Congratulations | 广以两专业入选广东2021年度省级一流本科专业建设点名单

近日，教育部办公厅公布2021年度省级一流本科专业建设点名单，广东以色列理工学院有两个专业入选广东省一流本科专业建设点，它们分别是：

生物技术与食品工程

教育部专业目录名称：生物技术（中外合作办学）

化学工程

教育部专业目录名称：化学工程与工艺（中外合作办学）

至此，广东以色列理工学院首批开设的三个本科专业全部入选广东省省级一流本科专业建设点。

问

省级本科专业建设点是什么？

2019年，教育部办公厅发布了《关于实施一流本科专业建设“双万计划”的通知》，旨在全面振兴本科教育，提高高校人才培养能力，实现高等教育内涵式发展。按照通知要求，教育部将在2019-2021年间，设10000个左右国家级一流本科专业点和10000个左右省级一流本科专业点。

入选省级一流本科专业建设点，对专业人才培养和对教育、人才与产业、创新链的有机衔接有着非常重要的意义，也是打造国家级一流本科专业点的必经之路。

答

2021入选专业介绍

广东以色列理工学院生物技术与食品工程专业：

本专业是国际上为数不多将工程技术与生命科学相结合的专业之一，旨在培养生物技术与食品工程两个领域的优秀工程师和科技人才。

专业课程设置包括了自然科学（数学、物理、化学、生物）和计算机科学与工程的核心课程，在此基础上结合工程内容，延伸至生命科学与生物技术的其他高级专题。本专业的后续课程立足于生物技术、食品工程、生命科学与食品科学等三个领域。

本专业毕业生能够同时胜任生物技术和食品工程领域的工作，可广泛就业于医疗、农业、食品、药品、化妆品、环境保护等行业和相关政府机构。

毕业生可选择深造，研究领域包括生物技术、微生物学、分子生物学、食品工程与技术、组织工程学、生物化学与营养学、遗传学、动物和植物科学、包装学、酶学、封装、生物高分子、蛋白质工程及计算生物学等。

广东以色列理工学院化学工程专业：

本专业定位于先进的国际标准，是一个将化学知识、生物化学知识与工程工具相结合的学科。

课程涵盖传统的基础化学与工程内容，结合了先进的理论与工具，如纳米技术、生物医学工程、海水淡化和新能源等，旨在培养具有扎实知识基础、宽广国际视野和创造性思维的高层次工程型科技人才。

通过学习，学生能够灵活运用数学、物理、化学、生物等基础学科知识，形成数学建模、过程模拟等方面的综合能力，有效解决多种涉及物质转化的过程工业中产品研发、生产优化、环境保护的关键工程问题。

本专业毕业生可选择继续深造，研究领域包括高级分离工程、纳米技术、聚合物和塑料、生物工程、生物医药工程、化工过程优化、安全、水和废水处理及管理、气候变化、能源等；同时在化工、能源、材料、环境行业，制药、医学、食品、电子、航空、汽车等行业有着更广阔的职业发展前景。

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Recently, the General Office of the Ministry of Education of the People's Republic of China announced the list of "provincial first-class undergraduate program construction sites" in 2021. Guangdong Technion - Israel Institute of Technology (GTIIT) has two programs on this list. They are: 

Biotechnology and Food Engineering

Chemical Engineering

Up to now, the first three programs opened in GTIIT have all been selected as provincial first-class undergraduate program construction sites in Guangdong Province.

Q

What is a provincial first-class undergraduate program construction site in Guangdong？

In April 2019, the General Office of the Ministry of Education of the People’s Republic of China issued the "Notice on the Implementation of the "Double Ten Thousand Plan" for the Construction of First-Class Undergraduate Programs", which aims to comprehensively revitalize undergraduate education, improve the talent training capabilities of universities, and realize the development of higher education. According to the notice, the Ministry of Education will set up about 10,000 national-level first-class undergraduate programs and about 10,000 provincial-level first-class undergraduate programs during 2019-2021.

Being selected as provincial-level first-class undergraduate programs construction sites not only demonstrate the comprehensive strength of the university, but also have a very important significance for the cultivation of professional talents and the organic connection of education, talents, and industry, and the innovation chain.

A

Introduction

GTIIT Biotechnology and Food Engineering Program

This is one of the few international programs that combine engineering technology and life science, aiming to train excellent engineers and scientific talents in both biotechnology and food engineering.

The four-year program consists of a basket of core courses in mathematics, physics, chemistry and computers, which together with advanced engineering courses, provides the background for integrating engineering studies into advanced subjects of life sciences and biotechnology. The remainder of the program is based on three areas: biotechnology; engineering and technology for food engineering; and life and food sciences.

Graduates of this program are capable of working in both biotechnology and food engineering, and can be widely employed in medical, agricultural, food, pharmaceutical, cosmetic, and environmental protection industries and related government agencies.

Graduates can choose to pursue further studies in areas such as biotechnology, microbiology, molecular biology, food engineering and technology, tissue engineering, biochemistry and nutrition, genetics, animal and plant science, packaging, enzymology, encapsulation, biopolymers, protein engineering, and computational biology.

GTIIT Chemical Engineering Program

Positioned at advanced international standards, this program combines chemical knowledge, biochemical knowledge and engineering tools.

The curriculum covers traditional basic chemistry and engineering content, combined with advanced theories and tools, such as nanotechnology, biomedical engineering, desalination and new energy, etc. It aims to cultivate high-level engineering-oriented scientific and technological talents with the solid knowledge base, broad international vision and creative thinking.

Students in this program will be able to flexibly use basic scientific knowledge in mathematics, physics, chemistry, and biology, and form comprehensive abilities in mathematical modeling and process simulation to effectively solve key engineering problems in product development, production optimization, and environmental protection in a variety of process industries.

Graduates of this program have the option to pursue further studies in areas such as advanced separation engineering, nanotechnology, polymers and plastics, bioengineering, biomedical engineering, chemical process optimization, safety, water and wastewater treatment and management, climate change, and energy; as well as broader career prospects in the chemical, energy, materials, and environmental industries, pharmaceutical, medical, food, electronics, aviation, and automotive industries.

Click the pictures for more info about GTIIT and it's programs

文/图：GTIIT传媒与公共事务部

Text/Photos: GTIIT News & Public Affairs