I.
Objectives
After four-academic-year (Fall and Spring Semesters) study, students can learn basic
theories and methodologies on Chemistry, Pharmacy, Biology, and Pharmaceutical Engineering,
also obtain strong abilities of technological development, engineering design, and
pharmaceutical quality control, and be familiar with the complete workflows and specific
methods for pharmaceutical process development, testing, and quality assurance. Having the
sense of social responsibility and the spirits of innovation, entrepreneurship, and teamwork,
students can undertake pharmaceutically related works, including pharmaceutical process
design, development, management, maintenance, etc., in enterprises and public institutions.
After professional training, students will become high-quality and applied talents in the field of
Pharmaceutical Engineering.
II.
Requirements
Students should master the basic theories and knowledge on pharmaceutical
manufacturing, drug development, drug design, production technology and quality control, and
accept the training of the basic science and engineering methods for professional experiment
skills, process research and engineering design. Through these engineering training, students
will obtain the basic abilities of pharmaceutical research and development, design and
amplification of pharmaceutical craft, quality and management of pharmaceutical products.
Graduates are required to acquire:
1.
Graduates should acquire mathematics, natural science, basic knowledge of engineering
and professional knowledge for pharmaceutical engineering, and have the abilities to apply the
knowledge to the design, implement, and deployment of the complex engineering projects.
2.
Graduates should have the abilities of abstract logical thinking and computational thinking.
By using pharmaceutical engineering related basic principles in mathematics, natural science,
and engineering science, graduates can identify and express the complex engineering problems,
and, moreover, can make literature analysis to obtain the efficacious conclusions eventually.
3.
Graduates should master the basic theories and technology of drug manufacturing, the
professional theories and methods of engineering design, and the basic knowledge of quality
management and control. And the graduates also need to master the methods and theories to
formulate the process of drug production and design workshop.
4.
Graduates should master the basic principles of Pharmacy and Pharmaceutical
Engineering, be able to model, analyze, and test complex project problems by using their
principles and methods, and optimize models through experimental results.
5.
Graduates should understand the frontiers of pharmaceutical engineering and the
development of new process, technology, and equipment for pharmaceutical manufacturing.
6.
Graduates should apply the scientific theory of pharmaceutical engineering from courses
comprehensively, as well as analyzing problem of pharmaceutical engineering, putting forward
solution to solve it and having the ability to solve practical problems in pharmaceutical
engineering.
7.
Graduates should have the initial capacity to engage in pharmaceutical research and
process development, with a great sense of innovation and pioneering spirit and willingness to
learn new skills.
8.
Graduates should master the methods of project management and economic
decision-making for pharmaceutical engineering and practically apply in a multidisciplinary
environment.
9.
Graduates should master the knowledge of mathematics, natural science and economic
management, have the ability to solve the problem of pharmaceutical engineering technology
and have technological economic management ability.
10.
Graduates are cultivated to obtain communication abilities through different kinds of
teamwork projects, core course discussions, comprehensive practice projects, etc., including
report writing, document design, statement, clear expression, and instruction response.
11.
Through learning interdisciplinary courses, graduates should understand and master the
management principles and economic decision methods involved in pharmaceutical
applications projects, and should be able to apply them to practical projects.
12.
Through innovative practice projects and internship in enterprise, graduates should learn
and understand the characteristics of rapid knowledge update and continuous emergence of
new techniques and methods in the field of pharmaceutical engineering. Graduates should
establish stable career objectives and obtain the awareness and ability to study independently
and perpetually.
III.
Degree
Bachelor of Engineering (
B.Eng
.)
