期刊文献+
共找到11篇文章
< 1 >
每页显示 20 50 100
Temperature Drop of Molten Metals in Open Channels
1
作者 Miguel A. Barron-Meza Joan Reyes-Miranda 《World Journal of Engineering and Technology》 2024年第3期493-500,共8页
The temperature drop of molten metal flowing in open channels is numerically determined. Rectangular, trapezoidal and triangular geometries are considered. The overall heat transfer coefficients for the bottom, side w... The temperature drop of molten metal flowing in open channels is numerically determined. Rectangular, trapezoidal and triangular geometries are considered. The overall heat transfer coefficients for the bottom, side walls and free surface of the channel have been taken from the literature. For each geometry, the volumetric flow rate, mean residence time and temperature drop as a function of the channel inclination angle were determined. The rectangular and trapezoidal geometries present the smallest temperature drops, while the triangular geometry presents the greatest temperature drop. The factors that most affect this drop are the value of the free surface area of the channel, and the average residence time of the molten metal in the channel. 展开更多
关键词 Free Surface Heat Transfer Molten Metal Open Channel Geometry Residence Time temperature drop
下载PDF
Improvement of Temperature Drop Model Parameters for 4200mm/3500mm Rolling of Baosteel Medium and Thick Plate
2
作者 Kong Peng 《Frontiers of Metallurgical Industry》 2024年第1期27-30,共4页
Based on the temperature situation during the rolling process of 4200 mm/3500 mm medium and thick plates at Baosteel,this article analyzes the influencing factors of temperature changes during the rolling process from... Based on the temperature situation during the rolling process of 4200 mm/3500 mm medium and thick plates at Baosteel,this article analyzes the influencing factors of temperature changes during the rolling process from the perspective of heat transfer theory and the temperature change law during the rolling process.The temperature loss during the four rolling processes is tracked on site,and the temperature drop model parameters during the rolling process of 4200mm/3500mm medium and thick plates at Baosteel are quantitatively provided.It is applied to actual rolling production and has achieved good results. 展开更多
关键词 medium thickness plate rolling process temperature drop
下载PDF
Study of main factors influencing unsteady-state temperature drop in oil tank storage under dynamic thermal environment coupling
3
作者 Wei Sun Ming-Yang Li +4 位作者 Yu-Duo Liu Qing-Lin Cheng Li-Xin Zhao Shuai Shao Zhi-Hua Wang 《Petroleum Science》 SCIE EI CAS CSCD 2023年第6期3783-3797,共15页
With the increasing oil demand, the construction of oil energy reserves in China needs to be further strengthened. However, given that there has been no research on the main influencing factors of crude oil temperatur... With the increasing oil demand, the construction of oil energy reserves in China needs to be further strengthened. However, given that there has been no research on the main influencing factors of crude oil temperature drop in storage tanks under actual dynamically changing environments, this paper considers the influence of dynamic thermal environment and internal crude oil physical properties on the fluctuating changes in crude oil temperature. A theoretical model of the unsteady-state temperature drop heat transfer process is developed from a three-dimensional perspective. According to the temperature drop variation law of crude oil storage tank under the coupling effect of various heat transfer modes such as external forced convection, thermal radiation, and internal natural convection, the external dynamic thermal environment influence zone, the internal crude oil physical property influence zone, and the intermediate transition zone of the tank are proposed. And the multiple non-linear regression method is used to quantitatively characterize the influence of external ambient temperature, solar radiation, wind speed, internal crude oil density, viscosity, and specific heat capacity on the temperature drop of crude oil in each influencing zone. The results of this paper not only quantitatively explain the main influencing factors of the oil temperature drop in the top, wall, and bottom regions of the tank, but also provide a theoretical reference for oil security reserves under a dynamic thermal environment. 展开更多
关键词 Oil temperature drop Forced convection Natural convection Dynamic thermal environment Quantitative analysis
下载PDF
Dynamic changes of phenolic compound contents in leaf and bark of poplar during autumn temperature drop 被引量:2
4
作者 LI Chun-ming WANG Yang YU Wen-xi 《Journal of Forestry Research》 SCIE CAS CSCD 2011年第3期481-485,共5页
We investigated seasonal dynamics of phenolics substance in leaf and bark of two cultivars of poplar, Populus alba×berolinensis and P. בZhonglin Sanbei 1’, during autumn temperature drop for analyzing the... We investigated seasonal dynamics of phenolics substance in leaf and bark of two cultivars of poplar, Populus alba×berolinensis and P. בZhonglin Sanbei 1’, during autumn temperature drop for analyzing the roles of phenolic secondary metabolites in cold resistance. Results show that the contents of condensed tannin and flavonoid in poplar leaf and the flavonoid contents in bark of P. בZhonglin Sanbei 1’ were increased with the decrease of autumn minimum temperature, showing a significantly negative correlation between the contents of soluble phenolic substance in the leaves and changeable temperature. In contrast, lignin content in the poplar leaves is decreased in the process of temperature drop, showing a significantly positive correlation. These results indicate that the variation in phenolic substance has a close correlation with its cold-resistance during the autumn temperature drop. 展开更多
关键词 POPLAR natural temperature drop condensed tannin flavonoid LIGNIN
下载PDF
Fiber Concrete under Temperature Drop Load with Stochastic FEM
5
作者 齐锋 张文金 《Journal of Shanghai Jiaotong university(Science)》 EI 2008年第2期161-165,共5页
Plain concrete plate and fiber concrete plate subjected to temperature drop load were analyzed on stochastic finite element method (FEM).It is found that fibers can enhance concrete ability to resist tem- perature dro... Plain concrete plate and fiber concrete plate subjected to temperature drop load were analyzed on stochastic finite element method (FEM).It is found that fibers can enhance concrete ability to resist tem- perature drop load for improving concrete's fracture energy and deferring the crack process.It is found for concrete not to improve apparently its tensile strength and fracture energy is recommended to be its appraisal parameter. 展开更多
关键词 fiber concrete stochastic finite element method temperature drop load
下载PDF
A brief investigation on transversal temperature distribution during hot rolling
6
作者 SHAN Xuyi 《Baosteel Technical Research》 CAS 2012年第4期3-10,共8页
Temperature evolution of a working piece during hot rolling has a significant influence on the microstmcture and final mechanical properties of the material. As the measurement technologies improve, on-line measuremen... Temperature evolution of a working piece during hot rolling has a significant influence on the microstmcture and final mechanical properties of the material. As the measurement technologies improve, on-line measurement of the temperature across the strip width has become accessible, and thus monitoring and control of the transversal temperature distribution during hot rolling can be realized. The scanning of the temperature across the strip width can help us to understand the state of the temperature variation at the strip edges and as a result help us improve the temperature homogeneity of the strip. In this paper, reaearch on temperature distribution along the strip width is reviewed first, and then the mechanism of the scanning measuring devices is introduced. With the temperature scanning measurement data taken from the finishing mill entry point and the down coiler entry point, the temperature distribution at the strip edges is analyzed. It is pointed out that the roughing process is the main contributor to the temperature inhomogeneity. Furthermore,the contribution of the edger heater to the temperature homogeneity is investigated. 展开更多
关键词 hot rolling temperature distribution across strip width temperature drop at strip edges
下载PDF
Co-seismic Water Level and Temperature Responses of Some Wells to Far-Field Strong Earthquakes and Their Mechanisms
7
作者 Chen Daqing Liu Yaowei +1 位作者 Yang Xuanhui Liu Yongming 《Earthquake Research in China》 2007年第3期333-344,共12页
The observation of water temperature in deep wells has been carried out for more than 20 years in China.However,study on the mechanism of water temperature response to earthquakes is inadequate.During the study of the... The observation of water temperature in deep wells has been carried out for more than 20 years in China.However,study on the mechanism of water temperature response to earthquakes is inadequate.During the study of the co-seismic response characteristics of water level and temperature in 121 wells within the China subsurface fluid monitoring network at the time of the December 26,2004,M-S8.7 Indonesia earthquake,we found regular response characteristics,that is,when the water level in a deep well oscillates,the water temperature in the same well will mostly experience a cycle from dropping to restoration at the same time.The process will continue for dozens of minutes to several hours.In order to confirm the observed phenomenon,we collected the digital water level and temperature observation data for 39 far-field strong earthquakes from the Tangshan well in Hebei Province(with the data set beginning in 2001).The same response characteristics were observed.Based on the analysis of the influencing factors that may cause the water temperature drop,the authors suggest the gas escape mechanism for co-seismic water temperature drop and posit two main factors that influence the water temperature drop during the process of gas escape.Finally,the authors provide a rational explanation of some observed phenomena based on the mechanism. 展开更多
关键词 Water level oscillation Water temperature drop Co-seismic response Gas escape
下载PDF
An experimental study on the choked flow characteristics of CO_(2) pipelines in various phases 被引量:2
8
作者 Yuxing Li Shuaiwei Gu +3 位作者 Datong Zhang Qihui Hu Lin Teng Cailin Wang 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2021年第4期17-26,共10页
High pressure pipeline transportation has been an established technology for economically transporting large amounts of CO_(2).However,there are still issues and associated risks that have to be effectively addressed ... High pressure pipeline transportation has been an established technology for economically transporting large amounts of CO_(2).However,there are still issues and associated risks that have to be effectively addressed and adequately understood.It is well known that a strong JouleThomson Cooling effect can occur when pressurized CO_(2) flows through a choke valve.Thus,to investigate the choking characteristics especially the temperature drop of high pressure CO_(2),a new laboratory scale experimental setup(total length of 14.85 m and the inner diameter of 15 mm)was constructed.Steady choked flow and transient choked flow tests were carried out respectively for pressurized CO_(2) in various initial phases.The phase transitions and temperature drop characteristics were then studied following the choked flow and the results show that the phase transitions in steady choked flow differs significantly from that in transient choked flow.For transient choked flow of various initial phases,all the flows downstream would transfer from single phase to gas-liquid twophase flow.Furthermore,the effect of water on transient choked flow of supercritical CO_(2) pipeline was investigated,and the phenomena of solid particles deposition was captured which was paramount importance of ensuring the safety operation of CO_(2)pipelines when throttling by the choke valves. 展开更多
关键词 CO^(2)pipeline Steady choked flow Transient choked flow Water temperature drop
下载PDF
Study of Multilayer Flow Insulation Utilizing Open-Cellular Porous Plates
9
作者 P. Khantikomol S. Saito T. Yokomine 《Journal of Energy and Power Engineering》 2010年第11期21-29,共9页
To improve the performance of the single layer flow insulation system utilizing open-cellular porous plate, the multilayer porous gas enthalpy-radiation converter is proposed and investigated experimentally and theore... To improve the performance of the single layer flow insulation system utilizing open-cellular porous plate, the multilayer porous gas enthalpy-radiation converter is proposed and investigated experimentally and theoretically. Two open-cellular porous materials with different porosity pore per inch and surface reflectivity have been examined. Each porous plate has the same thickness of a half of the single layer one. Both porous materials are not combined continuously but divided by free space. For the prediction model, two energy equations of the fluid and solid phases are employed, in which the convective heat transfer between both phases is described based on the empirical volumetric heat transfer coefficient. In addition, the radiative transfer equations are resolved by Pj approximation. When an equivalent blackbody radiation temperature of the radiation coming from the upstream region exceeds inlet gas temperature, use of a high reflective porous plate on the upstream side and a low reflective porous plate on the downstream side is quite effective to increase gas temperature drop across the converter. the multilayer porous converter should be made of pure scattering and porous layer, respectively. In order to obtain maximum gas temperature drop in that case, pure absorbing porous plate as the upstream and downstream 展开更多
关键词 Flow insulation open-cellular porous gas enthalpy-radiation converter gas temperature drop.
下载PDF
An Idea of Extracting Fresh Water from the Atmosphere
10
作者 Ji Wenjun Zhao Hui +2 位作者 Cao Ruixue Yi Xiaofei Cheng Yinhe 《Meteorological and Environmental Research》 CAS 2014年第5期39-40,共2页
Based on principles of vapor coagulation, a method of extracting fresh water from the atmosphere was put forward. Its principles are simple, and it is easy to make and install the equipment made cheaply. Moreover, the... Based on principles of vapor coagulation, a method of extracting fresh water from the atmosphere was put forward. Its principles are simple, and it is easy to make and install the equipment made cheaply. Moreover, there is no or much less energy consumed during the extraction process, so there is no environmental pollution. In a word, this method of extracting fresh water from the atmosphere is of great practical value. 展开更多
关键词 Vapor drop in temperature COAGULATION Extraction of fresh water China
下载PDF
Simulation of Thermal Insulation of Top-Surface Slag Layers in Continuous Casting Mold
11
作者 WANG Qiang WU Ye-ming QIU Sheng-tao ZHAO Pei 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2011年第10期29-33,共5页
A computational model of thermal behavior of the top-surface slag layers in continuous casting mold was applied to interpret the thermal insulation of mold powder. The temperature drop of liquid steel caused by heat r... A computational model of thermal behavior of the top-surface slag layers in continuous casting mold was applied to interpret the thermal insulation of mold powder. The temperature drop of liquid steel caused by heat re moral at the interface of molten steel and slag in mold was proposed to evaluate the thermal insulation of mold slag. The calculation results show that slag consumption is one of important factor influencing the temperature drop, while the casting speed has no obvious effect on it. With the increase of slag consumption, the temperature drop is increased. 展开更多
关键词 thermal insulation temperature distribution heat flux temperature drop
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部