Energy and economic analysis of a hydrogen and ammonia co-generation system based on double chemical looping

In this work, a model of hydrogen production by double chemical looping is introduced. The efficiency benefit obtained was investigated. The chemical looping hydrogen generation unit is connected in series to the downstream of a chemical looping gasification unit as an additional system for 100 MW.h coal gasification, with the function of supplementary combustion to produce hydrogen. Using Aspen Plus software for process simulation, the production of H-2 and N-2 in the series system is higher than that in the independent Chemical looping gasification and Chemical looping hydrogen generation systems, and the production of hydrogen is approximately 25.63% and 12.90% higher, respectively; The study found that when the gasification temperature is 900 degrees C, steam-carbon ratio is 0.84 and oxygen-carbon ratio is 1.5, the hydrogen production rate of the system was the maximum. At the same time, through heat exchange between logistics, high-pressure steam at 8.010 x 10(4) kg.h(-1) and medium-pressure steam at 1.101 x 10(4) kg.h(-1) are generated, and utility consumption is reduced by 61.58%, with utility costs decreasing by 48.69%. An economic estimation study found that the production cost of ammonia is 108.66 USD.(t NH3)(-1). Finally, cost of equipment is the main factors influencing ammonia production cost were proposed by sensitivity analysis. (C) 2020 The Chemical Industry and Engineering Society of China, and Chemical Industry Press Co., Ltd. All rights reserved.

Automated summary

The study introduced a model of hydrogen production by double chemical looping and investigated the efficiency benefit obtained. It was found that connecting the chemical looping hydrogen generation unit in series to the downstream of a chemical looping gasification unit increased hydrogen production efficiency compared to independent systems. The study also analyzed the economic estimation and factors influencing ammonia production cost.