Crystallization simulation of scraped surface freezer based on coupling model of population balance and multiphase flow

doi:10.11949/j.issn.0438-1157.20161399

CIESC Journal ›› 2016, Vol. 67 ›› Issue (S2): 128-135.DOI: 10.11949/j.issn.0438-1157.20161399

Crystallization simulation of scraped surface freezer based on coupling model of population balance and multiphase flow

JIA Xueying¹, LIANG Kunfeng¹, LI Yingying¹, YUAN Zhengyin¹, RUAN Chunlei², WANG Lin³, DONG Bin¹, RUI Shengjun¹, LI Jian¹

1. Institute of Refrigeration and Air Conditioning Technology, Henan University of Science and Technology, Luoyang 471003, Henan, China;
2. Institute of Mathematics and Statistics, Henan University of Science and Technology, Luoyang 471003, Henan, China;
3. Institute of Civil Engineering, Henan University of Science and Technology, Luoyang 471003, Henan, China

Received:2016-10-08 Revised:2016-10-18 Online:2016-12-30 Published:2016-12-30
Supported by:
supported by the National Natural Science Foundation of China(U1304521,11402078) and the University Science and Technology Innovative Talents Supporting Program in Henan Province(16HASTIT027).

粒数衡算与多相流耦合求解刮削制冰的晶粒特性

贾雪迎¹, 梁坤峰¹, 李盈盈¹, 袁争印¹, 阮春蕾², 王林³, 董彬¹, 芮胜军¹, 李健¹

1. 河南科技大学制冷与空调技术研究所, 河南洛阳 471003;
2. 河南科技大学数学与统计学院, 河南洛阳 471003;
3. 河南科技大学土木学院, 河南洛阳 471003

通讯作者: 梁坤峰, 王林
基金资助:
国家自然科学基金项目（U1304521，11402078）；河南省高校科技创新人才支持计划项目（16HASTIT027）。

Abstract

Abstract:

By discretizing the population equation into different size groups, a method was established for solving the population balance equation coupled with multiphase flow field.A computational fluid dynamics simulation with population balance model was performed for the scraped surface freezer.The algorithm considering nucleation rate, growth rate, crystal aggregation and breakage was used for describing the water dynamic ice-making crystallization process.By using this model, the key role of crystal aggregation and breakage was reappraised, and the ice crystals number density distributions were obtained in the scraped surface freezer.Then the influence of temperature, scraping speed and the crystallization time on the dynamic crystallization process of the water was studied.The results show that the crystal size distribution would be more centralized and uniform with the crystals aggregation and breakage; if the supercold temperature difference is less than 20℃ and the scraping speed is not more than 10 r·s^-1, the crystallization process would be accelerated by reducing the wall temperature or increasing the scraping speed.

Key words: phase change, multiphase flow, model, population balance, crystallization, number density, aggregation and breakage

摘要：

在考虑晶粒成核、生长、聚并和破碎的情况下，采用分组法求解粒数衡算方程，通过耦合粒数衡算与多相流方程，建立了多尺度的结晶模型，模拟了表面刮削式制冰装置内水的动态结晶过程，获得不同温度、刮削速度、制冰时间等外界条件下晶粒数密度分布、云图等信息，分析了外界宏观条件对水的动态结晶过程的影响。结果表明：由于碰撞引起的晶粒聚并和破碎使得晶粒的尺寸分布更为集中和均匀；在过冷温差（流体局部温度与水的相变温度差值）不大于20℃，刮削速度不大于10 r·s^-1范围内，降低壁面温度、增加刮削速度可以加速水的结晶与生长。

关键词: 相变, 多相流, 模型, 粒数衡算, 结晶, 数密度, 聚并和破碎

CLC Number:

TK125

JIA Xueying, LIANG Kunfeng, LI Yingying, YUAN Zhengyin, RUAN Chunlei, WANG Lin, DONG Bin, RUI Shengjun, LI Jian. Crystallization simulation of scraped surface freezer based on coupling model of population balance and multiphase flow[J]. CIESC Journal, 2016, 67(S2): 128-135.

贾雪迎, 梁坤峰, 李盈盈, 袁争印, 阮春蕾, 王林, 董彬, 芮胜军, 李健. 粒数衡算与多相流耦合求解刮削制冰的晶粒特性[J]. 化工学报, 2016, 67(S2): 128-135.

References 20

[1]	RAHDAR M H, EMAMZADEH A, ATAEI A.A comparative study on PCM and ice thermal energy storage tank for air-conditioning systems in office buildings[J]. Applied Thermal Engineering,2016, 96: 391-399.
[2]	MELLARI S.Experimental investigations of ice slurry flows in horizontal pipe based on monopropylene glycol[J]. International Journal of Refrigeration,2016, 65:27-41.
[3]	DAVEY K R.A quantitative failure assessment of ice slurry cooling of fish at sea to meet regulatory guidelines-demonstrated with Southern Bluefin Tuna (Thunnus maccoyii)[J].Journal of Food Engineering,2016, 183: 58-64.
[4]	贺三,刘阳,梁权,等.氯化钠在乙二醇溶液中结晶过程模拟[J].当代化工,2016,4(3):646-649. HE S, LIU Y, LIANG Q, et al.Simulation of sodium chloride crystallization in ethylene glycol solution[J]. Contemporary Chemical Industry,2016,4(3):646-649.
[5]	刘勇,王静康,尹秋响.环丙沙星冷却结晶动力学测定[J].化工学报,2003,54(6):766-769. LIU Y, WANG J K, YIN Q X.Crystallization kinetics of ciprofloxacin by batch cooling crystallization method[J]. Journal of Chemical Industry and Engineering(China),2003, 54(6):766-769.
[6]	宋海华,胡晖,王进.精馏塔板相界面积的粒数衡算模型[J].化工学报,2003,54(7):959-964. SONG H H,HU H,WANG J.Population balance model for predicting interfacial area on distillation tray[J].Journal of Chemical Industry and Engineering(China), 2003,54(7):959-964.
[7]	HOUNSLOW M J, RYALL R L, MARSHALL V R.A discretized population balance for nucleation, growth, and aggregation[J].AIChE Journal, 1988,34(11):1821-1832.
[8]	HOUNSLOW M J.A discretized population balance for continuous systems at steady state[J].AIChE Journal,1990,36(1):106-116.
[9]	LALOUE N, COUENNE F, GORREC Y L, et al.Dynamic modeling of a batch crystallization process: a stochastic approach for agglomeration and attrition process[J]. Chemical Engineering Science,2007, 62(23): 6604-6614.
[10]	HU Q, ROHANI S, JUTAN A.Modeling and optimization of seeded batch crystallizers[J].Computers and Chemical Engineering,2005, 29(4): 911-918.
[11]	康加廷.基于粒数衡算方程的好氧颗粒污泥数学模型研究[D].合肥:合肥工业大学,2013. KANG J T.Research on mathematical models of aerobic granules based on population balance equation[D].Hefei: Hefei University of Technology, 2013.
[12]	徐琰,董海峰,田肖,等.鼓泡塔中离子液体-空气两相流的CFD-PBM耦合模拟[J].化工学报,2011,62(10):2699-2706. XU Y, DONG H F, TIAN X, et al.CFD-PBM coupled simulation of ionic liquid-air two-phase flow in bubble column[J].CIESC Journal,2011,62(10):2699-2706.
[13]	LIAN G P, MOORE S, HEENEY L.Population balance and computational fluid dynamics modelling of ice crystallisation in a scraped surface freezer[J].Chemical Engineering Science,2006,61:7819-7826.
[14]	武首香,王学魁,沙作良,等.工业结晶过程的多相流与粒数衡算的CFD耦合求解[J].化工学报,2009, 60(3):594-599. WU S X, WANG X K, SHA Z L, et al.Solution of population balance in multiphase flow field for industrial crystallization process[J].CIESC Journal,2009, 60(3):594-599.
[15]	LLIEVSKI D, LIVK I.An agglomeration efficiency model for gibbsite precipitation in a turbulently stirred vessel[J]. Chemical Engineering Science,2006, 61:2010-2022.
[16]	YOKOTA M, TAKEZAWA E, TAKAUSAKI T, et al. Scale-up effect on the rate of contact nucleation caused by collisions of crystals with an impeller[J].Chemical Engineering Science,1999,54:3831-3838.
[17]	LIIRI M, KOIRANEN T, AITTAMAA J.Secondary nucleation due to crystal-impeller and crystal-vessel collisions by population balances in CFD-modelling[J].Journal of Crystal Growth,2002, 237/238/239:2188-2193.
[18]	CHEGNIMOHAN V, JOSSET C, PEERHOSSAINI H.Ice slurry crystallization based on kinetic phase-change modeling[J].International Journal of Refrigeration,2010, 33(8): 1559-1568.
[19]	HENEGHAN A F, HAYMET A D J.Liquid-to-crystal heterogeneous nucleation: bubble accelerated nucleation of pure supercooled water[J].Chemical Physics Letters,2003,368:177-182.
[20]	YU D Y, LIU B L, WANG B C.The effect of ultrasonic waves on the nucleation of pure water and degassed water[J].Ultrasonics Sonochemistry,2012, 19: 459-463.

Crystallization simulation of scraped surface freezer based on coupling model of population balance and multiphase flow

粒数衡算与多相流耦合求解刮削制冰的晶粒特性

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