The training program for the Resource Recycling Science and Engineering major, Class of 2023

〇、Professional Introduction

The development of a circular economy is a significant strategic initiative in China's economic and social development. The Resource Recycling Science and Engineering major falls under the discipline of Chemical Engineering and Pharmacy. It is a new program approved by the Ministry of Education in 2010, aimed at meeting the demand for talent in transitioning from a linear economic growth model to a circular economic growth model in the country.Jiangsu Province is known as a "Chemical Industry Giant," and there is a pressing need for professional talent in the field of chemical resource recycling. This is essential to address pollution issues in the chemical and related industries and achieve green development in these sectors.Nanjing Tech University's Resource Recycling Science and Engineering program, aligned with the national "dual-carbon" strategy, leverages the strengths of the chemical engineering and technology discipline. It follows the educational philosophy of "broad-based, solid foundation, emphasis on capabilities, and pursuit of innovation" in talent development. This program is positioned to utilize principles, methods, technologies, and tools of chemical engineering to achieve resource recycling and clean production in industries such as chemical engineering and new energy.The educational approach emphasizes the priority of moral education, a student-centric approach, a focus on building capabilities, and comprehensive development. It places equal importance on theory and practical experience, strengthens interdisciplinary and integrated learning across fields such as chemical engineering, chemistry, environmental science, management, and economics. The program establishes a multi-level industry-academia-research talent cultivation model, aiming to produce highly qualified professionals with knowledge in chemical engineering, recycling engineering, and environmental science.

Ⅰ、Educational Objectives

This program aims to cultivate advanced professionals in engineering science, technology, and management who possess excellent humanistic and scientific literacy, a strong sense of social responsibility, and sound physical and mental fitness. Graduates will have knowledge and skills in environmental science, chemical engineering and technology, and related disciplines. They will also demonstrate innovative thinking and rich practical abilities.

This program aims to cultivate advanced professionals in engineering science, technology, and management who possess excellent humanistic and scientific literacy, a strong sense of social responsibility, and sound physical and mental fitness. Graduates will have knowledge and skills in environmental science, chemical engineering and technology, and related disciplines. They will also demonstrate innovative thinking and rich practical abilities.

1.Proficiency in utilizing various multimedia and other means to express work methods, suggestions, and conclusions. Demonstrates strong learning and communication skills. Capable of sourcing effective information through multiple channels, conducting literature reviews, tracking technological advancements, and industry trends. Can propose viable solutions to emerging issues and assess industry developments.

2.Able to approach complex engineering problems in the field of resource recycling in chemical and related industries from multiple perspectives, including engineering technology, ethics, society, environment, and economics. Utilizes fundamental theories, methods, technologies, and tools from chemical engineering and environmental engineering to analyze and resolve challenges. Possesses interdisciplinary teamwork skills.

3.Capable of performing technical analysis, process design, environmental analysis, and technical-economic assessments. Becomes a key professional in the field of engineering design. Proficient in organizing production operations, process improvements, energy conservation, emissions reduction, and cost accounting. Becomes a vital figure in production and technical management.

4Adheres to professional ethics and legal regulations in practice, with a strong sense of engineering ethics and social service capabilities. Possesses a commitment to continuous learning in response to professional demands.

Ⅱ、Graduation Requirements

1.Engineering Knowledge:Capable of applying mathematics, natural sciences, foundational engineering principles, and specialized knowledge to address issues in chemical resource recycling engineering.

2.Problem Analysis:Proficient in utilizing the fundamental principles of mathematics, natural sciences, and engineering sciences to identify, articulate, and analyze complex problems in chemical resource recycling engineering through literature research, ultimately deriving effective conclusions.

3.Design and Development:Competent in designing solutions for intricate challenges in chemical resource recycling engineering. Able to design systems, units (components), or process flows that meet specific requirementswhile demonstrating innovation and considering factors such as societal, health, safety, legal, cultural, and environmental aspects during the design process.

4.Engineering Research:Proficient in conducting research on problems related to chemical resource recycling engineering based on the principles of resource recycling engineering science and employing scientific methods. This includes designing experiments, analyzing and interpreting data, and synthesizing information to arrive at reasonable and effective conclusions.

5.Modern Tools:Proficient in developing, selecting, and utilizing appropriate technologies, resources, modern engineering tools, and information technology tools for complex issues in resource recycling engineering. This includes prediction and simulation of complex resource recycling engineering problems, with an understanding of their limitations.

6.Social Responsibility:Capable of conducting reasonable analysis and evaluating the impact of resource recycling engineering practices and solutions for complex engineering problems on society, health, safety, legality, culture, and understanding the responsibilities associated with them.

7.Social Development:Able to comprehend and assess the impact of engineering practices related to the three waste products generated by chemical processes, resource development and utilization, and the complex issues of resource recycling economics on environmental and social sustainability.

8.Professional Ethics:Possesses a background in humanities and social sciences, along with a strong sense of social responsibility. Can understand and rigorously adhere to engineering professional ethics and standards in resource recycling engineering practices in the field of chemical engineering, fulfilling responsibilities.

9.Team Spirit:Capable of assuming roles as individuals, team members, and leaders in learning and practical teams within various disciplines, including chemical engineering, resources, environment, materials, and economics.

10.Communication Skills:Proficient in effective communication and interaction with peers in the industry and the general public regarding complex issues in chemical resource recycling engineering. This includes writing reports and designing documents, making presentations, clear expression, and responding to instructions. Possesses an international perspective and can communicate and express themselves in technical language in interdisciplinary and cross-cultural contexts.

11.Project Management:Understands and masters the principles of engineering management and economic decision-making methods. Can apply these principles in multidisciplinary environments such as chemical resource recycling engineering design, resource industry technology economics, and enterprise management.

12.Lifelong Learning:Possesses a consciousness of self-directed and lifelong learning. Has the ability to continuously learn, explore, and stay updated on the advancements and trends in Resource Recycling Science and Engineering.

The relationship between graduation requirements and the supporting of educational goals is outlined in Table1.

Table1: Alignment of Graduation Requirements with Expected Professional Competencies in Educational Goals.

Ⅲ、Core Disciplines and Related Majors

Core Discipline:Resource Recycling Science and Engineering (081303T)

Related Majors:Chemical Engineering and Technology (081301), Pharmaceutical Engineering (081302), Energy Chemical Engineering (081304T), Chemical Engineering and Industrial Biotechnology (081305T).

Ⅳ、Standard Duration and Degree Conferred

Standard Duration:Four years

Degree Conferred:Bachelor of Engineering

Ⅴ、Graduation and Degree Awarding Conditions

Graduation Basic Requirements:Within the flexible learning period, complete the prescribed content of the education and teaching plan, achieve passing grades, attain the minimum graduation credit requirements, and meet the requirements for morality, intelligence, physical fitness, aesthetics, and labor to be eligible for graduation.

Degree Awarding Conditions:Graduates of this program who meet the relevant provisions of "Nanjing Tech University Bachelor's Degree Awarding Implementation Rules" are eligible to be conferred a Bachelor of Engineering degree.

Minimum graduation credit requirements are detailed in Table2.

Table2:Minimum graduation credit requirements

Ⅵ、Core Courses of the Major

Ⅶ、Major Practical Teaching Components

Ⅷ、Innovation and Entrepreneurship Courses

Ⅸ、Teaching Schedule