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Multistable-flexible ammonia process adapted to renewable energy

2024 No. 02
775
265
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Authors:
JI Xu
LIN Jin
NIE Lihong
ZHOU Li
YUAN Shaojun
ZHANG Huan
HE Ge
DAI Yiyang
Unit:
School of Chemical Engineering,Sichuan University
Department of Electrical Engineering,Tsinghua University
Tsinghua Sichuan Energy Internet Research Institute
China Chengda Engineering Co.,Ltd.
Tsingyun (Chengdu) Technology Co.,Ltd.
Abstract:

Given the imperative shift towards achieving carbon peaking and carbon neutrality objectives, the pivotal role of wind and solarrenewable energy generation in energy development becomes evident. " Green hydrogen" , with its ability for long - term storage andzero-carbon attributes, is anticipated to play a foundational role alongside electricity in the future energy system. This integration is crucialfor addressing challenges associated with the incorporation of wind and solar power into the energy matrix. However, the development of" green hydrogen" is facing challenges particularly in terms of safety and economic feasibility throughout various stages of production, storage, and transportation. These challenges are primarily attributed to the intrinsic properties of hydrogen and material limitations induced byhydrogen embrittlement. Addressing the economic challenges related to both " green electricity" and " green hydrogen" within the contextof dual carbon goals, the approach of " electrically producing green ammonia" is deemed essential. Recent studies have studied multiplesolutions based on the well-established " Haber-Bosch" ammonia process to mitigate uncertainties associated with wind and solar resources. In this paper, a renewable power to ammonia multistable-flexible process (RePtAmMuFlP) was proposed to tackle the design,equipment, and operational challenges associated with the intricate coupling of " source-grid-hydrogen-ammonia" technical characteristics. This research explored the systemic technical architecture of RePtAmMuFlP. In addition, an optimization model was developed to adjust the economic operating loads and periods, while a digital simulation model was also constructed to integrate renewable power, hydrogen, and ammonia, considering factors like power constraints, renewable power fluctuations, hydrogen-ammonia demand, system operating efficiency, and equipment reliability. This integrated model facilitates the coordinated optimization of " renewable power to green ammonia" operations in different scenarios, offering a dynamic design approach for industrial systems. Furthermore, the macroscopic kinetic models of catalysts under complex operating conditions were investigated, which led to improvements in catalyst structural performance,internal structure of synthesis towers, and the integration of power-hydrogen-ammonia with collaborative scheduling and intelligent controltechnologies. This RePtAmMuFlP has achieved economic operation loads ranging from 30% to 110%, with a load adjustment rate of 0.5%to 1.0% per minute. It also supports adjustments in daily, shift, and intra-shift loads, with the overall energy consumption per unit of ammonia surpassing the benchmark value set by GB 21344—2015 Energy consumption limit of unit product of ammonia.

Keywords:
renewable power
hydrogen energy
green ammonia
multistable-flexible
hydrogen-ammonia integration
safety
Citation format:
吉旭(1968—),男,四川遂宁人,教授,博士。E-mail:jixu@scu.edu.cn
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Citation format:
JI Xu,LIN Jin,NIE Lihong,et al.Multistable-flexible ammonia process adapted to renewable energy[J].Clean Coal Tech-nology,2024,30(2):23-35.

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    China Coal Science and Industry Group Co., Ltd

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    XIE Qiang

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    YU Chang
    SHI Yixiang
    ZHAO Yongchun
    DUAN Linbo
    CAO Jingpei
    ZENG Jie

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