Simultaneous process synthesis, heat, power, and water integration of thermochemical hybrid biomass, coal, and natural gas facilities

Richard C. Baliban; Josephine A. Elia; Christodoulos A. Floudas

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Simultaneous process synthesis, heat, power, and water integration of thermochemical hybrid biomass, coal, and natural gas facilities

机译：热化学混合生物质，煤和天然气设施的同时过程综合，热，电和水整合

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A comprehensive wastewater network is introduced into a thermochemical based process superstructure that will convert biomass, coal, and natural gas to liquid (CBCTL) transportation fuels. The mixed-integer nonlinear optimization (MINLP) model includes simultaneous heat, power, and water integration that utilizes heat engines to recover electricity from waste heat and several treatment units to process and recycle wastewater. A total of 108 case studies are analyzed which consist of combinations of six coal feedstocks, three biomass feedstocks, three plant capacities, and two process superstructures. This study discusses important process topological differences between the case studies and illustrates each component of the process synthesis framework using the two medium-sized capacity case studies that have low-volatile bituminous coal and biomass feedstocks.

机译：全面的废水网络被引入到基于热化学的过程上部结构中，该结构将生物质，煤炭和天然气转化为液体（CBCTL）运输燃料。混合整数非线性优化（MINLP）模型包括同时进行的热，功率和水集成，利用热引擎从废热中回收电力，并利用多个处理单元处理和回收废水。总共分析了108个案例研究，其中包括六种煤炭原料，三种生物质原料，三种装置的生产能力和两种工艺上层建筑的组合。本研究讨论了案例研究之间的重要过程拓扑差异，并使用两个具有低挥发性烟煤和生物质原料的中型容量案例研究说明了过程综合框架的每个组成部分。

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《Computers & Chemical Engineering》 |2012年第10期|p.297-327|共31页
作者
Richard C. Baliban; Josephine A. Elia; Christodoulos A. Floudas;
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作者单位

Department of Chemical and Biological Engineering, Princeton University. Princeton, NJ 08544, USA;

Department of Chemical and Biological Engineering, Princeton University. Princeton, NJ 08544, USA;

Department of Chemical and Biological Engineering, Princeton University. Princeton, NJ 08544, USA;

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正文语种 eng
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process synthesis; heat; power and water; integration; hybrid energy systems; mixed-integer nonlinear optimization; fischer-tropsch; biofuels;

机译：工艺综合热;电力和水;积分;混合能源系统;混合整数非线性优化;费-托生物燃料;

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1. Optimization framework for the simultaneous process synthesis, heat and power integration of a thermochemicai hybrid biomass, coal, and natural gas facility [J] . Richard C. Baliban, Josephine A. Elia, Christodoulos A. Floudas Computers & Chemical Engineering . 2011,第9期

机译：热化学混合生物质，煤炭和天然气设施的同时过程综合，热电一体化的优化框架
2. Global optimization of a MINLP process synthesis model for thermochemical based conversion of hybrid coal, biomass, and natural gas to liquid fuels [J] . Richard C. Baliban, Josephine A. Elia, Ruth Misener, Computers & Chemical Engineering . 2012,第Jula11期

机译：MINLP工艺综合模型的全局优化，用于基于热化学的混合煤，生物质和天然气向液体燃料的转化
3. Process synthesis of hybrid coal, biomass, and natural gas to liquids via Fischer-Tropsch synthesis, ZSM-5 catalytic conversion, methanol synthesis, methanol-to-gasoline, and methanol-to-olefins/distillate technologies [J] . Richard C. Baliban, Josephine A. Elia, Vern Weekman, Computers & Chemical Engineering . 2012,第DECa20期

机译：通过费-托合成，ZSM-5催化转化，甲醇合成，甲醇制汽油和甲醇制烯烃/馏出液技术将混合煤，生物质和天然气转化为液体
4. Process Synthesis with Heat and Power Integration of Thermochemical Coal, Biomass, and Natural Gas Hybrid Energy Processes [C] . Richard C. Baliban, Josephine A. Elia, Christodoulos A. Floudas European symposium on computer aided process engineering;ESCAPE 21 . 2012

机译：热煤，生物质和天然气混合能源过程的热电联产过程综合
5. Hybrid thermochemical/biological processing of biomass for the production of polyhydroxyalkanoates and hydrogen gas from Rhodospirillum rubrum cultured on synthesis gas. [D] . Chipman, David Craig. 2009

机译：生物质的热化学/生物混合处理，用于在合成气中培养的来自红球藻的多螺旋藻生产聚羟基链烷酸酯和氢气。
6. Comparative Evaluation of Integrated Waste Heat Utilization Systems for Coal-Fired Power Plants Based on In-Depth Boiler-Turbine Integration and Organic Rankine Cycle [O] . Shengwei Huang, Chengzhou Li, Tianyu Tan, 2018

机译：基于深入锅炉 - 汽轮机集成和有机朗肯循环的燃煤发电厂综合废热利用系统对比较评价
7. This article presents a new numerical model describing the behaviour of a thermally thick wood sample exposed to high solar heat flux (above 1 MW/m2). A preliminary study based on dimensionless numbers is used to classify the problem and support model building assumptions. Then, a model based on mass, momentum and energy balance equations is proposed. These equations are coupled with liquid-vapour drying model and pseudo species biomass degradation model. By comparing to a former experimental study, preliminary results have shown that these equations are not enough to accurately predict biomass behaviour under high solar heat flux. Indeed, a char layer acting as radiative shield forms on the sample exposed surface. In addition to this classical set of equations, it is mandatory to take into account radiation penetration into the medium. Furthermore, as biomass contains water, medium deformation consecutively to char steam gasification must also be implemented. Finally, with the addition of these two strategies, the model is able to properly capture the degradation of biomass when exposed to high radiative heat flux over a range of sample initial moisture content. Additional insights of biomass behaviour under high solar heat flux were also derived. Drying, pyrolysis and gasification fronts are present at the same time inside of the sample. The coexistence of these three thermochemical fronts leads to char gasification by the steam produced from drying of the sample, which it is the main phenomenon behind medium ablation. [O] . Pozzobon, Victor, Salvador, Sylvain, Bézian, Jean Jacques 2018

机译：本文提供了一个新的数值模型，该模型描述了暴露于高太阳热通量（高于1 / MW / m2）的热厚木材样品的行为。基于无量纲数的初步研究用于对问题进行分类并支持模型构建假设。然后，提出了一种基于质量，动量和能量平衡方程的模型。这些方程式与液体蒸汽干燥模型和假物种生物质降解模型耦合。通过与以前的实验研究进行比较，初步结果表明，这些方程不足以准确预测高太阳热通量下的生物量行为。的确，在样品暴露的表面上形成了充当辐射屏蔽层的炭层。除了这套经典的方程式之外，还必须考虑到辐射向介质的渗透。此外，由于生物质中含有水，因此还必须在炭蒸气汽化后进行连续的介质变形。最后，通过添加这两种策略，该模型能够在一定范围的样品初始水分含量下暴露于高辐射热通量的情况下，正确捕获生物质的降解。还得出了在高太阳热通量下生物量行为的其他见解。样品内部同时存在干燥，热解和气化前沿。这三个热化学前沿的共存会导致样品干燥产生的蒸汽产生焦炭气化，这是介质烧蚀的主要现象。
8. Survey and Down-Selection of Acid Gas Removal Systems for the Thermochemical Conversion of Biomass to Ethanol with a Detailed Analysis of an MDEA System. Task 1: Acid Gas Removal Technology Survey and Screening for Thermochemical Ethanol Synthesis. Task 2: Detailed MDEA Process Analysis [R] . 2011

机译：通过详细分析mDEa系统，对生物质热化学转化为乙醇的酸性气体去除系统进行了调查和下调。任务1：酸性气体去除技术调查和筛选热化学乙醇合成。任务2：详细的mDEa过程分析

Simultaneous process synthesis, heat, power, and water integration of thermochemical hybrid biomass, coal, and natural gas facilities

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