同类推荐
-
-
现代化工数值计算
-
¥55.00
-
-
化工原理实验
-
¥33.00
-
-
化学反应工程
-
¥69.00
-
-
化工原理实验及虚拟仿真:双语:bilingual
-
¥49.80
-
-
化工原理课程设计
-
¥48.00
-
-
微化工概论与典型实验
-
¥79.00
-
-
现代化工生产与安全技术研究
-
¥72.00
-
-
重质有机资源热解的自由基化学
-
¥158.00
-
-
化工基础实验
-
¥49.00
-
-
高纯度化学品精馏关键技术
-
¥198.00
|
|
图书信息
|
|
|
化工原理实验:双语版
|
ISBN: | 9787122380739 |
定价: | ¥86.00 |
作者: | 叶长燊等编 |
出版社: | 化学工业出版社 |
出版时间: | 2022年03月 |
开本: | 26cm |
页数: | 421页 |
装祯: | 平 |
中图法: | TQ02-33 |
相关供货商
供货商名称
|
库存量
|
库区
|
更新日期
|
北京人天书店有限公司
|
19
|
库区7-1/样本7-1
|
2024-03-28
|
其它供货商库存合计
|
419
|
|
2024-03-27
|
图书简介 | 《化工原理实验(双语版)》共分10章,内容包括绪论、化工原理实验研究方法、实验数据的误差分析、实验数据处理、Excel与Origin软件的应用、实验室常用测量仪表、化工原理虚拟仿真实验、化工原理演示实验、化工原理“三型”实验、化工原理自组装实验、化工原理提高型实验与实训等内容。全书从基础知识到专业知识,从演示实验、虚拟仿真实验到实物实验,从“三型”实验到自组装实验,从单一的单元操作实验到复杂的综合实训实验,由浅入深、由易到难进行介绍,旨在从多方面、多层次实现学生实验设计能力、实践动手能力、工程研究能力、工程问题的综合分析与解决能力的系统性和个性化训练与培养。
本书为中英对照,可作为高等学校化工及相关专业的化工原理实验教材或教学参考书,也可以作为石油、化工、环境、轻工、医药等行业科研和生产技术人员的参考书。
|
目录 | 绪论1r 0.1化工原理实验的教学目的1r 0.2化工原理实验的教学特点1r 0.3化工原理实验的教学内容与方法2r 0.4化工原理实验的教学环节和要求2r 0.5化工原理实验的基本知识6r 0.5.1实验守则7r 0.5.2基本知识7r 0.6任务书12r 0.6.1阻力实验12r 0.6.2离心泵实验13r 0.6.3过滤实验14r 0.6.4传热实验15r 0.6.5吸收实验16r 0.6.6精馏实验18r 0.6.7干燥实验19r 0.6.8液液萃取实验20r r 第1章化工原理实验研究方法22r 1.1直接实验法22r 1.2量纲分析法22r 1.2.1量纲分析法具体步骤23r 1.2.2量纲分析法举例说明23r 1.3数学模型法25r 1.3.1数学模型法主要步骤25r 1.3.2数学模型法举例说明25r 1.3.3数学模型法和量纲分析法的比较26r r 第2章实验数据的误差分析28r 2.1真值与平均值28r 2.2误差的分类29r 2.3误差的表示方法30r 2.4精密度、正确度和 度31r 2.5实验数据的有效数字31r 2.6误差的法33r 2.7直接测量的误差估算36r 2.8间接测量中的误差传递38r 2.9误差分析的具体应用39r r 第3章实验数据处理42r 3.1列表法42r 3.1.1数据表的分类42r 3.1.2设计实验数据表应注意的事项43r 3.2图示法43r 3.2.1坐标系选择的基本原则44r 3.2.2坐标分度的确定44r 3.2.3设计实验数据图应注意的事项45r 3.3数学方程表示法46r 3.3.1图解分析法46r 3.3.2回归分析法49r r 第4章Excel与Origin软件的应用54r 4.1Excel在实验数据处理中的应用54r 4.2Origin在实验数据回归与绘图中的应用60r r 第5章实验室常用测量仪表69r 5.1温度测量69r 5.1.1膨胀式温度计70r 5.1.2热电偶温度计71r 5.1.3热电阻温度计74r 5.1.4温度计的选择和使用原则75r 5.2压力(差)测量75r 5.2.1液柱式压力计75r 5.2.2弹式压力计77r 5.2.3电气式压力计79r 5.2.4活塞式压力计81r 5.2.5压力(差)计的校验81r 5.3流量测量815.3.1速度式流量计81r 5.3.2容积式流量计85r 5.3.3质量流量计85r 5.3.4流量计的检验和标定86r 5.4液位测量86r 5.4.1直读式液位计86r 5.4.2差压式液位计87r 5.4.3浮力式液位计88r r 第6章化工原理虚拟仿真实验91r 6.1虚拟仿真实验概述91r 6.1.1基本操作91r 6.1.2菜单选择能说明93r 6.1.3仪表和阀门调节说明95r 6.1.4注意事项97r 6.2雷诺演示仿真实验97r 6.2.1仿界面97r 6.2.2雷诺演示实验装置97r 6.2.3实验项目98r 6.3化工流动过程综合实验98r 6.3.1仿界面98r 6.3.2化工流动过程综合实验装置99r 6.3.3实验项目99r 6.4离心泵综合能测定实验99r 6.4.1仿界面99r 6.4.2离心泵实验装置100r 6.4.3实验项目100r 6.5恒压过滤实验101r 6.5.1仿界面101r 6.5.2恒压过滤实验装置101r 6.5.3实验项目102r 6.5.4可变换的实验条件102r 6.5.5数据处理注意事项102r 6.6传热综合实验102r 6.6.1仿界面102r 6.6.2传热综合实验装置103r 6.6.3实验项目103r 6.6.4可变换的实验条件103r 6.7二氧化碳吸收与解吸实验104r 6.7.1仿界面104r 6.7.2二氧化碳吸收与解吸实验装置104r 6.7.3实验项目105r 6.7.4可变换的实验条件105r 6.7.5注意事项105r 6.8精馏综合拓展实验105r 6.8.1仿界面105r 6.8.2精馏综合拓展实验装置106r 6.8.3实验项目107r 6.8.4注意事项107r 6.9液液萃取实验108r 6.9.1仿界面108r 6.9.2液液萃取实验装置108r 6.9.3实验项目109r 6.9.4可变换的实验条件109r 6.9.5注意事项109r 6.10洞道干燥实验109r 6.10.1仿界面109r 6.10.2洞道干燥实验装置109r 6.10.3实验项目110r 6.10.4可变换的实验条件110r 6.10.5注意事项110r r 第7章化工原理演示实验111r 7.1雷诺实验111r 7.1.1实验目的111r 7.1.2实验原理111r 7.1.3实验装置111r 7.1.4实验步骤111r 7.1.5注意事项113r 7.1.6思考题113r 7.2能量转化(流体机械能转化)演示实验113r 7.2.1实验目的113r 7.2.2实验原理113r 7.2.3实验装置113r 7.2.4实验步骤114r 7.2.5注意事项115r 7.2.6思考题115r 7.3流线演示实验115r 7.3.1实验目的115r 7.3.2实验原理115r 7.3.3实验装置115r 7.3.4实验步骤116r 7.3.5思考题117r 7.4非均相气固分离演示实验117r 7.4.1实验目的117r 7.4.2实验原理117r 7.4.3实验装置118r 7.4.4实验步骤118r 7.4.5注意事项120r 7.4.6思考题120r 7.5板式塔流体力学能演示实验120r 7.5.1实验目的120r 7.5.2实验原理120r 7.5.3实验装置121r 7.5.4实验步骤122r 7.5.5注意事项122r 7.5.6思考题122r r 第8章化工原理“三型”实验123r 8.1流体流动阻力实验123r 8.1.1实验目的123r 8.1.2实验原理123r 8.1.3实验装置与流程125r 8.1.4实验步骤及注意事项126r 8.1.5思考题127r 8.2离心泵实验128r 8.2.1实验目的128r 8.2.2实验原理128r 8.2.3实验装置与流程129r 8.2.4实验步骤及注意事项130r 8.2.5思考题131r 8.3过滤实验132r 8.3.1实验目的132r 8.3.2实验原理132r 8.3.3实验装置与流程133r 8.3.4实验步骤及注意事项134r 8.3.5思考题135r 8.4传热实验136r 8.4.1实验目的136r 8.4.2实验原理136r 8.4.3实验装置与流程137r 8.4.4实验步骤与注意事项140r 8.4.5思考题142r 8.5吸收实验142r 8.5.1实验目的142r 8.5.2实验原理143r 8.5.3实验装置与流程144r 8.5.4实验步骤与注意事项146r 8.5.5思考题147r 8.6精馏实验148r 8.6.1实验目的148r 8.6.2实验原理148r 8.6.3实验装置与流程151r 8.6.4实验步骤与注意事项154r 8.6.5思考题155r 8.7干燥实验156r 8.7.1实验目的156r 8.7.2实验原理156r 8.7.3实验装置与流程158r 8.7.4实验步骤与注意事项159r 8.7.5思考题160r r 第9章化工原理自组装实验161r 9.1自组装实验目的161r 9.2自组装实验要求161r 9.3自组装实验主要设备、仪表与配件162r 9.3.1流体流动阻力自组装实验162r 9.3.2泵能测试自组装实验163r 9.3.3传热过程强化自组装实验164r 9.3.4列管换热自组装实验164r r 0章化工原理提高型实验与实训166r 10.1液液萃取提高型实验166r 10.1.1实验目的166r 10.1.2实验原理166r 10.1.3实验装置与流程167r 10.1.4实验步骤与注意事项167r 10.1.5思考题171r 10.2多效蒸发综合实训172r 10.2.1实训目的172r 10.2.2基本原理172r 10.2.3工艺流程、主要设备及仪表172r 10.2.4实训项目174r 10.3吸收解吸综合实训175r 10.3.1实训目的175r 10.3.2基本原理176r 10.3.3工艺流程、主要设备及仪表176r 10.3.4实训项目176r r Introduction180r 0.1Teaching objectives180r 0.2Teaching characteristics181r 0.3Teaching content and methods181r 0.4Teaching requirements182r 0.5Basic safety knowledge of the experiment189r 0.5.1Experimental rules189r 0.5.2Basic safety knowledge190r 0.6Tasks196r 0.6.1Resistance experiment196r 0.6.2Centrifugal pump experiment197r 0.6.3Filtration experiment199r 0.6.4Heat transfer experiment201r 0.6.bsorption experiment202r 0.6.6Distillation experiment205r 0.6.7Drying experiment207r 0.6.8Liquid-liquid extraction experiment208r r Chapter 1 Research Methods of Chemical Engineering Principle Experiment211r 1.1Direct experiment method211r 1.2Dimensional analysis method211r 1.2.1Specific steps of dimensional analysis212r 1.2.2Dimensional analysis examples213r 1.3Mathematical model method215r 1.3.1Main steps of mathematical model method215r 1.3.2Mathematical model method example216r 1.3.3Comparison of mathematical model method and dimensional analysis method217r r Chapter 2 Error Analysis of Experimental Data219r 2.1True values and the mean219r 2.2Error classification220r 2.3Error representation methods221r 2.4Precision,trueness and accuracy223r 2.5Effective digits of experimental data224r 2.6Error handling methods227r 2.7Error estimation of directly measured values230r 2.8Error propagation in indirect measurements233r 2.9Application examples of error analysis234r r Chapter 3 Experimental Data Processing238r 3.1Tabular method238r 3.1.1Classification of data tables238r 3.1.2Considerations for designing experimental data tables239r 3.2Graphic method240r 3.2.1Basic principles of coordinate system selection240r 3.2.2Determination of coordinate division241r 3.2.3Considerations for designing experimental data graphs242r 3.3Mathematical equation representation method243r 3.3.1Graphic analysis method244r 3.3.2Regression analysis method247r r Chapter 4 Applications of Excel and Origin Software253r 4.1Application of Excel in the experimental data processing253r 4.2Application of Origin in experimental data regression and plotting260r r Chapter 5 Commonly Used Measuring Instruments in the Laboratory269r 5.1Temperature measurement269r 5.1.1Expansion thermometer270r 5.1.2Thermocouple thermometer273r 5.1.3Thermistor thermometer276r 5.1.4Principles of thermometer selection and use277r 5.2Pressure (pressure drop)measurement278r 5.2.1Liquid column pressure gauge278r 5.2.2Elastic pressure gauge280r 5.2.3Electric pressure gauge283r 5.2.4Piston pressure gauge285r 5.2.5Calibration of pressure gauge285r 5.3Flow measurement286r 5.3.1Velocity flowmeter286r 5.3.2Volumetric flowmeter291r 5.3.3Mass flowmeter292r 5.3.4Flowmeter inspection and calibration292r 5.4Liquid level measurement293r 5.4.1Direct reading level gauge293r 5.4.2Differential pressure level gauge295r 5.4.3Buoyancy liquid level gauge296r r Chapter 6 Virtual Simulation Experiments of Chemical Engineering Principle299r 6.1Overview of virtual simulation experiments299r 6.1.1Basic operations299r 6.1.2Description of menu selection functions301r 6.1.3Instrument and valve adjustment instructions304r 6.1.4Precautions306r 6.2Simulation experiment of Reynolds demonstration306r 6.2.1Main interface of simulation306r 6.2.2Reynolds demonstration experimental device307r 6.2.3Experiment projects308r 6.3Comprehensive experiment of chemical flow processes308r 6.3.1Main interface of simulation308r 6.3.2Experimental device for the comprehensive experiment of chemical flow processes308r 6.3.3Experiment projects309r 6.4Experiment of centrifugal pump comprehensive performance measurement309r 6.4.1Main interface of simulation309r 6.4.2Centrifugal pump experimental device310r 6.4.3Experiment projects311r 6.5Filtration experiment under constant pressure311r 6.5.1Main interface of simulation311r 6.5.2Experimental device of filtration under constant pressure311r 6.5.3Experiment projects312r 6.5.4Adjule experimental conditions312r 6.5.5Notes for data processing312r 6.6Comprehensive experiment of heat transfer313r 6.6.1Main interface of simulation313r 6.6.2Experimental device for comprehensive experiment of heat transfer313r 6.6.3Experiment projects314r 6.6.4Adjule experimental conditions315r 6.7Carbon dioxide absorption and desorption experiment315r 6.7.1Main interface of simulation315r 6.7.2Experimental device of carbon dioxide absorption and desorption315r 6.7.3Experiment projects316r 6.7.4Adjule experimental conditions317r 6.7.5Precautions317r 6.8Comprehensive experiment of rectification317r 6.8.1Main interface of simulation317r 6.8.2Experimental device for comprehensive experiment of rectification318r 6.8.3Experiment projects319r 6.8.4Precautions319r 6.9Liquid-liquid extraction experiment320r 6.9.1Main interface of simulation320r 6.9.2Experimental device for liquid-liquid extraction320r 6.9.3Experiment projects321r 6.9.4Adjule experimental conditions321r 6.9.5Precautions322r 6.10Tunnel drying experiment322r 6.10.1Main interface of simulation322r 6.10.2Tunnel drying experimental device323r 6.10.3Experiment projects323r 6.10.4Adjule experimental conditions323r 6.10.5Precautions324r r Chapter 7 Demonstration Experiment of Chemical Engineering Principle325r 7.1Reynolds experiment325r 7.1.1Experimental objectives325r 7.1.2Experimental principles325r 7.1.3Experimental device325r 7.1.4Experimental procedures326r 7.1.5Precautions327r 7.1.6Questions328r 7.2Demonstration experiment of energy conversion (fluid mechanical energy conversion)328r 7.2.1Experimental objectives328r 7.2.2Experimental principles328r 7.2.3Experimental device329r 7.2.4Experimental procedures330r 7.2.5Precautions330r 7.2.6Questions330r 7.3Streamline demonstration experiment331r 7.3.1Experimental objectives331r 7.3.2Experimental principles331r 7.3.3Experimental device3327.3.4Experimental procedures333r 7.3.5Questions333r 7.4Demonstration experiment of heterogeneous gas-solid separation334r 7.4.1Experimental objectives334r 7.4.2Experimental principles334r 7.4.3Experimental device336r 7.4.4Experimental procedures337r 7.4.5Precautions337r 7.4.6Questions337r 7.5Demonstration experiment of hydrodynamic performance of plate column338r 7.5.1Experimental objectives338r 7.5.2Experimental principles338r 7.5.3Experimental device339r 7.5.4Experimental procedures340r 7.5.5Precautions340r 7.5.6Questions341r r Chapter 8 Chemical Engineering Principle “Three Type”Experiment342r 8.1Fluid flow resistance experiment342r 8.1.1Experimental objective342r 8.1.2Experimental principles342r 8.1.3Experimental device344r 8.1.4Experimental procedures and precautions344r 8.1.5Questions347r 8.2Centrifugal pump experiment348r 8.2.1Experimental objective348r 8.2.2Experimental principles348r 8.2.3Experimental device350r 8.2.4Experimental procedures and precautions351r 8.2.5Questions352r 8.3Filtration experiment353r 8.3.1Experimental objective353r 8.3.2Experimental principles353r 8.3.3Experimental device355r 8.3.4Experimental procedures and precautions356r 8.3.5Questions358r 8.4Heat transfer experiment359r 8.4.1Experimental objectives359r 8.4.2Experimental principles359r 8.4.3Experimental device360r 8.4.4Experimental procedures and precautions363r 8.4.5Questions366r 8.bsorption experiment367r 8.5.1Experimental objectives367r 8.5.2Experimental principles367r 8.5.3Experimental device369r 8.5.4Experimental procedures and precautions371r 8.5.5Questions373r 8.6Distillation experiment374r 8.6.1Experimental objectives374r 8.6.2Experimental principles375r 8.6.3Experimental device378r 8.6.4Experimental procedures and precautions381r 8.6.5Questions383r 8.7Drying experiment384r 8.7.1Experimental objectives384r 8.7.2Experimental principles385r 8.7.3Experimental device387r 8.7.4Experimental procedures and precautions387r 8.7.5Questions389r r Chapter 9 Self-designed Experiments of Chemical Engineering Principle391r 9.1Purpose of self-designed experiments391r 9.2Requirements of self-designed experiments392r 9.3Equipment for self-designed experiments392r 9.3.1Self-designed experiment of fluid flow resistance392r 9.3.2Self-designed experiment of pump performance testing393r 9.3.3Self-designed experiment of enhancedheat transfer394r 9.3.4Self-designed experiment of shell-and-tube heat exchanger395r r Chapter 10 Advanced Experiment and Practical Training397r 10.1Advanced experiment of liquid-liquid extraction397r 10.1.1Experimental objectives397r 10.1.2Experimental principles397r 10.1.3Experimental device399r 10.1.4Experimental procedures and precautions399r 10.1.5Questions404r 10.2Multi-effect evaporation comprehensive training404r 10.2.1Training objectives404r 10.2.2Basic principles405r 10.2.3Process,main devices and instruments406r 10.2.4Training projects407r 10.3Absorption-desorption comprehensive training410r 10.3.1Training objectives410r 10.3.2Basic principles410r 10.3.3Process,main equipment and instruments411r 10.3.4Training projects411r r 附录416r r 参考文献421 |
|