Constructal design for a boiler economizer

Tang, Wei; Feng, Huijun; Chen, Lingen; Xie, Zhuojun; Shi, Junchao

doi:10.1016/j.energy.2021.120013

Cited by 35 publications

(8 citation statements)

References 55 publications

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“…gen 0 (42) In case of neglecting heat leakage to the environment, the rate of generated entropy in a HE stemmed from finite temperature difference and fluid friction of streams, 1,29 respectively given in Equations ( 43) and (44). Equation ( 44) is applicable for incompressible streams (liquid) under nonadiabatic condition.…”

Section: Exergy Methodsmentioning

confidence: 99%

“…This powerful theory is well developed in different types of HEs and boilers to study the heat transfer rate and total power consumption to find optimal construct and performance by considering geometric and/or operational parameters. [41][42][43][44][45] That is, these searches can provide new insights into the future study of SPHEs by constructal theory.…”

Section: Introductionmentioning

confidence: 99%

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Energy and exergy analysis of spiral turns in optimum design spiral plate heat exchangers

2021

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The present study investigates exergy analysis of optimal designed spiral plate heat exchangers (SPHEs) based on energy criteria. A new design algorithm is developed to obtain a higher overall heat transfer coefficient and more compact SPHE by (1) maintaining the geometric aspect ratio (GAR), (2) enhancing channel pressure drops, and (3) minimizing the total costs. Mathematical modeling of spiral turns of designed SPHEs as a hypothetical network of heat exchangers (HEs), and implementation of energy balance

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Section: Exergy Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Energy and exergy analysis of spiral turns in optimum design spiral plate heat exchangers

2021

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“…In the engineering field, constructal theory [14][15][16][17][18][19][20][21][22][23][24][25][26] provides a new idea for the optimal design of various transfer systems. For power plants, this theory has been used in the structure optimizations of boilers [27][28][29][30][31], evaporators [32][33][34][35], condensers [36][37][38][39], regenerators [40,41], turbines [42][43][44][45][46][47] and whole systems [48][49][50]. In the constructal research of the turbines, Kim et al [42] studied the weight distribution problem of a DPST for land power plants with a fixed total weight and gained the maximum power output (PO) and optimal weight distribution.…”

Section: Introductionmentioning

confidence: 99%

Optimal Design of a Dual-Pressure Steam Turbine for Rankine Cycle Based on Constructal Theory

et al. 2022

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A one-dimensional dual-pressure steam turbine (ST) model for the marine Rankine cycle is built in this paper. Based on constructal theory, the optimal design of the dual-pressure ST is performed with a fixed total volume of the high- and low-pressure STs. The total power output (PO) of the dual-pressure ST is maximized. Seventeen parameters, including the dimensionless average diameters (DADs) of the stages, steam inlet angles (SIAs) of the stages, average reaction degrees (ARDs) of the stages, and volume ratio of the high-pressure ST are taken as optimization variables. The optimal structure parameters of the stages are gained. It reveals that the total PO of the dual-pressure ST is increased by 2.59% by optimizing the average diameter of the Curtis stage, and the change in the total PO is not obvious by optimizing the average diameter of the third stage of the low-pressure ST. Both the total PO and the corresponding efficiency of the dual-pressure ST are increased by 10.8% after simultaneously optimizing 17 variables with the help of the Matlab optimization toolbox. The novelty of this paper is introducing constructal theory into turbine performance optimization by varying seventeen structure, thermal and flow parameters, and the result shows that the constructal optimization effect is remarkable. Optimal designs of practical STs can be guided by the optimization results gained in this paper.

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“…Xie等人 [13] 进一步以换热率和耗功率组成的复合函数为目标优化了该锅炉过热器结构, 优化后过热器的耗功率大大减小. Tang等人 [14] 采用类似方法对锅炉经济器进行了优化, 得到了经济器最佳蛇形祝贺过增元院士85华诞专辑论文 5.0%. Gulotta等人 [15] 应用整体性能系数法优化了生物质锅炉换热管数目和分布, 探究了锅炉输出功率和压降随锅炉结构的变化规律.…”

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“…Gulotta等人 [16] 进一步结合构形理论和生命周期评估法对该锅炉进行了结构优化, 优化后锅炉的整体能耗减小了0.33%. 图 2 整体锅炉换热过程T-S图 : [13,14,39]. ( )…”

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Constructal optimization for a marine boiler based on entransy theory

Chen¹,

Feng²,

Xie³

et al. 2021

Sci. Sin.-Tech.

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Constructal design for a boiler economizer

Cited by 35 publications

References 55 publications

Energy and exergy analysis of spiral turns in optimum design spiral plate heat exchangers

Energy and exergy analysis of spiral turns in optimum design spiral plate heat exchangers

Optimal Design of a Dual-Pressure Steam Turbine for Rankine Cycle Based on Constructal Theory

Constructal optimization for a marine boiler based on entransy theory

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