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JournalISSN: 0438-1157

CIESC Journal 

Chemical Industry Press
About: CIESC Journal is an academic journal. The journal publishes majorly in the area(s): Heat transfer & Adsorption. It has an ISSN identifier of 0438-1157. Over the lifetime, 1327 publications have been published receiving 3067 citations.

Papers published on a yearly basis

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Journal Article
TL;DR: In this paper, flat micro-heat pipe arrays with miniature axially grooves for electric chip cooling are constructed and a series of experiments including start-up time, temperature distribution and heat flux with different working fluids and filling factors are carried out.
Abstract: Various flat micro-heat pipe arrays with miniature axially grooves for electric chip cooling are constructedA series of experiments including start-up time,temperature distribution and heat flux with different working fluids and filling factors are carried outThe result shows that flat micro-heat pipe arrays have advantages of quicker start-up,less temperature difference and better heat transferR141b,acetone,methanol and ethanol are used as working fluidsFlat micro-heat pipe arrays filled with methanol have the best heat transfer performanceThe maximum heat flux can reach 102 W·cm-2 while the chip is maintained at its working temperature,below 70℃The best filling factor of methanol is 03 for high heat flux

34 citations

Journal Article
Guo Yanxi1
TL;DR: In this paper, the authors proposed a circular economy route of value-added utilization based on the development situation of coal gangue treatment, which can further improve the utilization level and efficiency by establishing the circular economy routes of value added utilization.
Abstract: Coal gangue as one of the largest industrial solid wastes in China brings about very serious environmental, social and economic problems. Comprehensive utilization of coal gangue is of importance to sustainable development of society and economy. China has made great progress in comprehensive utilization of coal gangue in the latest 40 years since the 1960—1970's. Circulating fluidized bed(CFD) power generation using coal gangue is at the advanced level of the world. The equipment and technology of sintered brick manufactured from coal gangue have also reached the world's advanced level. A single facility reaches million tons of coal gangue consumption annually. Large amounts of coal gangue as the major harmless methods are used in backfilling, road paving and land reclamation. The comprehensive treatment capacity of coal gangue increases significantly and exceeds 400 Mt annually at present. Due to large production of coal gangue, however, the existing utilizations cannot meet the demand of coal gangue treatment. Value-added utilization as one of the important supplementary ways will become the development direction of comprehensive utilization of coal gangue. It is of significance to further improve the utilization level and efficiency by establishing the circular economy routes of value-added utilization proposed in this paper based on the development situation of value-added utilization.

31 citations

Journal Article
TL;DR: The treatment methods for dye wastewater mainly included: physical method(adsorption,membrane separation,and magnetic separation),chemical method(electrochemical process,photochemical and photocatalytic oxidation,Fenton and Fenton-like oxidation and ozone oxidation),biological method(anaerobic method,aerobic method andanaerization-aerobic combination process).The kinds of new materials and new technology were summarized as discussed by the authors.
Abstract: The current research status and progress of treatment methods for dye wastewater were reviewed.The treatment methods for dye wastewater mainly included:physical method(adsorption,membrane separation,and magnetic separation),chemical method(electrochemical process,photochemical and photocatalytic oxidation,Fenton and Fenton-like oxidation and ozone oxidation),biological method(anaerobic method,aerobic method,anaerobic-aerobic combination process).The kinds of new materials and new technology were summarized.The problems existing in the field of dye wastewater treatment were analyzed.Aiming at the problems,the development trends were prospected.

27 citations

Journal Article
TL;DR: The relationship between soft sensing modeling and identification and nonlinear modeling is presented in this paper, where the advantages and disadvantages of the proposed methods are analyzed, and the applications of these methods are shown.
Abstract: In the commercial chemical process,many primary product variables cannot be measured online,and soft sensor is an important means to solve this problem.Soft sensing modeling is the core issue of soft sensor.The relationship between soft sensing modeling and identification and nonlinear modeling is presented.The dynamic relationship between quality variables and variables that are easy to measure exists between the increments,and identification depends on incremental data,while soft sensing modeling depends on the measured data to get the relationship.Nonlinear modeling establishes the static relationship between these variables,ignoring the dynamic characteristics,which soft sensing modeling should take into account.With deeper understanding of the chemical process properties,the types and structures of soft sensing model have undergone a great change in the last decades,and soft sensing modeling method evolves from mechanism modeling to data-driven modeling,from linear modeling to nonlinear modeling,and from static modeling to dynamic modeling.The development of the soft sensing modeling method is reviewed.The advantages and disadvantages of the proposed methods are analyzed,and the applications of these methods are shown.In the end,the hot issues and the directions of development of soft sensing modeling method are presented.

24 citations

Journal Article
Han Jitian1
TL;DR: In this article, experiments were carried out to investigate the supercooling and crystallization of water under DC magnetic fields with different intensity, and the results showed that the DC magnetic field can reduce the lowest unfrozen temperature and increase super cooling.
Abstract: The supercooling and crystallization of water are affected by many factors,the investigation of which is of great significance in the field of food frozen and conservation and low temperature preservation of biology.Experiments were carried out to investigate the supercooling and crystallization of water under DC magnetic fields with different intensity.The results show that the DC magnetic field can reduce the lowest unfrozen temperature and increase supercooling.The time that water remains supercooled increases with the increase of intensity of DC magnetic filed.The crystallization speed also increases obviously.This effect is considered to relate to the formation of water molecular hydrogen bonds.

23 citations

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Performance
Metrics
No. of papers from the Journal in previous years
YearPapers
20161
2015121
2014232
2013248
2012266
2011249