The University of Glasgow ranked 77th in the QS World University Ranking of 20021(the highest in history: 5 1, 20 14), becoming the first university in the UK to receive a super five-star rating in the QS World University Ranking of 20 18. There are many advantageous disciplines. In 20021Complete University Guide, accounting and finance, dentistry, drama and dance and film art, education, medicine, nursing, sports science and veterinary medicine ranked first in Britain.

Other disciplines also have great advantages. Here, Xiao Si will introduce three courses of civil engineering-engineering hydraulics in Glasgow University to students.

This course introduces the principles of hydrology and all aspects of hydraulic model, including the basic principles of water flow in open channels and pipe networks. This paper describes the classification of discharge standards, the application of conservation laws of mass and energy, and their empirical approximation and correlation with engineering hydraulics practice.

This course introduces students' comprehensive understanding of water conservancy theory, encourages students to demonstrate in the laboratory, and uses appropriate computer software to promote the design of water conservancy engineering solutions and develop students' engineering intuition and critical thinking ability.

syllabus

There are two classes a week, and there are other tutoring classes. There is also a mandatory hydraulic laboratory demonstration and computer laboratory meeting.

Examination content

80% written test

10% written assignment (experimental report)

10% exercise (test)

Examination time: 65438+February.

Planned goal

■ Introduce the basic principles of hydrology.

■ Basic principles of introducing water into open channels and piping systems

■ Be able to apply this knowledge to the basic design of water conservancy engineering practice.

■ Solve hydraulic numerical and practical problems.

■ Understand the design and operation of servo system.

Expected learning outcomes of the course.

■ Use dimensionless parameters to classify traffic.

■ Calculate the average flow parameters (depth, flow) of uniform open channel flow.

■ Maintenance method (momentum) is applicable to non-uniform open channel flow.

■ Analyze the open channel problem with rapidly changing velocity.

■ Calculate the friction and small head loss in pipeline flow.

■ Analysis by simple point flow evaluation system.

■ Pipeline system analysis (series, parallel and branch)

■ Analysis pipe network

■ Carry out hydraulic laboratory experiments to measure flow characteristics.

■ storage tank system with simple design