Those who meet one of the following conditions may apply to take the basic examination:

(1) Bachelor degree or above in this major (chemical engineering and technology, polymer materials and engineering, inorganic non-metallic materials engineering, pharmaceutical engineering, light chemical engineering, food science and engineering, bioengineering, etc.). ) or similar major (process equipment and control engineering, environmental engineering, safety engineering, etc.). ).

(two) to obtain a college degree in this major or similar major, and to engage in chemical engineering design for 1 year.

(3) Obtained a bachelor's degree or above in other engineering majors, and worked in chemical engineering design for 1 year.

Article 5 Those who have passed the basic examination and meet one of the following conditions may apply for taking professional examinations:

(1) Having been engaged in chemical engineering design for 2 years after obtaining the professional doctorate; Or after obtaining a similar professional doctorate, he has been engaged in chemical engineering design for 3 years.

(two) after obtaining the master's degree in this major, he has been engaged in chemical engineering design for 3 years; Or after obtaining a master's degree in similar major, he has been engaged in chemical engineering design for 4 years.

(3) graduated from a double bachelor's degree or postgraduate class in this major, and has been engaged in chemical engineering design for 4 years; Or after graduating from a double bachelor's degree or graduate program in a similar major, he has been engaged in chemical engineering design for 5 years.

(four) after obtaining a bachelor's degree or a degree that has passed the professional education evaluation, he has been engaged in chemical engineering design for 4 years; Or after obtaining a bachelor's degree or degree that has not passed the professional education evaluation, he has been engaged in chemical engineering design for 5 years; Or obtain a bachelor's degree or degree in a similar major, and have been engaged in chemical engineering design for 6 years.

(five) after obtaining a college degree in this major, he has been engaged in chemical engineering design for 6 years; Or after obtaining a college degree in a similar major, he has been engaged in chemical engineering design for 7 years.

(6) Having obtained a bachelor's degree or above in other engineering majors, having been engaged in chemical engineering design for 8 years.

Article 6 As of February 3, 20021day, those who meet one of the following conditions may be exempted from the basic examination and only need to take the professional examination:

(1) Having been engaged in chemical engineering design for 5 years after obtaining the professional doctorate; Or after obtaining a similar professional doctorate, he has been engaged in chemical engineering design for 6 years.

(two) after obtaining the master's degree in this major, he has been engaged in chemical engineering design for 6 years; Or after obtaining a master's degree in a similar major, he has been engaged in chemical engineering design for 7 years.

(3) Obtained a double bachelor's degree including this major or graduated from the postgraduate class of this major, and has been engaged in chemical engineering design for 7 years; Or after graduating from a double bachelor's degree or graduate program in a similar major, he has been engaged in chemical engineering design for 8 years.

(four) after obtaining a bachelor's degree or degree in this major, he has been engaged in chemical engineering design for 8 years; Or after obtaining a bachelor's degree or degree in a similar major, he has been engaged in chemical engineering design for 9 years.

(five) after obtaining a college degree in this major, he has been engaged in chemical engineering design for 9 years; Or have been engaged in chemical engineering design for a total of 10 years after obtaining a college degree in a similar major.

(6) Obtained a bachelor's degree or above in other engineering majors, and engaged in chemical engineering design for a total of 12 years.

(seven) after obtaining other engineering professional college degree, engaged in chemical engineering design for 15 years.

(eight) after obtaining the professional secondary school education, engaged in chemical engineering design work for 25 years; Or have been engaged in chemical engineering design for 30 years after obtaining technical secondary school education in similar majors.

Outline of basic examination for qualification of registered chemical engineer

* * * Basic examination subjects and main contents

1. Mathematics (examination questions account for 20%)

1. 1 knowledge of vector algebra, straight line, plane, cylinder, revolution surface, quadric surface and spatial curve in spatial analytic geometry.

1.2 Differential limit, continuity, derivative, differential, partial derivative, total differential, derivative and differential application, etc. , master the basic formula, familiar with the basic calculation method.

1.3 knowledge of indefinite integral, definite integral, generalized integral, double integral, triple integral, plane curve integral and integral application. , and master the basic formula and calculation method.

1.4 infinite series, power series, Taylor series, Fourier series.

1.5 differential equations can separate variable equations, first-order linear equations, reducible equations and linear equations with constant coefficients.

1.6 probability theory and mathematical statistics, random events and probability knowledge, classical probability, distribution and numerical characteristics of one-dimensional random variables. Mathematical statistics, basic knowledge of parameter estimation, hypothesis testing, variance analysis, univariate regression analysis.

2. Thermodynamics (9%)

2. 1 Statistical explanation of gas state parameters, equilibrium state, ideal gas state equation, pressure and temperature of ideal gas.

2.2 Work, heat and internal energy.

2.3 Energy is distributed according to the principle of equal division of degrees of freedom, internal energy of ideal gas, average collision times, average free path and Maxwell velocity distribution law.

2.4 The first law of thermodynamics and its application to the equivalent process and adiabatic process of ideal gas, and the molar heat capacity and enthalpy of gas.

2.5 Thermal process and cycle process.

2.6 heat engine efficiency.

2.7 The second law of thermodynamics and its statistical significance, reversible process and irreversible process, entropy.

3. General Chemistry (14%)

3. 1 Structure and state of matter, distribution of electrons outside the nucleus, electronic structural formulas of atoms and ions, concepts of atomic orbits and electron clouds, characteristics of ionic bonds, characteristics and types of valence bonds. Molecular structural formula, hybrid orbital and molecular space configuration, polar molecules and nonpolar molecules, intermolecular forces and hydrogen bonds. Law of partial pressure and its calculation. Vapor pressure, boiling point and heat of vaporization of liquids. Relationship between crystal types and material properties.

3.2 Solution concentration and calculation. Universal concept, calculation and osmotic pressure of non-electrolyte dilute solution. Ionization equilibrium, ionization constant and calculation of electrolyte solution, same ion effect, ion product of buffer solution and water, pH, salt water equilibrium and acidity and alkalinity of solution. Concept and calculation of multiphase ion balance, acidity and alkalinity of solution, solubility product constant and solubility.

3.3 periodic table structure: the relationship between period and family, atomic structure and periodic table. The properties of elements and the gradual change of acidity and alkalinity of oxides and hydrates.

3.4 The writing and calculation of chemical reaction equations, chemical reaction rate and chemical equilibrium, the concept of reaction heat and the writing of thermochemical reaction equations. The expression method of chemical reaction rate, the influence of concentration and temperature on reaction rate, rate constant and reaction order, activation energy and catalyst concept. The characteristics of chemical equilibrium and the expression of equilibrium constant, the principle and calculation of chemical equilibrium movement, the judgment of pressure entropy and chemical reaction direction.

3.5 Redox and electrochemical oxidants and reductants, writing and balance of redox reaction equations. Composition and symbol of primary battery, electrode reaction and battery reaction, standard electrode potential, Nernst equation and application of electrode potential, electrolysis and metal corrosion.

3.6 Characteristics, classification and nomenclature, functional groups and molecular structural formulas of organic compounds in organic chemistry. Important chemical reactions of organic matter: addition, substitution, elimination, condensation, oxidation, addition polymerization and polycondensation. The molecular formula, properties and uses of typical organic compounds: methane, ethane, benzene, toluene, ethanol, phenol, acetaldehyde, ethyl acetate, ethylamine, aniline, polyvinyl chloride, polyethylene, polyacrylate, engineering plastics (ABS), rubber and nylon 66.

4. Engineering Mechanics (the proportion of test questions is 15%)

4. 1 theoretical mechanics

4. 1. 1 static balance, rigid body, force, constraint, statics axiom, force analysis, moment of force to point, moment of force to axis, couple theory, force system simplification, principal vector, principal moment, force system balance, object system balance (including plane indefinite truss), sliding friction, friction angle, force system simplification. 4. 1.2 Motion equation, trajectory, velocity and acceleration, translation and rotation of rigid body, rotation equation, angular velocity and acceleration of any point in rigid body. 4. 1.3 Basic laws of dynamics, differential equations of particle motion, momentum, impulse and momentum laws. Momentum conservation condition, centroid, centroid motion theorem, centroid motion conservation condition. Moment, moment law, moment conservation condition, differential equation of rigid body fixed axis rotation, moment of inertia, radius of gyration, parallel axis moment of inertia law, work, kinetic energy, kinetic energy theorem, conservation of mechanical energy, inertia force, simplification of rigid body inertial system, D'Alembert principle, linear vibration differential equation of single-degree-of-freedom system, vibration period, frequency and amplitude, constraints, degrees of freedom, generalized coordinates.

4.2 Mechanics of Materials (It is recommended to use the contents of the course "Mechanics of Materials" in the examination outline of "Structure" major, but the following contents should be simplified)

4.2. 1 Axial force and axial force diagram, stress, strength condition, Hooke's law, displacement calculation and strain energy calculation on the section and inclined section of tension and compression bar. 4.2.2 Practical calculation of shear and extrusion, Hooke's shear law and shear stress reciprocity theorem. 4.2.3 Calculation of external couple moment, torque and torque diagram, torsional shear stress and strength conditions of circular shaft, calculation of torsional angle, and calculation of torsional strain energy under stiffness conditions. 4.2.4 Static moment and center of mass, moment of inertia and inertia product, parallel axis movement formula, principal moment of inertia of center of mass. 4.2.5 Internal force equation, shear force diagram and bending moment diagram of beam, differential relation among q, q and m, bending normal stress and normal stress intensity conditions, bending shear stress and shear stress intensity conditions, reasonable cross section of beam, concept of bending center, integral method, superposition method and Descartes' second theorem for finding beam deformation. 4.2.6 Numerical method and graphic method for plane stress state analysis, principal stress and maximum shear stress of point stress state, generalized Hooke's law and four commonly used strength theories. 4.2.7 Oblique curved surface, eccentric compression (or tension), tension bending or combination of pressure bending and torsion bending. 4.2.8 Critical force formula of slender compression bar, application scope of Euler formula, overview and empirical formula of critical stress, and stability checking calculation of compression bar.

5. Electrotechnics (the proportion of test questions is 10%)

5. 1 Electric field and magnetic field: Coulomb's law, Gauss's law, loop law, electromagnetic induction law.

5.2 DC circuit: the basic elements of the circuit, ohm's law, Kirchhoff's law, superposition principle, Thevenin's theorem.

5.3 Sinusoidal AC circuit: sine quantity, effective value, complex impedance, calculation of single-phase and three-phase circuits, power and power factor, and series-parallel resonance.

5.4 Common sense of safe electricity use.

5.5 RC and RL circuit transient process: three-factor analysis method.

5.6 Transformer and motor: voltage, current and impedance transformation of transformer, use of three-phase asynchronous motor, and common relay-contactor control circuit.

5.7 Operational amplifier: Proportional, addition, subtraction and integration circuit composed of ideal operational amplifier.

5.8 Basic knowledge of frequency conversion and frequency modulation.

6. Fluid mechanics (8%)

6. 1 Main physical properties of fluid.

6.2 Hydrostatics. The concept of hydrostatic pressure. Distribution of hydrostatic pressure and calculation of total pressure under gravity.

6.3 Foundation of fluid dynamics. Describe the concept of flow with fluid as the object. Full flow analysis of fluid motion, constant full flow continuity equation, energy equation and momentum equation.

6.4 Fluid resistance and head loss. Two flow patterns of real fluid-laminar flow and turbulent flow. Characteristics of laminar and turbulent flow in a circular tube. Head loss along the line and local head loss. Basic concepts of boundary layer and flow loss around boundary layer.

6.5 orifice plate, nozzle flow and pressure pipe flow are constant.

6.6 Similarity principle and dimensional analysis.

6.7 Measurement of fluid motion parameters (flow rate, velocity and pressure).

7. Computer and numerical methods (the proportion of test questions is 12%)

7. 1 Basic knowledge of computer: composition and function of hardware, composition and function of software, number system conversion.

7.2 Windows operating system.

7.3 Computer programming language program structure and basic provisions, data, variables, arrays, pointers, assignment statements, input and output statements, transfer statements, conditional statements, selection statements, loop statements, functions, subroutine (or process) sequence files and random files. Note: In view of the current situation, FORTRAN language is adopted temporarily. 7.4 Numerical method error, polynomial interpolation and curve fitting, spline interpolation, numerical differentiation, basic principle of numerical quadrature, Newton-Cortes formula, compound quadrature and rhombic algorithm. Euler method for ordinary differential equations, improved Euler method, Runge-Kutta method, iterative method for finding the roots of equations, Newton-Raphson method. Gauss principal component elimination method, Coleski decomposition method and tracing method for solving linear equations.

8. The concept of engineering economy (accounting for 6% of the test questions)

Familiar with basic principles and methods. Evaluation method and comparability principle of economic effect. Estimation method of investment and production cost. Annual cost, expected value, damage analysis, present value, profit and loss analysis, value and depreciation.

8.2 Be familiar with the choice of investment scheme. Selection methods of various investment schemes.

8.3 Be familiar with the economic analysis of equipment renewal. Principles of equipment renewal plan. Determination method of economic life of equipment.

8.4 Understand the technical and economic forecasting methods. Basic concepts of forecasting and various forecasting techniques.

8.5 Understand investment risks and decisions. The concepts of risk and decision. Various risk decision-making methods.

8.6 Understand the technical economy in research and development. Various evaluation methods of R&D projects.

9. Professional Ethics (6% of the test questions)

9. 1 Be familiar with employees' professional ethics and code of conduct (the relationship between individuals and colleagues, individuals and units, individuals and users).

Subject and main content of professional basic examination

1. Physical Chemistry (the proportion of test questions is 20%)

Master basic theories and concepts, and be familiar with typical calculation and application.

1. 1 P, V, T properties of gas (this item can be omitted if it has been included in the "Thermodynamics" subject in the morning exam).

1.2 the first law of thermodynamics (ditto. )

1.3 Second law of thermodynamics (same as above).

1.4 Thermodynamics of multicomponent system (same as above, but the subject of "Thermodynamics" in this morning's exam is not deep).

1.5 chemical equilibrium: chemical equilibrium of ideal gas reaction and chemical equilibrium of actual reaction.

1.6 phase equilibrium: one-component system, two-component system, gas-liquid equilibrium, two-component system, liquid-solid equilibrium and three-component system.

1.7 electrochemistry: electrolytic cell, galvanic cell and Faraday's law, electrolyte solution, galvanic cell, electrolysis and polarization.

1.8 surface phenomena: surface tension, wetting phenomenon, additional pressure of curved liquid surface and capillary phenomenon, adsorption on solid surface, isothermal adsorption, adsorption on solution surface and surfactant.

1.9 basis of chemical kinetics: chemical reaction rate equation, compound reaction rate and mechanism, rate theory.

Kinetics of various special reactions: solution reaction and heterogeneous reaction; Photochemistry and catalysis.

1. 1 1 colloid chemistry. Colloidal dispersion system and its basic properties, stability and aggregation of hydrophobic sol, emulsion, foam, suspension and aerosol, polymer compound solution.

2. Principles of Chemical Engineering (50% of the questions)

Master the basic theories and concepts, be familiar with the calculation and application of basic unit equipment, and be familiar with the process design of typical systems and unit equipment (distillation system and plate distillation column, gas absorption system and packing absorption tower, heat exchange system and tubular heat exchanger, drying system and dryer) of chemical engineering principles. (Some fluid mechanics contents already included in the course of Fluid Mechanics in the morning exam will not be included in the examination content of the course of Chemical Engineering Principles).

2. 1 Fluid conveying machinery, liquid conveying equipment, centrifugal pumps and other types of pumps. Gas conveying and compression equipment.

2.2 Separation of heterogeneous systems: fluidization and pneumatic conveying, sedimentation, filtration, fluidization and pneumatic conveying.

2.3 Mixing device and mixing mechanism of liquid stirring machinery: performance, stirring power and magnification of agitator.

2.4 heat transfer and heat conduction, heat transfer between two fluids, convective heat transfer coefficient, thermal radiation, heat exchanger.

2.5 Evaporation and evaporation equipment: single-effect evaporation and multi-effect evaporation.

2.6 Gas-liquid equilibrium of gas absorption, mass transfer mechanism and absorption rate, calculation of absorption tower, packed tower and packing.

2.7 Vapor-liquid equilibrium of binary system of rectification, rectification mode, design and calculation of binary system rectification, plate tower and multi-system rectification.

2.8 The properties and humidity chart of dry and wet solid air, the material balance of the dryer, the drying rate and time, and the dryer.

2.9 Concept of liquid-liquid extraction, process of extraction operation, calculation and extraction equipment.

2. Calculation of the concept, equipment and technology of10 leaching.

3. Process control (accounting for 6% of the test questions)

3. 1 Understand the basic concepts of process control system, be familiar with the composition of automatic control, and be able to put forward control scheme requirements according to process requirements.

3.2 Be familiar with the characteristics of the controlled object.

3.3 Be familiar with the characteristics of process parameters and conversion technology. Familiar with the measurement process, the main measurement and conversion methods and principles of four process parameters (pressure, flow, temperature and liquid level), the basic working principles, characteristics, performance indicators and application occasions of commonly used instruments, and error analysis.

3.4 display instrument to understand the measuring principle of automatic electronic potentiometer. Understand the basic composition and usage of digital display instrument.

3.5 Automatic regulating instruments understand the characteristics, characteristics and applications of the input-output relationship of basic and common regulating laws.

3.6 The actuator understands the basic composition of the actuator, the structural characteristics and application of the pneumatic diaphragm control valve. Understand the flow characteristics of the control valve. Understand the air opening and closing form of regulating valve and the selection method of positive and negative effects of controller.

3.7 Familiar with the process design scheme of simple control system.

3.8 Understand the composition and characteristics of computer control system, as well as the knowledge of process control computer interface technology and process control computer software and hardware technology.

4. Fundamentals of Chemical Engineering Design (the proportion of test questions is 15%)

4. 1 process design understand the meaning, types and classification of process design and engineering design, the work contents in different design stages and their main work sequences. Understand the preliminary work content, work sequence and specific requirements of chemical design, site selection, project proposal, feasibility study and design task book. Understand the collection of basic data of chemical process design, the preparation of design scheme, the content and requirements of process calculation, and be familiar with the basic methods of material balance and energy balance. Understand the design of chemical process flow, make clear the main tasks (technical rationality) of process flow design, and understand the methods of process flow design and the drawing of process flow chart. Understand the plane and elevation layout of the workshop, understand the basic content of equipment layout, the basic requirements of technology, architecture and equipment for workshop layout and the matters that should be considered comprehensively. Understand the general requirements and basic specifications of pipeline layout and design, and be familiar with the specifications, materials, properties and uses of common pipeline fittings and various pipelines and valves. Understand the general engineering knowledge and basic contents of design requirements of related majors (chemical equipment and machinery, process control, civil engineering, public engineering, etc.). ). Understand the writing content and requirements of process design instruction.

4.2 Process design safety Be familiar with the safety factors involved in process design safety. Understand the basic contents and general requirements of fire prevention, explosion prevention, gas protection and labor safety and health, as well as the basic norms to be followed.

4.3 Economic analysis of process design Be familiar with the factors, basic contents and general requirements that should be analyzed for the economic rationality of process design. Understand the requirements and standards of design scheme evaluation and the general methods of evaluation.

5. Chemical pollution prevention and control (9% of the test questions)

5. 1 environmental pollution control principle Be familiar with the basic principles of industrial pollution control and comprehensively apply knowledge.

5.2 wastewater treatment understand the general methods of wastewater treatment. Understand the treatment technology of heterogeneous wastewater and biological treatment technology and incineration knowledge of organic wastewater.

5.3 Waste gas treatment Understand the general methods of chemical waste gas treatment. Understand the purification technology of particulate pollutants in exhaust gas, absorption, adsorption and catalytic conversion of gaseous pollutants and incineration knowledge.

5.4 Waste residue treatment Understand the general methods of solid waste treatment and disposal. Understand the pretreatment technology of solid waste, sludge concentration and dehydration, and technical knowledge of solidification, pyrolysis and incineration.

5.5 Environmental Noise Control Understand the basic concept of noise control, the nature of sound source, the expression of sound pressure and sound speed, and the energy relationship in sound field. Understand the general methods of noise control, sound absorption and sound insulation and the basic knowledge of muffler. Understand the scope and requirements of noise control in industrial areas and residential areas.

[Edit this paragraph] Professional Examination Outline for Certified Chemical Engineer Qualification

1. Material energy balance (the proportion of test questions is 16%)

Master the design and analysis methods of material and energy balance in process and the calculation skills of system and unit equipment.

1. 1 Material and energy (including loss) analysis of industrial processes and chemical processes, chemical reaction formula.

1.2 process calculation and laws of material balance, energy balance, process quality conservation and energy conservation.

2. Thermodynamic process (the proportion of test questions is 10%)

Master thermal process design and analysis methods, as well as calculation skills of systems and unit equipment.

2. 1 Physical and chemical properties of substances: estimation and conversion of physical properties of substances, ideal gas and mixed gas, solution properties.

2.2 Thermodynamics and the first law of energy: basic design knowledge and calculation skills for industrial applications, including phase equilibrium, phase diagram, latent heat, PVT data and relations, chemical heat balance, reaction heat, combustion, thermodynamic process, evaporation and crystallization, comprehensive utilization of thermal energy, steam and condensation balance.

2.3 The second law of thermodynamics and entropy: basic design knowledge and calculation skills for industrial application.

2.4 Power cycle: refrigeration and heat pump.

3. Fluid flow process (the proportion of test questions is 14%)

Master the design and analysis methods of main types of processes, industrial application and calculation skills of systems and unit equipment.

3. Application of1Bernoulli equation, such as hydraulic calculation of pipeline, fluid flowing through bed, two-phase flow, etc.

3.2 Calculation of process parameters of fluid conveying machinery.

3.3 Solid conveying, screening and crushing.

3.4 Separation of gas, liquid and solid.

4. Heat transfer process (the proportion of test questions is 14%)

Master the design and analysis methods of heat transfer process, industrial application of systems and unit equipment and process calculation skills.

4. 1 theoretical knowledge of energy conservation and its application in practical industrial problems.

4.2 Analysis and calculation of conduction, convection and radiation heat transfer process.

4.3 Process design of heat exchanger.

5. Mass transfer process (proportion of test questions 14%)

Master the design and analysis methods of mass transfer process, industrial application and calculation skills of systems and unit equipment.

5. 1 theoretical knowledge of mass balance and calculation skills in industrial application.

5.2 Analysis and calculation of absorption, adsorption, desorption, distillation, drying, extraction, humidification and dehumidification.

6. Kinetics of chemical reaction (the proportion of test questions is 6%)

Master the design and analysis of industrial chemical reaction process, industrial application and calculation skills of systems and unit equipment.

6. 1 Basic principle and industrial application of chemical reaction kinetics.

6.2 Comparison and selection of chemical reactor types.

6.3 Process calculation and analysis of chemical reactors: industrial reactors, ideal isothermal reactors (single-stage and multi-stage batch reactors, plug flow reactors and continuous stirred tank reactors) and reactor analysis of single adiabatic and non-isothermal single-phase and multi-phase reactions are designed according to the rate model and/or product distribution (residence time distribution and corresponding conversion rate).

6.4 Process control of the reactor.

7. Chemical process design (test account for 10%)

Master the process design methods and skills of chemical plants.

7. 1 Optimization design of process scheme.

7.2 process flow chart (PFD).

7.3 Determination of design pressure and design temperature.

7.4 Calculation of energy consumption.

7.5 Determine the process parameters of equipment (vessels, heat exchangers, towers, pumps, fans, compressors, etc.). ); Understand the special manufacturing requirements, material characteristics and anti-corrosion requirements.

7.6 Determination of process control (detection, analysis, indication and control) scheme.

7.7 Be familiar with the laws, regulations and applications of fire protection, labor safety and health and environmental protection in process devices.

8. Chemical process system design (the proportion of test questions is 10%)

Master the design methods and skills of chemical plant process system.

8. 1 Process and utility piping and instrument flow chart (PID, UID) in the device.

8.2 Analysis of system resistance drop, calculation of resistance of compressible fluid and incompressible fluid in pipelines, noise control of pipelines and valves, requirements for equipment connection, and pump pressure difference.

8.3 Setting principles and relevant data sheets of valves and safety valves, bursting discs, orifice plates and flame arresters; Pipeline data sheet.

8.4 Equipment elevation and net positive suction head (NPSH) of the pump.

8.5 Be familiar with the equipment layout design requirements of the factory.

8.6 Be familiar with the pipeline layout requirements of the factory, as well as the insulation and painting requirements of equipment and pipelines.

8.7 General safety analysis methods, familiar with HAZOP analysis, fault tree analysis and list method.

9. Engineering Economic Analysis (3% of the test questions)

Familiar with the skills of applying engineering economic analysis method in engineering projects.

9. 1 Basic knowledge of project cost, relevant data and evaluation methods of technical and economic analysis, requirements and criteria of design scheme evaluation.

9.2 Cost composition analysis, engineering quota and engineering quantity calculation rules.

9.3 Understand the budgetary estimate, budget and cost estimation methods.

10. Chemical engineering project management (3% of the questions)

Familiar with chemical project management and relevant infrastructure laws and regulations in China.

10. 1 Forms and procedures of project bidding, bidding procedures and strategies, bid-winning conditions and evaluation methods, project contract management, project cost and resource control, and project claim.

10.2 the concept and basic knowledge of project management.

10.3 knowledge of factory design (contents, procedures and stages), laws and regulations related to capital construction in China.

10.4 The responsibilities, working procedures, document contents and expression depth of this major at all stages of project implementation (consultation, pre-project work, quotation, design, procurement, construction, supervision, start-up, etc.). ).

Bibliography of basic examination for qualification of registered chemical engineer

Advanced mathematics

1. Tongji University: Advanced Mathematics (Volume I, Volume II) (Third Edition). Higher Education Press, 1988.

2. Mathematics Department of Tongji University: Linear Algebra (2nd Edition). Higher Education Press, 199 1 year.

3. Xie Shuzhi, editor. Engineering Mathematics-Vector Analysis and Field Theory (2nd Edition). Higher education press.

4. Edited by Chen Jiading and Liu Wang. Lecture notes on probability and juice control (second edition) Higher education press.

general physics

Cheng, editor-in-chief of General Physics (third edition). Higher Education Press, 1979.

Sanmen general chemistry

General Chemistry (3rd Edition), edited by Zhejiang University. Higher Education Press, 1988.

2. Tongji University: General Chemistry. Tongji University Press, 1993.

3. Liu Guopu Eide. College chemistry. Tsinghua University Publishing House, 1994.

4. Yu Chunhai, Qi Changyao, editor. Engineering chemistry. Northeast Linda Press, 1996.

Four theoretical mechanics

1. Theoretical Mechanics (1st Edition). Tongji University Press, 1990.

2. Tan Guangquan, Luo Longkai, Xie Guangda, Fan. Theoretical mechanics (second edition). South China University of Technology Press, 1995.

3. East China Institute of Water Conservancy: Theoretical Mechanics. People's Education Press, 1978.

Five materials mechanics

1. Sun, Hu Zengqiang, Jin Xinquan: Mechanics of Materials (3rd Edition). Higher Education Press, 1994.

2. Liu Hongwen: Mechanics of Materials (3rd Edition). Higher Education Press, 1994.

Six fluid mechanics

1. Department of Mechanics, Southwest Jiaotong University: Hydraulic Electrotechnics. Higher Education Press, 1995438+0 years.

2. Hao Zhongtang, Zhou Junchang Editor: Applied Fluid Mechanics. Zhejiang University Press, 199 1 year.

7. Computer application foundation

1. Xu Huimin, etc., Computer Foundation and Internet Application Course. Machinery Industry Press, 200 1.

2. Tan Haoqiang and Tian Shuqing, editor. FORTRAN77 structured programming. Higher Education Press, 1985.

Electrical and electronic technology

1. Qin, editor-in-chief: electrotechnics (Volume I and II) (fourth edition). Higher Education Press, 1990.

2. Luo Shouxin: Electrotechnics (Ⅰ, Ⅱ) (3rd Edition). Higher Education Press, 1993.

3. Cheng, edited by Jiang Zhishui: General Physics (3rd Edition) Higher Education Press, 1979.

Nine engineering economy

1. Fu Jiaji, Tong, Editor-in-Chief: Industrial Technical Economics (3rd Edition). Tsinghua University Publishing House.

2. Wu Tianzu Editor-in-Chief: Introduction to Technical Economics. Higher education publishing.

physical chemistry

Department of Physical Chemistry, Tianjin University, edited by Song Shimo: Physical Chemistry (3rd Edition). Higher education press.

Eleven principles of chemical engineering

Principles of chemical engineering. Tianjin Science and Technology Press.

Twelve chemical process control

Li Yuming, Editor-in-Chief: Chemical Instruments and Automation (3rd Edition). Chemical industry press.

Thirteen chemical engineering design basis

Ni Jinfang, Editor-in-Chief: Chemical Process Design. Chemical industry press.

Fundamentals of chemical pollution control

1. environmental engineering, Jiang, editor-in-chief. Higher education press.

2. Wang Dayi, Editor-in-Chief: Introduction to Chemical Environmental Engineering. Chemical industry press.

Chemical thermodynamics in the tenth five-year plan

Tongjingshan. Chemical thermodynamics. Tsinghua University Publishing House.

Sixteen professional laws and regulations

1. Environmental Protection Law of People's Republic of China (PRC).

People's Republic of China (PRC) water pollution prevention law.

People's Republic of China (PRC) Law on the Prevention and Control of Environmental Pollution by Solid Waste.

People's Republic of China (PRC) air pollution prevention law.

5. Law of People's Republic of China (PRC) on Prevention and Control of Environmental Noise Pollution.