Temperature profile analysis on cryogenic activated carbon column of helium purification testing facility

S. Sriyono, R. Kusumastuti, A. Hafid, D. H. Salimy, M. Pancoko, I. Irianto, M. Subekti, Febrianto, G. R. Sunaryo
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引用次数: 4

Abstract

Cryogenic activated carbon testing facility (CACTF) is an apparatus built to purify helium gas from impurities such as oxygen, nitrogen, and gas of fission products. Because of oxygen and nitrogen have a small molecular size, the cryogenic (very low temperature) condition is needed. CACTF has a cryogenic vessel, activated carbon column, liquid nitrogen storage tank, and helium storage tank (pure and dirty). This paper discusses the investigation of temperature changes in the activated carbon column that installed inside a cryogenic vessel. The objective of research is find out the lowest temperature can be achieved in the inner of the activated carbon column so the optimum purification process can be done. The methodology used was modeling with ChemCAD software and CACTF experiments. CACTF has been modeled and simulated with ChemCAD software. Cryogenic model simulation by ChemCAD showed that the lowest temperature of - 190°C will be achieved by 300 kg/hour of liquid nitrogen injection, while the laboratory experiment resulted -160°C of temperature as well. The inside vessel temperature differences it caused by heat losses to the environment during the apparatus experiment. By using ChemCAD, the optimum pressure of the cryogenic carbon column is 30 bars based on the adsorption simulation process of the cryogenic carbon column model.Cryogenic activated carbon testing facility (CACTF) is an apparatus built to purify helium gas from impurities such as oxygen, nitrogen, and gas of fission products. Because of oxygen and nitrogen have a small molecular size, the cryogenic (very low temperature) condition is needed. CACTF has a cryogenic vessel, activated carbon column, liquid nitrogen storage tank, and helium storage tank (pure and dirty). This paper discusses the investigation of temperature changes in the activated carbon column that installed inside a cryogenic vessel. The objective of research is find out the lowest temperature can be achieved in the inner of the activated carbon column so the optimum purification process can be done. The methodology used was modeling with ChemCAD software and CACTF experiments. CACTF has been modeled and simulated with ChemCAD software. Cryogenic model simulation by ChemCAD showed that the lowest temperature of - 190°C will be achieved by 300 kg/hour of liquid nitrogen injection, while the laborator...
氦气净化试验装置低温活性炭柱温度分布分析
低温活性炭测试设备(CACTF)是一种用于从氧、氮和裂变产物气体等杂质中净化氦气的设备。由于氧和氮的分子尺寸小,因此需要低温(极低温)条件。CACTF有低温容器、活性炭柱、液氮储罐和氦储罐(纯和脏)。本文讨论了低温容器内活性炭柱温度变化的研究。研究的目的是找出活性炭柱内部可以达到的最低温度,以便进行最佳的净化工艺。采用ChemCAD软件和CACTF实验进行建模。利用ChemCAD软件对CACTF进行了建模和仿真。ChemCAD低温模型模拟表明,300 kg/h液氮注入可达到- 190°C的最低温度,而实验室实验也达到-160°C的温度。在仪器实验过程中,由于热散失到环境中而引起的容器内部温差。利用ChemCAD软件对深冷碳塔模型的吸附过程进行模拟,确定深冷碳塔的最佳压力为30 bar。低温活性炭测试设备(CACTF)是一种用于从氧、氮和裂变产物气体等杂质中净化氦气的设备。由于氧和氮的分子尺寸小,因此需要低温(极低温)条件。CACTF有低温容器、活性炭柱、液氮储罐和氦储罐(纯和脏)。本文讨论了低温容器内活性炭柱温度变化的研究。研究的目的是找出活性炭柱内部可以达到的最低温度,以便进行最佳的净化工艺。采用ChemCAD软件和CACTF实验进行建模。利用ChemCAD软件对CACTF进行了建模和仿真。ChemCAD的低温模型模拟表明,300 kg/h的液氮注入可达到- 190℃的最低温度,而实验室…
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