1-Introduction of the Course:Advanced Environmental Chemistry
Course Name:Advanced Environmental Chemistry
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
Environmental chemistry is becoming increasingly crucial in understanding important issues that range from climate change to local pollution problems. It is the study of the chemical and biochemical phenomena that occur in the environment. It also studies the effects of these chemicals on ecosystems, animals, and human health. The course (Advanced Environmental Chemistry) deals with organic and inorganic substances in the environment with respect to their chemical structure and function, sources and emissions, remediation, distribution, transformation and fate in the environment, as well as their health and effects on biota. Critical environmental chemical processes in biota, soil, sediment, water and air are studied theoretically. The course also introduces risk assessment with relevant methodologies, processes and legislation. The course ends with a written examination or an independent project where the students, in smaller groups, perform an environmental study including sampling, sample pretreatment, analysis, data treatment, report writing and oral presentation.
2-Introduction of the Course:AdvancedEnvironmental Biology
Course Name:AdvancedEnvironmental Biology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
Environmental biology is an emerging interdisciplinary subject developed under the increasingly prominent global environmental problems. It integrates multi-disciplinary content such as biology, chemistry, toxicology, ecology, and molecular biology. Through the study of this course, students can systematically grasp the interaction between organisms and the damaged environment and its internal regulation mechanism. The contents include basic theories of biology, migration and transformation of environmental pollutants in ecosystems, the impact and toxicity of damaged environments on organisms, changes and adaptability of organisms in damaged environments, biological monitoring, and biological effects on environmental quality improvement and other aspects.Meanwhile,this course focuses on the hot topics in some frontier areas throughout the lecture, such as the biologicalissuesin global change, the long-term biological effects of pollution globalization, and the application of modern biotechnology in environmental pollution control and so on. This course aims to cultivate and improve students' basic qualities and innovative ability to use environmental biology principles and methods to solve practical environmental problems.
3-Introduction of the Course:Introduction of Modern Environmental Engineering
Course Name:Introduction of Modern Environmental Engineering
Credit:3
Teaching hours:36
Contents of the Syllabus:(at least 300 words)
Modern environmental engineering is to study the theory, technical principle and engineering methodology to protect and to improve the environmental quality. This course introduces the sources and effects of environmental problems, and points out the relationship between these problems and human activities. On this basis, the principle of sustainable strategy, the theory and approach of sustainable development are explained. As a basic course of environmental engineering, it mainly introduces the phenomena and principles of common processes involved in water treatment engineering, air pollution control engineering, solid waste treatment and disposal engineering and ecological restoration engineering. The contents include the principles of environmental engineering, separation process and reaction engineering. Students will learn the composition and properties of natural water, wastewater, air, waste gas, soil, solid wastes, etc. Standards of water quality, wastewater, air quality and solid wastes, the properties of main pollutants and analytical methods are introduced. The mechanisms, characteristics, composition of the main physicochemical and biological treatment technology units in water and wastewater treatment, the method of calculation, typical water and wastewater treatment processes, operation and application of the processes, as well as the latest research progress of related technologies are explained. The microorganisms in biological wastewater treatment, their physiological characteristics and application in pollution control are covered. Students are instructed with the relevant laws and regulations and standard of air pollution control. The mechanisms of how air pollution is generated by energy utilization, the quantitative calculation of air pollutants generated by combustion, the calculation of various modes of air pollutant transportation and diffusion, the hydrodynamics in the removal of particulate matter are illustrated. The principle, process and equipment of particulate matter and gas pollutant removal are introduced. This course also includes the principles and concepts of solid waste management, as well as the main technologies involved in solid waste treatment and disposal. From this part of contents, students can understand the overall process of solid waste management and learn the frontier research and application of solid waste treatment and disposal technology.
4-Introduction of the Course:Frontiers of Environmental Science & Engineering
Course Name:Frontiers of Environmental Science & Engineering
Credit:2
Teaching hours:24 credits
Contents of the Syllabus:(at least 300 words)
This course is a series of academic lectures. The course arranges foreword progress reports in eight directions. The purpose is to enable students to have a more comprehensive and in-depth understanding of new theories and hot issues in wastewater treatment technology, waste gas treatment technology, and solid waste disposal technology. Grasp the research trends of new theories and new process technologies at the academic frontier of environmental engineering. Understand the state of environmental science and engineering (developed environmental quality state) and problems (new hot topics); expand new directions in environmental science and engineering (new directions to solve traditional problems) and new technologies (new technological trends). Courses can help students understand the development status and existing problems of related fields, expand students' horizons, provide relevant materials for students' professional course learning, cultivate students' professional qualities, stimulate students' interest in professional learning,and lay a certain professional foundation for the graduate thesis research.
5-Introduction of the Course:Environmental safety detection and analysis experiment
Course Name:Environmental safety detection and analysis experiment
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
This course is aimed at the postgraduates of environmental science and engineering through experimental demonstration and personal operation. The preparatory courses are analytical chemistry, modern environmental analytical chemistry, environmental chemistry, organic chemistry, instrumental analysis, and the assessment method is to write experimental reports. Through the teaching of this course, students can master the principle, structure, operation and result analysis and application of large-scale instruments commonly used in the field of environmental safety. It mainly involves six large-scale instruments: 1. UV scanning spectrophotometer uv2600; uv2450; 2. Gas chromatography gc2010; 3. High performance liquid chromatography (Agilent 1260); 4. Gas chromatography-mass spectrometry (Agilent 6890-5975b); 5. Ion chromatography (Switzerland Wantong 861); 6. ICP (plasma inductively coupled) emission spectrometry (Shimadzu 9820). The characteristic absorption peaks of compounds were determined by UV scanning spectrophotometry through full wavelength scanning; organic compounds were separated by gas chromatography with different boiling points; organic compounds were separated by HPLC through mobile phase and column; the structural formula of organic compounds was determined by gas phase and mass spectrometry by GC-MS; cations and anions of inorganic substances were separated by ion chromatography; metal ions of inorganic substances were analyzed by ICP.
6-Introduction of the Course:Environmental Ecology
Course Name:Environmental Ecology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
Environmental ecology is a branch of ecology. It is an emerging comprehensive discipline that has emerged and developed with the emergence of environmental problems. It has close relatedwith other disciplines such as environmental biology and ecotoxicology. The main contents of this course include the introduction of the basic concepts of environmental ecology, the formation process and development trend of environmental ecology, the research content, theories, research methods and practical applications of environmental ecology; the interrelationship and internal role of biology and environment, the regulation mechanism of ecological factors; the relationship between populations in the biosphere and the law of community succession; the composition and function of ecosystems, changes in damaged ecosystems, the succession laws of ecosystems and restoration strategies; the meaning of biodiversity and research progress of alien biological invasion; the role of soil microorganisms and its research progress; the process of ecological environment impact assessment and the concept of sustainable development of human society as well as the construction of ecological civilization. Meanwhile, this course will combine with the ecological problems exist in the current major environmental problems, and through case study to show students how to use the basic theories and methods of environmental ecology flexibly to propose corresponding countermeasures and governance measures for real environmental problems, which aims to improve students' ability to apply environmental ecology theories and methods to solve practical environmental problems.
7-Introduction of the Course:Molecular Environmental Biology
Course Name:Molecular Environmental Biology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
Molecular Environmental Biology is a integrated course that combine Environment Science, Molecular Biology, Environmental Microbiology and Gene Engineering. This course is applicable for overseas master students who major in environmental science and engineering, and the relevant disciplines. The contents of this course mainly includes introduction and application of fundamental knowledge of traditional molecular biology in environmental research, including polymerase chain reaction (PCR), denaturing gradient gel electrophoresis (DGGE), fluorescence in situ hybridization (FISH), terminal restriction fragments length polymorphism (TRFLP) and next generation of high-throughput sequencing (NGS); Introduction and application of advanced molecular biology, including genomic analysis, proteomic analysis, transcriptomic analysis. At last, the application of molecular techniques in environmental microbiological research and environmental remediation will be presented.The objective of this course is to grasp the basic molecular biological knowledge, techniques; and utilization of molecular techniques to solve practical environmental problems.
8-Introduction of the Course:Progress in pollution control technology
Course Name::Progress in pollution control technology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
The main objectives of this course are to introduce the recent progress of water pollution control, air pollution control, soil pollution control and solid waste treatment and resource utilization. It also aims at enabling students to deeply understand and comprehend the latest research status, research hot topics and future prospective of water pollution control technology, air pollution control technology, soil pollution control technology and solid waste treatment and resource technology, etc., and providing guidance for the topic selection of the thesis and subsequent scientific research. Ultimately, by deeply involved in classroom discussions, the students' horizons can be broadened, and their ability to analyze and solve practical problems such as pollution control will be improved. The students who choose this unit will learn: One Introduction(overview of air pollution control technology, overview of water pollution control technology, overview of soil pollution control technology, and overview of solid waste treatment and recycling technologies), Research Progress of Air Pollution Control Technology (Particle pollution control technology, and Gaseous pollutant control technology), Research Progress of Water Pollution Control Technology (Physical treatment technology of sewage, Chemical treatment technology of sewage, Sewage physical and chemical treatment technology, Biological treatment technology of sewage), Research Progress of Soil Pollution Control Technology (Physical treatment technology of polluted soil, Chemical treatment technology of polluted soil, Biological treatment technology of polluted soil), Research Progress of Solid Waste Treatment and Resource Recovery Technology (Solid waste treatment technology, Final disposal technology of solid waste, Recycling technology of solid waste), Research Progress of Sludge Treatment and Resource Recovery Technology. After completing this unit, the student will understand the current progress of pollution control technology, which will beneficial to their own related research.
9-Introduction of the Course:Environmental Biotechnology
Course Name:Environmental Biotechnology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
Environmental biotechnology is a new interdisciplinary subject formed by the close combination of modern biotechnology and environmental science, involving biotechnology, engineering, environmental science and ecology and many other disciplines. Combined with the development history of the discipline and the knowledge connotation in the field of environmental biotechnology research, from the perspectives of world outlook, outlook on life, values, national outlook and natural outlook, the ideological and political education elements and professional knowledge are organically combined into theoretical teaching to cultivate environmental students' strong sense of social responsibility and good professional ethics, and have rigorous scientific thinking and thinking The ability to distinguish, enhance national and cultural self-confidence, and form the socialist core values. Through the study of this course, students can master the basic concepts, development history and experimental methods of modern biotechnology such as genetic engineering, enzyme engineering, cell engineering and fermentation engineering, and systematically master the application of biotechnology in environmental pollution control, including pollution control, pollution prevention, clean energy, waste recycling, environmental biological monitoring and safety evaluation In order to cultivate students' comprehensive quality and practical innovation ability to solve problems in the field of environment with modern biotechnology means, it can provide relevant theoretical knowledge background for the future development of waste and wastewater biological treatment, bioremediation of contaminated sites and development of bioactive environmental protection products.
10-Introduction of the Course:Ecological Restoration Technology
Course Name:Ecological Restoration Technology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
Ecological restoration technology is a comprehensive field that integrates a range of disciplines, including Ecology, Microbiological Ecology, Eco-toxicology, Environmental Science and Engineering and so on. This course serves the oversea master students who major in environmental science and engineering and related disciplines. The contents of this course include: At first, an overall introduction of ecological pollution problems and remediation technology development in China will be given. Then, the typical pollution problems existing in river, lake and wetland ecosystem will be discussed in detail, and the corresponding remediation techniques will be given. At last, how to choose an optimum and practical remediation technology addressed to the aquatic ecosystem pollution in city and rural area will be discussed, respectively. The objective of this course is to grasp theknowledge on ecological restoration technology and relevant mechanism, especially on application of aquatic plants and microorganisms in ecological restoration; To be familiar with ecological engineering technology and the relevant mechanisms, especially the key restoration techniques used in aquatic ecosystem remediation; To improve students' ability to apply remediation techniques to solve practical environmental problems.
Environmental ecology is a branch of ecology. It is an emerging comprehensive discipline that has emerged and developed with the emergence of environmental problems. It has close relatedwith other disciplines such as environmental biology and ecotoxicology. The main contents of this course include the introduction of the basic concepts of environmental ecology, the formation process and development trend of environmental ecology, the research content, theories, research methods and practical applications of environmental ecology; the interrelationship and internal role of biology and environment, the regulation mechanism of ecological factors; the relationship between populations in the biosphere and the law of community succession; the composition and function of ecosystems, changes in damaged ecosystems, the succession laws of ecosystems and restoration strategies; the meaning of biodiversity and research progress of alien biological invasion; the role of soil microorganisms and its research progress; the process of ecological environment impact assessment and the concept of sustainable development of human society as well as the construction of ecological civilization. Meanwhile, this course will combine with the ecological problems exist in the current major environmental problems, and through case study to show students how to use the basic theories and methods of environmental ecology flexibly to propose corresponding countermeasures and governance measures for real environmental problems, which aims to improve students' ability to apply environmental ecology theories and methods to solve practical environmental problems.
11-Introduction of the Course:Advanced Enzymology
Course Name:Advanced Enzymology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
This course is designed for graduate students who have already taken preparatory courses in biochemistry and enzyme engineering and are about to participate in enzymology research. The main teaching purpose is to teach students modern enzymology research methods while combining with their own research topics, including the experimental principles and techniques of discovery and identification of new enzymes, and their production and applications; during the course of teaching provide technical advice and guidance to master students who intend to participate in or undergoing enzymatic research topics. The students who choose this unit will learn: Enzymology Foundation (significance and application value of enzymology research, the basic structure, type and naming of enzymes, evaluation of enzyme properties, and ways to obtain new enzymes), Principles and Methods of Enzyme Activity Analysis (Enzyme activity determination and influencing factors, Configuration of reaction solution, Biochemical properties of enzymes, and Enzymatic reaction kinetics), Cloning, Expression and Mutagenesis of Enzyme Genes (Primer design and gene cloning, Gene sequencing and online analysis, Gene expression regulation, and Site-directed mutagenesis and directed evolution of genes), and Protein Separation and Purification (Isolate and extract protein from cells, Determination of protein concentration and electrophoresis analysis, Protein chromatography, and Enzyme concentration and storage). After completing this unit, the student will understand the modern enzymology research methods, which can be applied to their own related research.
12-Introduction of the Course:Environmental Toxicology
Course Name:Environmental Toxicology
Credit:2
Teaching hours:24 hours
Contents of the Syllabus:(at least 300 words)
OBJECTIVE:
The purpose of this course include basic theory and technology of Environmental Toxicology, and further study the advanced theory and application of various technology. It focuses on effects of environmental pollution problems on human health and ecosystems. This course is mainly for overseas mater students majoring in environmental science and engineering and related majors. Since Environmental Toxicology is an interdisciplinary course, basic knowledge on Environmental Science, Toxicology, Biology, Ecology, and Statistics is required.The content of the syllabus includes (but not limited): introduction of toxicology and environmental toxicology, environmental toxicology and climate change, environmental Hazards and Human Health, the dose-response and basic concepts, new Environmental Hazards PPCPS and Mixtures, how well can we predict the toxicity of mixtures, the advanced methods in eco-toxicology.
13-Introduction of the Course:Environmental ethics
Course Name:Environmental ethics
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
Environmental problems have become the focus of attention of governments and people all over the world. While actively applying science and technology to seek solutions, people also turn their attention to the field of ideology. It takes a change in thinking to bring about a fundamental change. The development of environmental ethics is the embodiment of this idea. This course is taught by means of PPT and case study. Course concentrates on the main schools of environmental ethics and the basic viewpoint and method and theory of ethics, combined with today's all kinds of environmental factors in the process of occurrence and development of relevant examples, the origin, emergence and development of environmental ethics is introduced on the basis of the teaching process of the development of environmental ethics value, power and obligation relationship and its ethical code of ethics, environmental ethics practice related to the main content of environmental ethics, etc. On the one hand, the teaching purpose of this course is to enable students to systematically grasp the connotation, structure, function, moral principle, evaluation index and the theoretical and practical significance of environmental education between human and environment. On the other hand, it is necessary to regulate students' environmental ethics and values, realize the fundamental change of thinking mode, and enhance students' environmental ethics consciousness. At the same time, it also aims to cultivate students' ability of environmental ethics practice and practice the ethical harmony between man and nature.
14-Introduction of the Course:Academic Proposal and Presentation
Course Name:Academic Proposal and Presentation
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
The Academic Writing and Presentation closely related to the students’ thesis work, aiming at the education of students’ competence in writing a research proposal and the capability in coping with an effective scientific communication. The course is designed as a professional training/guidance for graduate students who want to enhance their learning ability and logical thinking for their innovation capability in their degree study.
The course mainly composed of two parts (proposal writing and presentation) and three teaching modules (see following table), i.e. basic strategies, principles, and theory study with the guidance from teachers’ lecturing (8 class hours), as well as one group cooperation and one individual practices on both research proposal preparation and oral PPT presentation (8 class hours for each) (in the table attached below). The course focuses on the answers exploring for the following questions:
How to develop a qualified degree study proposal (structure design and writing)?
What problems we are currently encountered for PPT presentation?
What differences between a scientific paper and a scientific oral talking?
Reasons for giving an effective seminar presentation
Suggestions for how to build a seminar (Tips for main skills involved)
Suggestions for visual aids (Tips for main techniques involved)
General hinds for presenting (Tips for main strategies and skills in a presentation)
How to answer the question after a seminar (Strategies and the answering tips)?
How to best use the transition words during the presentation (Tips and examples)?
10. How to best deal with an international conference talking (Common useful tips)?
15-Introduction of the Course:Development and Utilization of Energy Plants
Course Name:Development and Utilization of Energy Plants
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
This course is open tothe Master orDoctor studentswho have completed the courses such as Botany, Molecular biology and Genic engineering and are conducting or planning to conduct researches on energy plants or related fields. The purpose of this course is to introduce the students to the recent progresses and prospects of energy plants and the dominant theories and methodologies in this field. This course can provide students with advices and instructions involved in their research projects.With the case teaching, the students will understand the evolution of theory, applied perspective and the latest development in bioenergy, and gain the capability to collect, analyze and utilize the references independently.Through the lectures related to their own research project, the students should be enhanced to solve specific problems by comprehensivelyapplying the fundamental theories and methodologies in bioenergy.
16-Introduction of the Course:Modern Environmental Chemistry and Analysis Techniques
Course Name:Modern Environmental Chemistry and Analysis Techniques
Credit:3
Teaching hours:36
Contents of the Syllabus:(at least 300 words)
Environmental chemistry is a science that studies the existence, characteristics, behaviors and effects of chemical pollutants in air, water, soil and biological media, as well as the chemical methods and principles of their control. Environmental analysis technology, especially modern instrumental analysis, is an important part of environmental chemistry research. The main contents of this course include atmospheric environmental chemistry, water environmental chemistry, soil environmental chemistry, as well as the movement and transformation of pollutants in organisms. Based on the analysis methodology, the working principle, main structure, analysis method, operation procedure and application of instruments for environmental chemical analysis are explained. The composition and quality of the atmosphere, the generation mechanism of atmospheric environmental problems and the related fundamentals of atmospheric chemistry are covered. Dissolution and volatilization of mass, precipitation and dissolution equilibrium, coordination and dissociation equilibrium, adsorption and desorption equilibrium, as well as other chemical process and mechanism of pollutant migration and transformation in the water environment are introduced. Migration, transformation and fate of pollutants in soil, their effects and control measures, remediation technology of polluted soil environment are included. For systematic learning of environmental analysis technology, the principles of modern environmental analysis technology, methods of sample pretreatment, basics of various analytical instruments, qualitative and quantitative analysis methods, and cases of applications are introduced. The main contents include spectrophotometry, infrared absorption spectrum analysis, element content and speciation analysis technology, gas chromatography analysis, high performance liquid chromatography analysis, mass spectrometry analysis, pretreatment of organic and inorganic pollutants in environmental samples, application of biotechnology in environmental analysis, etc. These knowledges will provide a guidance for students to analyze chemical pollutants in the environment with various modern instruments. With this course, students who are working on research areas related to environmental chemistry can learn the relevant theory and skills to operate instruments for environmental analysis.
17-Introduction of the Course:Modern Environmental Microbiology and Engineering
Course Name:Modern Environmental Microbiology and Engineering
Credit:3
Teaching hours:36
Contents of the Syllabus:(at least 300 words)
Combined with the development history of the discipline and the knowledge connotation of the research field, from the perspectives of world outlook, outlook on life, values, national outlook and natural outlook, the ideological and political education elements and professional knowledge are organically integrated into the theoretical teaching, so as to cultivate students' strong sense of social responsibility and good professional ethics, have rigorous scientific thinking and thinking ability, and enhance the national strength Self confidence and cultural self-confidence form socialist core values.
Based on the basic theory and technology of general environmental microbiology, further deepen the theoretical study of microorganisms, including microbial genetic classification, microbial control theory, etc. Combined with the characteristics of environmental science and engineering, this paper emphasizes the combination of theory and practice, and focuses on the application of microorganisms in the treatment and remediation of polluted environment, the utilization of environmental microbial resources and the application of new microbial technology in the field of environment. We should pay attention to the cultivation of students' scientific research thinking methods, comprehensively improve students' comprehensive quality and practical innovation ability to analyze and solve practical problems.
18-Introduction of the Course:Lectures on Environmental Science and Engineering
Course Name:Lectures on Environmental Science and Engineering
Credit:2
Teaching hours:24 credits
Contents of the Syllabus:(at least 300 words)
This course aims to help students understand the frontier development of the subject and related fields.The course arranges foreword progress reports in eight directions. The purpose is to enable students to have a more comprehensive and in-depth understanding of new theories and hot issues in wastewater treatment technology, waste gas treatment technology, and solid waste disposal technology. Grasp the research trends of new theories and new process technologies at the academic frontier of environmental engineering. Understand the state of environmental science and engineering (developed environmental quality state) and problems (new hot topics); expand new directions in environmental science and engineering (new directions to solve traditional problems) and new technologies (new technological trends). Courses can help students understand the development status and existing problems of related fields, expand students' horizons, provide relevant materials for students' professional course learning, cultivate students' professional qualities, stimulate students' interest in professional learning,and lay a certain professional foundation for doctoral dissertation research.
19-Introduction of the Course:Academic Proposal and Presentation
Course Name:Academic Proposal and Presentation
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
The Academic Writing and Presentation closely related to the students’ thesis work, aiming at the education of students’ competence in writing a research proposal and the capability in coping with an effective scientific communication. The course is designed as a professional training/guidance for graduate students who want to enhance their learning ability and logical thinking for their innovation capability in their degree study.
The course mainly composed of two parts (proposal writing and presentation) and three teaching modules (see following table), i.e. basic strategies, principles, and theory study with the guidance from teachers’ lecturing (8 class hours), as well as one group cooperation and one individual practices on both research proposal preparation and oral PPT presentation (8 class hours for each) (in the table attached below). The course focuses on the answers exploring for the following questions:
1. How to develop a qualified degree study proposal (structure design and writing)?
2. What problems we are currently encountered for PPT presentation?
3. What differences between a scientific paper and a scientific oral talking?
4. Reasons for giving an effective seminar presentation
5. Suggestions for how to build a seminar (Tips for main skills involved)
6. Suggestions for visual aids (Tips for main techniques involved)
7. General hinds for presenting (Tips for main strategies and skills in a presentation)
8. How to answer the question after a seminar (Strategies and the answering tips)?
9. How to best use the transition words during the presentation (Tips and examples)?
10. How to best deal with an international conference talking (Common useful tips)?
20-Introduction of the Course:Higher environmental ecology
Course Name:Higher environmental ecology
Credit:2
Teaching hours:24 credits
Contents of the Syllabus:(at least 300 words)
This course is open to graduate students who are working or planning to work on environmental ecology during their PhD. The objective of the course is to:
1.Train students to understand the basic concepts of ecology, such as the history of ecology, development and trends in environmental and ecological research, theories and research methods in environmental ecology, and practical application of environmental ecology. This course will also teach students about processes that negatively impact and degrade ecosystems, ecological succession, and restoration ecology, and how this knowledge can be used to develop ecosystem management strategies.
2. Enable students to apply ecological theories and concepts for the protection and sustainable use of natural resources, pollution control, and to manage and restore degraded ecosystems. Additionally, the course will teach students how to use knowledge and ideas from environmental ecology to facilitate a balance between economic growth, environmental protection and social well-being for future generations.
3.Teach students how to write scientific and academic papers, and prepare PowerPoint presentations.
21-Introduction of the Course:Progress in pollution control technology
Course Name::Progress in pollution control technology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
The main objectives of this course are to introduce the recent progress of water pollution control, air pollution control, soil pollution control and solid waste treatment and resource utilization. It also aims at enabling students to deeply understand and comprehend the latest research status, research hot topics and future prospective of water pollution control technology, air pollution control technology, soil pollution control technology and solid waste treatment and resource technology, etc., and providing guidance for the topic selection of the thesis and subsequent scientific research. Ultimately, by deeply involved in classroom discussions, the students' horizons can be broadened, and their ability to analyze and solve practical problems such as pollution control will be improved. The students who choose this unit will learn: One Introduction(overview of air pollution control technology, overview of water pollution control technology, overview of soil pollution control technology, and overview of solid waste treatment and recycling technologies), Research Progress of Air Pollution Control Technology (Particle pollution control technology, and Gaseous pollutant control technology), Research Progress of Water Pollution Control Technology (Physical treatment technology of sewage, Chemical treatment technology of sewage, Sewage physical and chemical treatment technology, Biological treatment technology of sewage), Research Progress of Soil Pollution Control Technology (Physical treatment technology of polluted soil, Chemical treatment technology of polluted soil, Biological treatment technology of polluted soil), Research Progress of Solid Waste Treatment and Resource Recovery Technology (Solid waste treatment technology, Final disposal technology of solid waste, Recycling technology of solid waste), Research Progress of Sludge Treatment and Resource Recovery Technology (Technology of sludge treatment and disposal and Technology of sludge recycling). After completing this unit, the student will understand the current progress of pollution control technology, which will beneficial to their own related research.
22-Introduction of the Course:Advances in Bioresource and Bioengineering
Course Name:Advances in Bioresource and Bioengineering
Credit:2
Teaching hours:30
Contents of the Syllabus:(at least 300 words)
This course (Advances in Bioresource and Bioengineering) mainly focused on the introduction of the cutting edge progresses for resource utilization, recovery, recycling and the related biotechnologies. The course is suitable for students with preliminary background on biology and microbiology. The course will discuss the advances in technologies, which includes wastewater reutilization, solid waste reutilization, waste gas reutilization and biomass utilization. In addition, the basic methods for microbial metabolism regulation, fermentation, genetic engineering and electrochemical controlling will also be introduced. The course will introduce some typical examples in the area of bioresource and bioengineering, and conduct group discussion and presentation. The course ends with a written examination or an independent presentation which each student should have a 10 min oral presentation with the focus on a specific research topic related to this course.
23-Introduction of the Course:Development and Utilization of Energy Plants
Course Name:Development and Utilization of Energy Plants
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
This course is open to the Master or Doctor students who have completed the courses such as Botany, Molecular biology and Genic engineering and are conducting or planning to conduct researches on energy plants or related fields. The purpose of this course is to introduce the students to the recent progresses and prospects of energy plants and the dominant theories and methodologies in this field. This course can provide students with advices and instructions involved in their research projects.With the case teaching, the students will understand the evolution of theory, applied perspective and the latest development in bioenergy, and gain the capability to collect, analyze and utilize the references independently.Through the lectures related to their own research project, the students should be enhanced to solve specific problems by comprehensivelyapplying the fundamental theories and methodologies in bioenergy.
24-Introduction of the Course:Modern instrumental analysis experiments doctor
Course Name:Modern instrumental analysis experiments doctor
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
Through experimental demonstration and personal operation, this course aims at doctoral students in Environmental Science and engineering. The preparatory courses are analytical chemistry, modern environmental analytical chemistry, environmental chemistry, organic chemistry, instrumental analysis, and the assessment method is writing experimental report. Through the teaching of this course, students can master the principle, structure, operation and result analysis and application of large-scale instruments commonly used in the field of environmental safety. It mainly involves six large-scale instruments: 1. UV scanning spectrophotometer uv2600; uv2450; 2. Gas chromatography gc2010; 3. High performance liquid chromatography (Agilent 1260); 4. Gas chromatography-mass spectrometry (Agilent 6890-5975b); 5. Ion chromatography (Switzerland Wantong 861); 6. ICP (plasma inductively coupled) emission spectrometry (Shimadzu 9820). The characteristic absorption peaks of compounds were determined by UV scanning spectrophotometry through full wavelength scanning; organic compounds were separated by gas chromatography with different boiling points and the standard curve of benzene was established; organic compounds were separated by high performance liquid phase through mobile phase and column; the structural formula of organic compounds was determined by gas phase and mass spectrometry by GC-MS; cations and anions of inorganic substances were separated by ion chromatography, and chloride ions were developed ICP analysis of inorganic metal ions, both qualitative and quantitative detection.
25-Introduction of the Course:Environmental Toxicology
Course Name:Environmental Toxicology
Credit:2
Teaching hours:24 hours
Contents of the Syllabus:(at least 300 words)
OBJECTIVE:
Based on the basic theory and technology of Environmental Toxicology, the purpose of this course is to further study the advanced theory and application of various technology in environmental toxicology. It focuses on effects of environmental pollution problems on human health and ecosystems. This course is mainly for overseas students majoring in environmental science and engineering and related majors. Since Environmental Toxicology is an interdisciplinary course, basic knowledge on Environmental Science, Toxicology, Biology, Chemistry, Medicine, Ecology, and Statistics is required as thePREREQUISITE COURSE.The content of the syllabus includes (but not limited): introduction of toxicology and environmental toxicology, environmental toxicology and climate change, environmental Hazards and Human Health, the dose-response and basic concepts, new Environmental Hazards PPCPS and Mixtures, how well can we predict the toxicity of mixtures, the advanced methods in eco-toxicology.
26-Introduction of the Course:Advanced biotechnology
Course Name:Advanced biotechnology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
Combined with the development history of the discipline and the knowledge connotation of the research field, from the perspectives of world outlook, outlook on life, values, national outlook and natural outlook, the ideological and political education elements and professional knowledge are organically integrated into the theoretical teaching, so as to cultivate students' strong sense of social responsibility and good professional ethics, have rigorous scientific thinking and thinking ability, and enhance the national strength Self confidence and cultural self-confidence form socialist core values.Under the background of mastering the basic knowledge of biotechnology, we should further deepen the theoretical knowledge learning of environmental biotechnology principles, focusing on enabling students to master the cutting-edge technologies of environmental biology, including biological enhanced treatment technology, environmental energy and resource utilization biotechnology and typical molecular biological technologies. Understand and master the application of modern biotechnology in environmental problems, cultivate students' scientific thinking methods, and cultivate and enhance students' innovative ability to analyze and solve environmental problems according to objective reality.
27-Introduction of the Course:Environmental Remediation Technology
Course Name:Environmental Remediation Technology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
Environmental remediation technology is a complex course that integrates several disciplines, including Environment Science and Engineering, Ecology, Environmental Microbiology, Ecotoxicology, Environmental Chemistry. This course mainly serves oversea doctor and master students who major in environmental science and engineering. At first, an overall introduction on environmental remediation will be given (including definition, source and classification of environmental pollution, principles and development in environmental remediation), especially in bioremediation of environmental pollution. Then, application of plant, bacteria and fungi in environmental remediation technology will be explained in detail, including the main species (plant, bacteria, fungi) used in remediation, characteristic of the technology, advantages and shortages of the technology. Finally, case study will be provided for students to further understand how to choose suitable techniques remediation of water, soil, air and solid pollution. The objective of this course is to graspknowledge on environmental pollution, environmental remediation and relevant mechanism, especially on application of bioremediation techniques in environmental remediation; To strengthen the skills on selection of suitable remediation techniques in different environmental pollution; To improve students' ability to apply remediation techniques to solve practical environmental problems.
28-Introduction of the Course:Advanced Oxidation Technology
Course Name:Advanced Oxidation Technology
Credit:2
Teaching hours:24
Contents of the Syllabus:(at least 300 words)
“Advanced Oxidation Technology” is a specialized elective course for the Ph. D. students in Environment and Safety Engineering. In view of the increasingly serious environmental pollution problem and combined the defects of the traditional treatment technologies, kinds of advanced oxidation technologies based on the hydroxyl radical (•OH) and other reactive oxygen species are taught in the course. The concepts, mechanisms, applications, coupled techniques as well as latest researching developments of kinds of advanced oxidation technologies, including the ozone-based oxidation processes, technology of the photochemical oxidation, technology of the photocatalytic oxidation and technology of the thermocatalytic oxidation, will be introduced in the course. By means of ppt teaching, helping students to understand and grasp the basic concepts, characteristics, mechanisms and applications of kinds of different advanced oxidation technologies. By means of seminar, deepening students’ comprehension on the basic knowledge as well as promoting capabilities of students on data acquisition, data summarization and problem analysis. The course can broaden the perspective of research of the students and provide a certain knowledge base for solving practical environmental problems in future.
29-Introduction of the Course:Environmental ethics
Course Name:Environmental ethics
Credit:2
Teaching hours:30
Contents of the Syllabus:(at least 300 words)
Environmental problems have become the focus of attention of governments and people all over the world. While actively applying science and technology to seek solutions, people also turn their attention to the field of ideology. It takes a change in thinking to bring about a fundamental change. The development of environmental ethics is the embodiment of this idea.
This course is taught by means of PPT and case study. Course in origin, emergence and development of environmental ethics and environmental ethics related theories are introduced on the basis of the teaching process of the development of environmental ethics value, power and obligation relationship and its ethical code of ethics, environmental ethics practice related to the main content of environmental ethics, etc, on the basis of conducting scientific ethics, economic ethics, deep ethical issues such as population ethics and management ethics.
One of the teaching objectives of this course is to make students master the knowledge of environmental ethics systematically. Clarify the connotation, structure, function, principle, method and ethical system of environmental ethics, and understand the importance of solving environmental problems besides ethics from a theoretical perspective. The second is to urge students themselves to establish a correct outlook on life, values and environmental ethics. The third is to make students understand the conflict between human and environment correctly, and then make the right choice in the ethical arbitration of the conflict. Finally, it aims to improve the social and environmental ethical compatibility of students and cultivate a new generation of useful talents with exemplary and pioneering roles.
