Benders, StefanStefanBendersBlümich, BernhardBernhardBlümich2021-01-292021-01-292019-10-01Physical Sciences Reviews 10 (4): 0177 (2019-10-01)http://hdl.handle.net/11420/8642While there are many techniques to study phenomena that occur in chemical engineering applications, magnetic resonance imaging (MRI) receives increasing scientific interest. Its non-invasive nature and wealth of parameters with the ability to generate functional images and contrast favors the use of MRI for many purposes, in particular investigations of dynamic phenomena, since it is very sensitive to motion. Recent progress in flow-MRI has led to shorter acquisition times and enabled studies of transient phenomena. Reactive systems can easily be imaged if NMR parameters such as relaxation change along the reaction coordinate. Moreover, materials and devices can be examined, such as batteries by mapping the magnetic field around them.en2365-659X201910chemical engineeringdynamicsflowimagingMRINMRJournal Article10.1515/psr-2018-0177Other