Jonas Bollmann, Florian Bauer, Silvan Keim, Nikolas Herz, Lars Zigan, Peter Wasserscheid, Stefan Will
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引用次数: 0
摘要
液态有机氢载体(LOHC)系统为化学储氢提供了一种特别有趣的选择。为了描述和了解载氢液的内热释氢特性并评估合适的催化剂材料,了解脱氢反应器中的温度场非常重要。荧光粉测温法是一种适用于反应系统中平面温度传感的技术。该技术基于激光脉冲激发发光材料,并检测随后的磷光信号。我们研究了分散在 H0-DBT / H18-DBT LOHC 系统中的 (Sr,Ca)SiAIN3:Eu2+("SCASN:Eu2+")热成像荧光粉在 400 至 600 K 温度范围内的发光情况。催化板被置于加热的 LOHC 内。首次使用磷光衰减时间(PDT)和磷光强度比方法(PIR)测量了氢释放反应过程中的温度场。不出所料,在内热释氢反应过程中,催化剂表面出现了强烈的降温现象,降温幅度在 40 K 之间。
Temperature imaging during the hydrogen release reaction from a liquid organic hydrogen carrier (LOHC) system using phosphor thermometry
Liquid organic hydrogen carrier (LOHC) systems offer a particularly interesting option for chemical hydrogen storage. In order to characterize and understand the endothermal hydrogen release from the carrier liquid and to evaluate suitable catalyst materials, knowledge of the temperature fields in the dehydrogenation reactor is important. One suitable technique for planar temperature sensing in reacting systems is phosphor thermometry. It is based on the excitation of a luminescent material by a laser pulse and detection of the subsequent phosphorescence signal. We investigated the luminescence of the thermographic phosphor (Sr,Ca)SiAIN3:Eu2+ (“SCASN:Eu2+”) dispersed in the H0-DBT / H18-DBT LOHC system in a temperature range from 400 to 600 K. A measurement cell enables repeatable and homogeneous measurement conditions of the hydrogen release reaction. A catalytic plate was put inside the heated LOHC. Temperature fields during the hydrogen release reaction were measured for the first time using the phosphorescence decay time (PDT) and the phosphorescence intensity ratio method (PIR). As expected, a strong cooling at the catalyst surface during the endothermal hydrogen release reaction could be observed, which was quantified to be in the range of 40 K.
期刊介绍:
Experiments in Fluids examines the advancement, extension, and improvement of new techniques of flow measurement. The journal also publishes contributions that employ existing experimental techniques to gain an understanding of the underlying flow physics in the areas of turbulence, aerodynamics, hydrodynamics, convective heat transfer, combustion, turbomachinery, multi-phase flows, and chemical, biological and geological flows. In addition, readers will find papers that report on investigations combining experimental and analytical/numerical approaches.
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