Handbook 1996 : Faculty of Engineering (Volume 4 page 98)
Civil Engineering subject : Next:421-460 | Prev:421-458 | Search | Help
421-459 "Irrigation Systems Design and Management" appears differently in several places - choose the one you want:
1. Civil Engineering, Faculty of Engineering (v4, p98) : Next:421-460 | Prev:421-458
Credit points: 6.00
Contact: 18 hours of lectures and 8 hours tutorials/practical work
Timetable: First semester
Objectives:
At the conclusion of this subject students should:
- be able to design and evaluate surface irrigation systems
- be able to use irrigation system models
- understand the principles and be able to design and evaluate surge irrigation
- be able to design and evaluate sprinkler, trickle, drip and microjet systems
Content:
Design principles of farm irrigation and drainage systems. Design and evaluation of surface irrigation systems, land forming. Introduction and use of surface irrigation system models. Principles and application of surge flow. Design and evaluation of sprinkler, trickle, drip and microjet systems.
Assessment:
A two-hour examination; reports and assignments up to a total of 30 pages.
1. Civil Engineering, Faculty of Engineering (v4, p98) : Next:421-460 | Prev:421-458
2. Agriculture, Faculty of Agric, For & Hort (v4, p20) : Next:421-475 | Prev:421-484
Year 4 Agriculture.
Credit points: 8
Coordinator: Dr H M Malano
Prerequisite: 421-030 Engineering for Agriculture or 3rd Year Environmental Engineering
Contact: 18 hours of lectures and 8 hours of practical work and tutorials.
Timetable: First semester
See additional details under the Civil Engineering subject above.
* Note that CONTACT, COORDINATOR, POINTS, PREREQUISITES differs from the maintainer's version above. A log of variations is available.
2. Agriculture, Faculty of Agric, For & Hort (v4, p20) : Next:421-475 | Prev:421-484
Status: Official 1996 Date created: Oct 9 1995 Last modified: Oct 9 1995 Authorised by: Academic Registrar Email enquiries: Course_Information@registrar.unimelb.edu.au
Maintained by: Dept. of Civil and Environmental Engineering, Faculty of Engineering.
Copyright © University of Melbourne 1995,1996.