situ and operando measurements of the reacting zone inside the opaque reactor can be performed. Different MRI techniques offer solutions to spatially map process parameters like velocities, 7 , 8 mass transport, 9 temperature, 10 − 14 and species distributions. 15 − 17 All techniques have in common the fact that they make use of nuclear magnetic resonance, a phenomenon that can be utilized by applying radio frequency (RF) pulses to a specimen located in a strong magnetic field.…”

T₁ Relaxation of Methane in Mixtures with Gaseous Water

“…With MRI, in situ and operando measurements of the reacting zone inside the opaque reactor can be performed. Different MRI techniques offer solutions to spatially map process parameters like velocities, , mass transport, temperature, − and species distributions. − All techniques have in common the fact that they make use of nuclear magnetic resonance, a phenomenon that can be utilized by applying radio frequency (RF) pulses to a specimen located in a strong magnetic field. The characteristic longitudinal ( T 1 ) and transverse ( T 2 ) relaxation times play an important role in all MRI applications, as they determine how the measured signal evolves over time and how much of the signal is still available after some time.…”

“…With MRI, in situ and operando measurements of the reacting zone inside the opaque reactor can be performed. Different MRI techniques offer solutions to spatially map process parameters like velocities, 7 , 8 mass transport, 9 temperature, 10 − 14 and species distributions. 15 − 17 All techniques have in common the fact that they make use of nuclear magnetic resonance, a phenomenon that can be utilized by applying radio frequency (RF) pulses to a specimen located in a strong magnetic field.…”

T₁ Relaxation of Methane in Mixtures with Gaseous Water

Assembly tapered fiber Bragg grating tip with gold nanostars for heat generation and gradient temperature sensing

Reconstruction of particle positions and orientations from 3D MRI images of non-spherical particle packings