Sample Course Plan

CET 306 – DESIGN OF HYDRAULIC STRUCTURES

SAMPLE COURSE PLAN

DAY MODULE TOPIC
1 1 Introduction
2 1 Diversion headwork components and functions
3 1 Diversion headwork components and functions
4 2 cross drainage structures – types
5 3 Hydraulic design of Aqueduct and demonstration of drawing
6 3 Hydraulic design of Aqueduct and demonstration of drawing
7 3 Hydraulic design of Aqueduct and demonstration of drawing
8 3 Hydraulic design of Aqueduct and demonstration of drawing
9 3 Hydraulic design of Aqueduct and demonstration of drawing
10 3 Hydraulic design of Siphon Aqueduct and demonstration of drawing
11 3 Hydraulic design of Siphon Aqueduct and demonstration of drawing
12 3 Hydraulic design of Siphon Aqueduct and demonstration of drawing
13 3 Hydraulic design of Siphon Aqueduct and demonstration of drawing
14 3 Hydraulic design of Siphon Aqueduct and demonstration of drawing
15 3 Hydraulic design of Siphon Aqueduct and demonstration of drawing
16 3 Hydraulic design of Siphon Aqueduct and demonstration of drawing
17 2 Canal falls-Necessity, types
18 3 Canal drop (Trapezoidal Notch Fall)
19 3 Canal drop (Trapezoidal Notch Fall)
20 3 Canal drop (Trapezoidal Notch Fall)
21 3 Canal drop (Trapezoidal Notch Fall)
22 3 Canal drop (Trapezoidal Notch Fall)
23 1 Weirs – types and causes of failure
24 1 Weirs – types and causes of failure
25 1 Impervious floor of hydraulic structures – Bligh’s theory
26 1 Design of vertical drop weir
27 1 Design of vertical drop weir
28 1 Design of vertical drop weir
29 1 Design of impervious floor of hydraulic structures by Khosla’s theory
30 1 Design of impervious floor of hydraulic structures by Khosla’s theory
31 1 Design of impervious floor of hydraulic structures by Khosla’s theory
32 1 Design of impervious floor of hydraulic structures by Khosla’s theory
33 1 Design of impervious floor of hydraulic structures by Khosla’s theory
34 3 Sarda type fall (trapezoidal crest impervious floor design using Khosla’s theory)
35 3 Sarda type fall (trapezoidal crest impervious floor design using Khosla’s theory)
36 3 Sarda type fall (trapezoidal crest impervious floor design using Khosla’s theory)
37 3 Sarda type fall (trapezoidal crest impervious floor design using Khosla’s theory)
38 3 Sarda type fall (trapezoidal crest impervious floor design using Khosla’s theory)
39 3 Cross regulator (impervious floor design using Khosla’s theory)
40 3 Cross regulator (impervious floor design using Khosla’s theory)
41 3 Cross regulator (impervious floor design using Khosla’s theory)
42 3 Cross regulator (impervious floor design using Khosla’s theory)
43 3 Cross regulator (impervious floor design using Khosla’s theory)
44 2 Canals-types, Cross section of unlined canals and alignment;
45 2 Design of canals through alluvial soils- Kennedy’s theory
46 2 Design of canals through alluvial soils- Kennedy’s theory
47 2 Lacey’s silt theory
48 2 Lacey’s silt theory
49 2 Lacey’s silt theory
50 4 Dams-types
51 4 Gravity Dams Computation of forces
52 4 Gravity Dams Computation of forces
53 4 Modes of failure and stability criteria
54 4 Modes of failure and stability criteria
55 4 Stability analysis
56 4 Stability analysis
57 4 Elementary and practical profile
58 4 Elementary and practical profile
59 4 Limiting height of gravity dams
60 5 Earth dams-types, causes of failure and design criteria
61 5 Arch dams- thin cylinder theory
62 5 Arch dams- thin cylinder theory
63 5 Spillways-types