扫一扫
关注中图网
官方微博
本类五星书更多>
-
>
湖南省志(1978-2002)?铁路志
-
>
公路车宝典(ZINN的公路车维修与保养秘籍)
-
>
晶体管电路设计(下)
-
>
无头案:雍正暴亡之谜
-
>
基于个性化设计策略的智能交通系统关键技术
-
>
花样百出:贵州少数民族图案填色
-
>
识木:全球220种木材图鉴
环境基础化学 版权信息
- ISBN:9787511465719
- 条形码:9787511465719 ; 978-7-5114-6571-9
- 装帧:一般胶版纸
- 册数:暂无
- 重量:暂无
- 所属分类:>
环境基础化学 本书特色
新教材《Environmental Basic Chemistry》为全英文教材,在环境基础化学的教学改革中逐步尝试全英文模式教学,其目标在于培养学生在英语环境中学习化学及环境交叉学科方面内容的能力,拓宽学生的国际视野,提高环境科学与工程专业人才的英语实际应用能力,有助于培养出既懂环境科学与工程专业知识,又精通专业外语的复合型技术人才,为环境专业人才今后进行国际交流与合作奠定良好的基础。
环境基础化学 内容简介
本书包括绪论、物质结构基础、元素及无机化合物、溶液化学、有机物和反应、高分子、生物大分子基础等主要内容。本书的侧重点是环境学科中的基础化学知识,侧重基本原理,并注重理论联系实际,整体具有较好的实用性和可读性。
环境基础化学 目录
1 Introduction ( 1 )
1.1 Chemistry and Its Branches ( 1 )
1.2 Chemistry and Environment ( 1 )
1.3 Objective and Requirements ( 4 )
1.4 Study Plan ( 5 )
1.5 Literatures ( 7 )
2 Basics of Matter Structure ( 12 )
2.1 Basic Concept of Atomic Structure ( 12 )
2.1.1 Lights and Waves ( 12 )
2.1.2 Quantum Numbers and Atomic Orbitals ( 14 )
2.2 Electron Configurations and Periodicity ( 20 )
2.2.1 Configurations and the Pauli Exclusion Principle ( 21 )
2.2.2 Building-Up Principle and the Periodic Table ( 23 )
2.2.3 Orbital Diagrams of Atoms: Hund′s Rule ( 31 )
2.2.4 Some Periodic Properties ( 33 )
2.3 Chemical Bonds and Intermolecular Forces ( 43 )
2.3.1 Ionic Bonds ( 43 )
2.3.2 Covalent Bonds ( 43 )
2.3.3 Bonding in Metals( 46 )
2.3.4 Hybrid Orbitals ( 50 )
2.3.5 Molecular Orbital Theory( 58 )
2.3.6 Covalent Bonding Parameters( 60 )
2.3.7 Polarity of Bonds ( 60 )
2.3.8 Polarity of Molecules ( 61 )
2.3.9 Intermolecular Forces ( 62 )
2.4 Crystal Structure ( 68 )
3.1.2 Sodium and Potassium and Their Compounds ( 76 )
3.1.3 ROH Theory ( 78 )
3.1.4 Potassium and Potassium Compounds ( 80 )
3.2 Group ⅡA: The Alkaline Earth Metals ( 81 )
3.2.1 Magnesium ( 82 )
3.2.2 Calcium ( 85 )
3.2.3 The Particularity and Diagonal Rule of Lithium and Beryllium ( 86 )
3.3 Group ⅢA Elements ( 87 )
3.3.1 Aluminum Element ( 88 )
3.3.2 Aluminum Compounds ( 90 )
3.4 Hydrogen ( 93 )
3.5 Group ⅣA: The Carbon Family ( 93 )
3.5.1 Allotrope ( 93 )
3.5.2 Silicon ( 94 )
3.5.3 Tin and Lead ( 95 )
3.6 Group ⅤA: Nitrogen and the Phosphorus Family ( 98 )
3.6.1 Nitrogen and Its Important Compounds ( 98 )
3.6.2 Phosphorus and Its Important Compounds (101)
3.7 Group ⅥA: Oxygen and the Sulfur Family u56256 .? (103)
3.7.1 Oxygen and Its Compounds (103)
3.7.2 Surfer and Its Compounds (106)
3.8 Group ⅦA: The Halogens (109)
3.8.1 Halogens and Their Compounds (109)
3.8.2 Ion Polarization Theory (113)
3.9 The Transition Elements (115)
3.9.1 Chromium and Its Compounds (115)
3.9.2 Some Important Manganese Compounds (116)
3.9.3 Iron Series Elements (118)
3.9.4 Region ds Elements (120)
3.10 Group ⅧA: The Noble Gases (122)
3.11 Coordination Compounds (124)
3.11.1 Concepts of Coordination Compounds (124)
3.11.2 Writing and Nomenclature of Coordination Compounds (129)
3.11.3 The Chemical Bond Theory of Coordination Compounds Structure (131)
3.11.4 Conditions for the Formation of Coordination Bonds (132 )
3.11.5 Advantages and Disadvantages of Valence Bond Theory (134)
3.11.6 Applications of Coordination Chemistry (134)
Chapter 4 Solution Chemistry (139)
4.1 General Properties of Solution (139)
4.1.1 Ways of Expressing Concentration (139)
4.1.2 Vapor Pressure of a Solution (142)
4.1.3 Boiling-Point Elevation and Freezing-Point Depression (145)
4.1.4 Osmosis (149)
4.2 Acid-Base Concepts (154)
4.2.1 Brief Introduction of Acid-Base Theory (154)
4.2.2 Acid-Base Dissociation Equilibrium (157)
4.2.3 Distribution of Acid-Base Forms in Different pH Solutions (159)
4.2.4 Calculation of pH of Acid and Alkali Solution (162)
4.2.5 Buffer Solution and Its Application (169)
4.2.6 Acidity and Alkalinity in Water Environment (176)
4.2.7 Experimental Determination of pH Value of Solution (176)
4.3 Dissociation Equilibrium of Complex Ions (177)
4.3.1 Stability Constants of Complexes (177)
4.3.2 Factors Affecting the Stability of Complexes in Solution (178)
4.4 Polyphase Ionic Equilibrium of the Insoluble Electrolyte (181)
4.4.1 Solubility of Solid Matter (181)
4.4.2 Precipitation and Dissolution Balance of Insoluble Electrolyte (181)
4.4.3 Equilibrium Constant of Precipitation Dissolution-Solubility
Product (182)
4.4.4 Factors Affecting the Equilibrium of Precipitation Dissolution (183)
4.4.5 Solubility Product Rule (183)
4.4.6 Application of Precipitation Reaction (184)
4.5 Water Purification and Wastewater Treatment (186)
4.5.1 Coagulation and Flocculation (187)
4.5.2 Activated Sludge Process (189)
4.5.3 Biofilm Process (193)
4.5.4 Membrane Bioreactor u56256 .? (194)
4.5.5 Filtration and Reverse Osmosis (196)
5 Organic Compounds and Reaction (200 )
5.1 Alkanes (200)
5.1.1 Nomenclature of Alkanes (202)
5.1.2 Cycloalkanes (208)
5.1.3 Physical Properties of Alkanes (209)
5.1.4 Chemical Properties of Alkanes (211)
5.2 Alkenes and Alkynes (213)
5.2.1 Structures of Alkenes and Alkynes (214)
5.2.2 Nomenclature of Alkenes and Alkynes (214)
5.2.3 Physical Properties of Alkenes and Alkynes (219)
5.2.4 Chemical Properties of Alkenes (219)
5.2.5 Chemical Properties of Alkynes (222)
5.3 Benzene and Its Derivatives (223)
5.3.1 Structure of Benzene (223)
5.3.2 Physical Properties of Aromatic Compounds (226)
5.3.3 Chemical Properties of Aromatic Compounds (226)
5.4 Organic Compounds Containing Functional Groups (227)
5.4.1 Halogenated Hydrocarbons u56256 .? (227)
5.4.2 Organic Compounds Containing Oxygen (232)
5.4.3 Organic Compounds Containing Nitrogen (251)
5.5 Mechanisms of Organic Reactions (258)
5.5.1 Some Reactive Intermediates in Organic Reaction (258)
5.5.2 The Major Reactions and Mechanisms (266)
5.6 Organic Pollution in Environment (280)
5.6.1 Gaseous Organic Pollution (281)
5.6.2 Organic Pollution of Water Body (281)
5.6.3 Priority Pollutants (283)
5.6.4 Persistent Organic Pollutants (283)
5.6.5 Organic Pollutants and Organic Pollution Chemistry (285)
5.7 Reaction Mechanisms in Environmental Organic Chemistry (287)
5.7.1 Hydrolysis Reaction (287)
5.7.2 Oxidation of Environmental Organic Compounds (291)
5.7.3 Reduction of Environmental Organic Compounds (296)
Chapter 6 Polymers (305 )
6.1 Basics of Polymers (305)
6.1.1 Basic Terms and Definitions (305)
6.1.2 Nomenclature of Polymers (306)
6.1.3 Classification of Polymers (308)
6.1.4 Characteristics of Polymers (311)
6.2 Polymer Synthesis (311)
6.2.1 Condensation and Addition Polymerization (312)
6.2.2 Step Polymerization and Chain Polymerization (312)
6.2.3 Other Types of Polymerization (315)
6.3 Polymer Structure and Properties (315)
6.3.1 Polymer Structure (315)
6.3.2 Glass Transition Temperature (Tg) and Flow Temperature (Tf) (318)
6.3.3 Physical Properties of Polymers (319)
6.4 Polymer Processing and Modification (321)
6.4.1 Polymer Processing (321)
6.4.2 Polymer Modification (321)
6.5 Applications of Polymers (323)
6.5.1 Plastics (324)
6.5.2 Rubbers (329)
6.5.3 Fibers (330)
6.5.4 Photosensitive Materials (332)
6.5.5 Composite Materials (333)
6.5.6 Biomedical Materials (334)
6.6 Degradation of Polymers (336)
6.6.1 Hydrolysis (336)
6.6.2 Enzymatic Degradation or Biodegradation (337)
6.6.3 Oxidative Degradation (338)
6.6.4 Thermal Decomposition Reactions (339)
6.6.5 Electron Beam Depolymerization (339)
6.7 Polymers for Environmental Protection (339)
6.7.1 Ion Exchange Resins (IER) (340)
6.7.2 Polymeric Flocculants (345)
6.7.3 Polymeric Membranes for Separation (347)
6.7.4 Molecularly Imprinted Polymers (MIPs) (360 )
7 Basics of Biomolecules (366)
7.1 Carbohydrates (366)
7.1.1 Monosaccharides (367)
7.1.2 Disaccharides (377)
7.1.3 Polysaccharides (380)
7.2 Fatty Acids and Lipids (382)
7.2.1 Fats and Oils (383)
7.2.2 Fatty Acids (386)
7.2.3 Glycerophospholipids (388)
7.2.4 Waxes (390)
7.2.5 Steroids (391)
7.3 Amino Acids and Proteins (392)
7.3.1 Amino Acids (392)
7.3.2 Peptides (397)
7.3.3 Proteins (398)
7.4 Nucleotides and Nucleic Acids (403)
7.4.1 Nucleotides (404)
7.4.2 Structures of Nucleic Acids (409)
7.4.3 Physicochemical Properties of Nucleic Acids (414)
7.5 Enzymes
1.1 Chemistry and Its Branches ( 1 )
1.2 Chemistry and Environment ( 1 )
1.3 Objective and Requirements ( 4 )
1.4 Study Plan ( 5 )
1.5 Literatures ( 7 )
2 Basics of Matter Structure ( 12 )
2.1 Basic Concept of Atomic Structure ( 12 )
2.1.1 Lights and Waves ( 12 )
2.1.2 Quantum Numbers and Atomic Orbitals ( 14 )
2.2 Electron Configurations and Periodicity ( 20 )
2.2.1 Configurations and the Pauli Exclusion Principle ( 21 )
2.2.2 Building-Up Principle and the Periodic Table ( 23 )
2.2.3 Orbital Diagrams of Atoms: Hund′s Rule ( 31 )
2.2.4 Some Periodic Properties ( 33 )
2.3 Chemical Bonds and Intermolecular Forces ( 43 )
2.3.1 Ionic Bonds ( 43 )
2.3.2 Covalent Bonds ( 43 )
2.3.3 Bonding in Metals( 46 )
2.3.4 Hybrid Orbitals ( 50 )
2.3.5 Molecular Orbital Theory( 58 )
2.3.6 Covalent Bonding Parameters( 60 )
2.3.7 Polarity of Bonds ( 60 )
2.3.8 Polarity of Molecules ( 61 )
2.3.9 Intermolecular Forces ( 62 )
2.4 Crystal Structure ( 68 )
3.1.2 Sodium and Potassium and Their Compounds ( 76 )
3.1.3 ROH Theory ( 78 )
3.1.4 Potassium and Potassium Compounds ( 80 )
3.2 Group ⅡA: The Alkaline Earth Metals ( 81 )
3.2.1 Magnesium ( 82 )
3.2.2 Calcium ( 85 )
3.2.3 The Particularity and Diagonal Rule of Lithium and Beryllium ( 86 )
3.3 Group ⅢA Elements ( 87 )
3.3.1 Aluminum Element ( 88 )
3.3.2 Aluminum Compounds ( 90 )
3.4 Hydrogen ( 93 )
3.5 Group ⅣA: The Carbon Family ( 93 )
3.5.1 Allotrope ( 93 )
3.5.2 Silicon ( 94 )
3.5.3 Tin and Lead ( 95 )
3.6 Group ⅤA: Nitrogen and the Phosphorus Family ( 98 )
3.6.1 Nitrogen and Its Important Compounds ( 98 )
3.6.2 Phosphorus and Its Important Compounds (101)
3.7 Group ⅥA: Oxygen and the Sulfur Family u56256 .? (103)
3.7.1 Oxygen and Its Compounds (103)
3.7.2 Surfer and Its Compounds (106)
3.8 Group ⅦA: The Halogens (109)
3.8.1 Halogens and Their Compounds (109)
3.8.2 Ion Polarization Theory (113)
3.9 The Transition Elements (115)
3.9.1 Chromium and Its Compounds (115)
3.9.2 Some Important Manganese Compounds (116)
3.9.3 Iron Series Elements (118)
3.9.4 Region ds Elements (120)
3.10 Group ⅧA: The Noble Gases (122)
3.11 Coordination Compounds (124)
3.11.1 Concepts of Coordination Compounds (124)
3.11.2 Writing and Nomenclature of Coordination Compounds (129)
3.11.3 The Chemical Bond Theory of Coordination Compounds Structure (131)
3.11.4 Conditions for the Formation of Coordination Bonds (132 )
3.11.5 Advantages and Disadvantages of Valence Bond Theory (134)
3.11.6 Applications of Coordination Chemistry (134)
Chapter 4 Solution Chemistry (139)
4.1 General Properties of Solution (139)
4.1.1 Ways of Expressing Concentration (139)
4.1.2 Vapor Pressure of a Solution (142)
4.1.3 Boiling-Point Elevation and Freezing-Point Depression (145)
4.1.4 Osmosis (149)
4.2 Acid-Base Concepts (154)
4.2.1 Brief Introduction of Acid-Base Theory (154)
4.2.2 Acid-Base Dissociation Equilibrium (157)
4.2.3 Distribution of Acid-Base Forms in Different pH Solutions (159)
4.2.4 Calculation of pH of Acid and Alkali Solution (162)
4.2.5 Buffer Solution and Its Application (169)
4.2.6 Acidity and Alkalinity in Water Environment (176)
4.2.7 Experimental Determination of pH Value of Solution (176)
4.3 Dissociation Equilibrium of Complex Ions (177)
4.3.1 Stability Constants of Complexes (177)
4.3.2 Factors Affecting the Stability of Complexes in Solution (178)
4.4 Polyphase Ionic Equilibrium of the Insoluble Electrolyte (181)
4.4.1 Solubility of Solid Matter (181)
4.4.2 Precipitation and Dissolution Balance of Insoluble Electrolyte (181)
4.4.3 Equilibrium Constant of Precipitation Dissolution-Solubility
Product (182)
4.4.4 Factors Affecting the Equilibrium of Precipitation Dissolution (183)
4.4.5 Solubility Product Rule (183)
4.4.6 Application of Precipitation Reaction (184)
4.5 Water Purification and Wastewater Treatment (186)
4.5.1 Coagulation and Flocculation (187)
4.5.2 Activated Sludge Process (189)
4.5.3 Biofilm Process (193)
4.5.4 Membrane Bioreactor u56256 .? (194)
4.5.5 Filtration and Reverse Osmosis (196)
5 Organic Compounds and Reaction (200 )
5.1 Alkanes (200)
5.1.1 Nomenclature of Alkanes (202)
5.1.2 Cycloalkanes (208)
5.1.3 Physical Properties of Alkanes (209)
5.1.4 Chemical Properties of Alkanes (211)
5.2 Alkenes and Alkynes (213)
5.2.1 Structures of Alkenes and Alkynes (214)
5.2.2 Nomenclature of Alkenes and Alkynes (214)
5.2.3 Physical Properties of Alkenes and Alkynes (219)
5.2.4 Chemical Properties of Alkenes (219)
5.2.5 Chemical Properties of Alkynes (222)
5.3 Benzene and Its Derivatives (223)
5.3.1 Structure of Benzene (223)
5.3.2 Physical Properties of Aromatic Compounds (226)
5.3.3 Chemical Properties of Aromatic Compounds (226)
5.4 Organic Compounds Containing Functional Groups (227)
5.4.1 Halogenated Hydrocarbons u56256 .? (227)
5.4.2 Organic Compounds Containing Oxygen (232)
5.4.3 Organic Compounds Containing Nitrogen (251)
5.5 Mechanisms of Organic Reactions (258)
5.5.1 Some Reactive Intermediates in Organic Reaction (258)
5.5.2 The Major Reactions and Mechanisms (266)
5.6 Organic Pollution in Environment (280)
5.6.1 Gaseous Organic Pollution (281)
5.6.2 Organic Pollution of Water Body (281)
5.6.3 Priority Pollutants (283)
5.6.4 Persistent Organic Pollutants (283)
5.6.5 Organic Pollutants and Organic Pollution Chemistry (285)
5.7 Reaction Mechanisms in Environmental Organic Chemistry (287)
5.7.1 Hydrolysis Reaction (287)
5.7.2 Oxidation of Environmental Organic Compounds (291)
5.7.3 Reduction of Environmental Organic Compounds (296)
Chapter 6 Polymers (305 )
6.1 Basics of Polymers (305)
6.1.1 Basic Terms and Definitions (305)
6.1.2 Nomenclature of Polymers (306)
6.1.3 Classification of Polymers (308)
6.1.4 Characteristics of Polymers (311)
6.2 Polymer Synthesis (311)
6.2.1 Condensation and Addition Polymerization (312)
6.2.2 Step Polymerization and Chain Polymerization (312)
6.2.3 Other Types of Polymerization (315)
6.3 Polymer Structure and Properties (315)
6.3.1 Polymer Structure (315)
6.3.2 Glass Transition Temperature (Tg) and Flow Temperature (Tf) (318)
6.3.3 Physical Properties of Polymers (319)
6.4 Polymer Processing and Modification (321)
6.4.1 Polymer Processing (321)
6.4.2 Polymer Modification (321)
6.5 Applications of Polymers (323)
6.5.1 Plastics (324)
6.5.2 Rubbers (329)
6.5.3 Fibers (330)
6.5.4 Photosensitive Materials (332)
6.5.5 Composite Materials (333)
6.5.6 Biomedical Materials (334)
6.6 Degradation of Polymers (336)
6.6.1 Hydrolysis (336)
6.6.2 Enzymatic Degradation or Biodegradation (337)
6.6.3 Oxidative Degradation (338)
6.6.4 Thermal Decomposition Reactions (339)
6.6.5 Electron Beam Depolymerization (339)
6.7 Polymers for Environmental Protection (339)
6.7.1 Ion Exchange Resins (IER) (340)
6.7.2 Polymeric Flocculants (345)
6.7.3 Polymeric Membranes for Separation (347)
6.7.4 Molecularly Imprinted Polymers (MIPs) (360 )
7 Basics of Biomolecules (366)
7.1 Carbohydrates (366)
7.1.1 Monosaccharides (367)
7.1.2 Disaccharides (377)
7.1.3 Polysaccharides (380)
7.2 Fatty Acids and Lipids (382)
7.2.1 Fats and Oils (383)
7.2.2 Fatty Acids (386)
7.2.3 Glycerophospholipids (388)
7.2.4 Waxes (390)
7.2.5 Steroids (391)
7.3 Amino Acids and Proteins (392)
7.3.1 Amino Acids (392)
7.3.2 Peptides (397)
7.3.3 Proteins (398)
7.4 Nucleotides and Nucleic Acids (403)
7.4.1 Nucleotides (404)
7.4.2 Structures of Nucleic Acids (409)
7.4.3 Physicochemical Properties of Nucleic Acids (414)
7.5 Enzymes
展开全部
环境基础化学 作者简介
张干伟,苏州科技大学环境科学与工程学院/江苏省分离净化材料与技术工程研究中心常务主任/教授,中国海洋学会海水淡化与水再利用分会青年专家委员,美国化学学会(ACS)会员,国外学术期刊Journal of Membrane Science, Journal of Materials Chemistry A, Carbohydrate Polymers等审稿人。2020.07 ~ 至今 苏州科技大学,环境科学与工程学院,教授,江苏省分离净化材料与技术工程研究中心常务主任。
书友推荐
本类畅销
-
中国近代十大灾荒
¥38.7¥45 -
室内环境检测实训指导
¥14.6¥20 -
元代北方灾荒与救济
¥21¥28 -
澳门城市环境与文脉研究
¥11.5¥36 -
环境工程实验指导书
¥9.5¥28 -
农业气象灾害防御知识问答
¥3.9¥10
