Basic educational system: four years | Enrollment target: | Education: technical secondary school | Professional code: 08 1302.

Training objectives

Training objectives

Training objectives: This major trains professional engineering and technical personnel who are fully developed morally, intellectually and physically and can adapt to the development of pharmaceutical industry. Graduates of this major should have professional knowledge of pharmaceutical engineering and the ability to engage in technical development, engineering design and product quality management of drugs, pharmaceutical excipients, pharmaceutical intermediates and other related products, have good professional ethics, a high sense of social responsibility, a strong sense of product quality and a certain international vision and social communication skills, and be able to engage in product development, engineering design, production technology and quality management and scientific and technological services in medicine and related fields.

Training requirements: Students in this major mainly study the basic theories and knowledge of drug manufacturing, product development, engineering design, production technology and quality management, receive the basic scientific and engineering method training of professional experimental skills, process research and engineering design, and master the basic abilities of drug research and development, drug process design and amplification, and drug production quality and management.

Graduates should have the following knowledge and abilities:

1. Have good professional ethics, strong patriotism and professionalism, high sense of social responsibility and profound humanistic quality;

2. Have natural scientific knowledge and certain economic management knowledge required for pharmaceutical engineering;

3. Have a good sense of quality management, environmental protection, occupational safety and social service;

4. Master the basic theory and technology of pharmaceutical manufacturing, the basic principles and methods of engineering design, and the basic knowledge of good manufacturing practices (GMP) and control, master the methods and principles of pharmaceutical production process formulation and workshop design, and understand the development frontier of pharmaceutical engineering discipline and the development trend of new pharmaceutical production processes, technologies and equipment;

5. Be able to comprehensively apply the scientific theory of pharmaceutical engineering, analyze and propose solutions to pharmaceutical engineering problems, and have the ability to solve practical problems in pharmaceutical engineering;

6. Have the preliminary ability to research, develop and design new drug resources, new products and new processes, have a good pioneering spirit and innovative consciousness, and have the ability to acquire new professional knowledge;

7. Understand a number of technical standards in the field of pharmaceutical engineering, and be familiar with national policies and regulations on drug production, drug safety, environmental protection and social responsibility;

8. Have good organizational management, communication, environmental adaptation and teamwork skills;

9 have the initial ability to deal with drug production, use and public health emergencies;

10. Have a certain international vision and the initial ability to communicate, compete and cooperate in a cross-cultural environment.

Main subjects: chemistry, pharmacy, pharmaceutical engineering and technology.

Core knowledge fields: inorganic chemistry, organic chemistry, analytical chemistry, physical chemistry, biochemistry, engineering drawing, chemical engineering principle, medicinal chemistry, pharmaceutical technology and pharmaceutical equipment and workshop design.

Example of core courses:

Example 1: modern basic chemistry (128 class hours), analytical chemistry (64 class hours), organic chemistry (160 class hours), physical chemistry (144 class hours), biochemistry (48 class hours), engineering drawing (56 class hours). Medicinal chemistry (48 hours), pharmaceutical analysis (32 hours), pharmaceutical synthesis (48 hours), pharmaceutical technology (32 hours), pharmaceutical engineering (208 hours), good manufacturing practice (32 hours), industrial pharmacy (32 hours), pharmaceutical engineering experiment (160 hours).

Example 2: introduction to pharmaceutical engineering (32 hours), biochemistry (56 hours), biochemical experiment (48 hours), medicinal chemistry (bilingual) (48 hours), industrial pharmacy (32 hours), pharmaceutical technology (64 hours), pharmaceutical production quality management engineering (32 hours) and pharmaceutical separation engineering (bilingual) (48 hours).

Example 3: drug synthesis reaction (48 hours), drug chemistry (40 hours), natural drug chemistry (40 hours), pharmaceutical technology (bilingual) (32 hours), drug reaction engineering (40 hours), drug separation technology (32 hours), pharmaceutical process design (40 hours) and pharmaceutical professional experiment (56 hours).

Main practical teaching links: basic chemistry experiment, pharmaceutical engineering experiment, cognitive practice, production practice, course design of chemical engineering principle, course design of pharmaceutical machinery, course design of pharmaceutical equipment and workshop, graduation design (thesis).

Main professional experiments: basic chemistry experiment, chemical engineering principle experiment, drug synthesis experiment, drug analysis experiment and pharmaceutical engineering experiment.

Length of study: four years.

Degree awarded: Bachelor of Engineering. 08 14 geology

Professional ability requirements

Professional ability requirements

The main contents of professional teaching

The main contents of professional teaching

Pharmaceutical synthesis, pharmaceutical engineering, pharmaceutical analysis experiment, pharmacological experiment, biotechnology pharmacy, enzyme engineering and protein engineering, biological separation engineering, medicinal botany and pharmacognosy, industrial pharmacy, tissue engineering and regenerative medicine train the following professional directions: ethnic pharmacy, biopharmaceuticals, food and drug safety.

Major (skill) direction

Major (skill) direction

Pharmaceutical enterprises: drug research and development, drug production, drug inspection, drug analysis, drug management, pharmacists, drug marketing.

Example of vocational qualification certificate

Example of vocational qualification certificate

Examples of continuing learning majors

Employment direction

Employment direction

As a high-tech industry, pharmaceutical engineering has developed rapidly. Globally, the growth rate of pharmaceutical market in developed economies has rebounded, the demand for emerging pharmaceutical markets is strong, and the proportion of chemical generic drugs in the drug use structure has increased, bringing new opportunities for pharmaceutical development. As far as China is concerned, medical technology has developed rapidly, which is in line with international standards and has introduced a large number of drugs from abroad. At the same time, with the improvement of people's living standards and health awareness, and the emergence of new diseases caused by complex living environment (such as air, water, soil pollution, etc.). ), the demand for preventive and therapeutic drugs is also increasing, which further promotes the rapid growth of the pharmaceutical market. During the "Thirteenth Five-Year Plan" period, the state has successively introduced a series of medical policies. For example, the "Guide to the Development Planning of Pharmaceutical Industry" will aim at the major market demand and promote the key development in the fields of biopharmaceuticals, chemicals, traditional Chinese medicine and medical devices. In the field of chemical drugs, we will focus on increasing the research and development of new chemical drugs, chemical generic drugs, high-end preparations and clinically scarce drugs to achieve key breakthroughs. Judging from the overall situation of the current industry, in short, the employment prospects of this major are stable and long-term.

According to the statistics of Sunshine College Entrance Examination Platform, as of 20 15 12.30, the number of college graduates majoring in pharmaceutical engineering is 14000- 16000, and the employment rate is 75%-80%.

The employment rate of this major in many well-known universities is relatively high. Professor Liang of beijing university of chemical technology Life College introduced that the employment rate of pharmaceutical engineering in this school has remained above 97% all the year round. Among them, nearly half of the students choose to continue their graduate studies. In addition, state-owned enterprises, foreign enterprises, public institutions and government departments are also choices for students' employment.

Liu Shuji, School of Pharmaceutical Engineering, Shenyang Pharmaceutical University, introduced that the main employment fields of pharmaceutical engineering include: chemical innovation research and new product development; Transformation, localization and industrialization of new pharmaceutical technologies at home and abroad; Technical transformation, process research, quality control, etc. The pharmaceutical industry is an extremely strict supervision industry, which requires graduates' academic qualifications and scientific research ability. Students can obtain qualification certificates such as drug inspectors and nutritionists during their school days, which will increase their future employment opportunities.

Main employment destination of graduates

After graduation, students can engage in various industries related to drugs, including:

1. Drug R&D personnel-engaged in drug R&D in research departments of pharmaceutical factories, universities and scientific research institutes;

2. Production technicians-engaged in pharmaceutical production and technical work in pharmaceutical factories;

3. Quality inspection and testing personnel-engaged in food and drug quality inspection and testing, quality appraisal and formulation of corresponding quality standards in drug inspection institutes, pharmaceutical factories and food factories;

4. Management personnel-engaged in technical management of pharmaceutical production in pharmaceutical factories;

5. Marketing personnel-engaged in drug marketing and back office work in pharmaceutical factories and pharmaceutical marketing companies;

6. Pharmacist-in the hospital pharmacy department, engaged in preparation, quality inspection, clinical pharmacy and other work; Engaged in drug guidance and consultation in pharmacies and pharmaceutical marketing companies;

7. Drug supervisors-civil servants, engaged in food and drug quality supervision in national, provincial, municipal and county food and drug administrations;

8. Nutritionist-a new occupation that has received professional knowledge and skills training and passed the national vocational qualification examination certification.

Corresponding occupation (post)

Corresponding occupation (post)

Other information:

Belongs to engineering. Pharmaceutical engineering is an engineering specialty that spans chemistry, biology, pharmacy (traditional Chinese medicine) and engineering. Engineering specialty refers to engineering discipline. Engineering refers to the research and application of technologies and processes such as machinery, architecture, water conservancy and automobiles. Pharmaceutical engineering aims to cultivate talents engaged in drug research and development, manufacturing, development, amplification and design of new processes, new equipment and new varieties. Although the name of pharmaceutical engineering specialty is relatively new, from the perspective of discipline evolution, its appearance is not brand-new, it is the continuation of similar majors and the product of China's scientific and technological development. After graduating from pharmaceutical engineering, you can engage in pharmaceutical production, management, marketing, inspection and supervision, research and development in enterprises and institutions related to pharmaceutical engineering (or pharmaceutical biotechnology). It is also suitable for graduate students in biotechnology, pharmacy and related majors. The development trend of domestic pharmaceutical enterprises is good, and the pharmaceutical industries with different ownership and management modes, such as wholly foreign-owned enterprises, Sino-foreign joint ventures, state-owned enterprises and private enterprises, have formed very large industrial clusters.