Total plant integrated optimization of sulfur recovery and steam generation for Claus processes using detailed kinetic schemes

机译：使用详细的动力学方案对克劳斯工艺进行全厂综合硫回收和蒸汽产生的优化

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Multiscale process modeling is very appealing methodology for process optimization since it highlights certain issues that remain unexplored with conventional methodologies and debottlenecks certain potentialities that remain unexploited in chemical plants. In this work, a kinetic model with 2400 reactions and 140 species is implemented in a proper reactor network to characterize the thermal furnace and the waste heat boiler of sulfur recovery units; the network with detailed kinetics is the kernel of a Claus process simulation that include all the unit operations and the catalytic train. By doing so, reliable estimation of acid gas conversion, elemental sulfur recovery, and steam generation is achieved with the possibility to carry out an integrated process-energy optimization at the total plant scale.

机译：多尺度过程建模是用于过程优化的非常吸引人的方法，因为它突出显示了常规方法尚未发现的某些问题，并且消除了化工厂中尚未利用的某些潜力的瓶颈。在这项工作中，在适当的反应器网络中建立了具有2400个反应和140种物质的动力学模型，以表征硫磺回收装置的热炉和废热锅炉。具有详细动力学的网络是克劳斯过程仿真的核心，其中包括所有单元操作和催化过程。这样，就可以可靠地估算出酸性气体的转化率，元素硫的回收率和产生的蒸汽量，并且有可能在整个工厂范围内进行综合的过程能优化。

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《European symposium on computer aided process engineering》|2013年|811-816|共6页
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Flavio Manenti; Davide Papasidero; Giulia Bozzano; Sauro Pierucci; Eliseo Ranzi; Guido Buzzi-Ferraris;
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acid gas; detailed kinetics; Claus process; total plant optimization;

机译：酸性气体详细的动力学;克劳斯工艺;整体工厂优化;

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4. Total plant integrated optimization of sulfur recovery and steam generation for Claus processes using detailed kinetic schemes [C] . Flavio Manenti, Davide Papasidero, Giulia Bozzano European Symposium on Computer Aided Process Engineering . 2013

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机译：石油炼制厂克劳斯硫磺回收装置新源性能标准综述

Total plant integrated optimization of sulfur recovery and steam generation for Claus processes using detailed kinetic schemes

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