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HINDU COLLEGE OF ENGINEERING, SONEPAT
LECTURE PLAN
SEMESTER/CLASS SESSION
SUBJECT: DISASTER MANAGEMENT
SUBJECT CODE : CE-486 B
SESSIONAL MARKS: 25 THEORY MARKS: 75 DURATION OF EXAMS: 3 HOURS
NAME OF TEACHER : MR. SIDDHARTH DEPARTMENT :CIVIL ENGINEERING
OBJECTIVES OF CONCERNED SUBJECT
1. To introduce the basic concept, disaster management act and significance of Disaster Management 2. To study hydro-metrological disaster, its forecasting, significance of early warning and structural and non structural measures codal provisions 3. To study geological based disaster, seismic zones in India and structural and non structural measures required as per codal proivisons 4. To know technological disaster; fire; chemical; traffic; Indian standards provision for mitigation 5. To learn significance of latest techniques of remote sensing and GIS in disaster management.
OUTCOME OF CONCERNED SUBJECT: A student will be able to 1. Know the significance of disaster management, 2. Study the occurrences, reasons and mechanism of various types of disaster 3. Learn the preventive measures as Civil Engineer with latest codal provisions 4. Apply the latest technology in mitigation of disasters
Lecture
No. Lecture Dates TOPICS TEXT/REFERENCE BOOKS
1 08/01/2018 Introduction to Disaster Management: Disaster, Emergency, Hazard
Ben Wisner., At Risk: Natural
Hazards, People vulnerability and
Disaster, Amazon Publications,
2001
2 09/01/2018 Mitigation
3 10/01/2018 Disaster Prevention
4 11/01/2018 Preparedness and Rehabilitation,
5 15/01/2018 Risk and Vulnerability,.
6 16/01/2018 Classification of Disaster, Natural and Man made Disasters,
7 17/01/2018 International day and Decade of Disaster Reduction
8 23/01/2018 Risk and Vulnerability to disaster mitigation and management options: Warning and Forecasting
9 24/01/2018 Risk and Vulnerability to disaster mitigation and management options: Warning and Forecasting
8TH JAN. - JUNE 2018
10 25/01/2018 Risk and Vulnerability to disaster mitigation and management options: Warning and Forecasting
11 18/01/2018 Hydro-meteorological based disasters I: Disaster
Management Act 2005,
12 29/01/2018 Role of NDMA, NDRF, NIDM,
13 30/01/2018 Tropical Cyclones, Floods, droughts,
14 31/01/2018 mechanism, causes, role of Indian Metrological Department, Central Water Commission,
15 1/02/2018 structure and their impacts, classifications,
vulnerability,
16 5/02/2018 Early Warning System, Forecasting, Flood
Warning System,
17 06/02/2018 Drought Indicators, recurrence and declaration,
18 07/02/2018 Structural and Nonstructural Measures
19 08/02/2018
Hydro-meteorological based disasters II:
Desertification Zones, causes and impacts of
desertification, Characteristics,
20 12/02/2018
Hydro-meteorological based disasters II:
Desertification Zones, causes and impacts of
desertification, Characteristics,
21 13/02/2018 Vulnerability to India and Steps taken to combat
desertification,
22 15/02/2018 Forest Fires; Causes of Forest Fires; Impact of
Forest Fires, Prevention.
23 19/02/2018 Geological based disasters: Earthquake, Reasons,
24 20/02/2018 Compression, Shear, Rayleigh and Love Waves;
Magnitude and Intensity Scales,
25 21/02/2018 Direct and Indirect Impact of Earthquake; Seismic
Zones in India,
26 26/02/2018 Factors, Indian Standards Guidelines for RCC and
Masonry Structures,
27 27/02/2018 Prevention and Preparedness for Earthquake,
28 01/03/2018 Revision
29 05/03/2018 Revision
30 12/03/2018 Tsunamis, : Definition, causes and structure
31 13/03/2018 Landslides: Definition, causes and structure
32 14/03/2018 Avalanches: Definition, causes and structure
33 15/03/2018 past lesson learnt and measures taken; their
Characteristic features, Impact and prevention,
34 19/03/2018 Atlas (BMTRPC); structural and non structural
measures.
35 20/03/2018 Manmade Disasters I: Chemical Industrial
hazards; causes and factors,
36 21/03/2018 pre- and post disaster measures; control ; Indian
Standard Guidelines and Compliance;
37 26/03/2018 Traffic accidents; classification and impact,
38 27/03/2018 Fire hazards; Classification as per Indian
Standards;
39 28/03/2018
Fire risk assessment; Escape routes; fire fighting
equipments; classification of buildings, fire zones,
occupancy loads; .capacity and arrangements of
exists,
40 30/03/2018
Fire risk assessment; Escape routes; fire fighting
equipments; classification of buildings, fire zones,
occupancy loads; .capacity and arrangements of
exists,
41 02/04/2018
Fire risk assessment; Escape routes; fire fighting
equipments; classification of buildings, fire zones,
occupancy loads; .capacity and arrangements of
exists,
42 03/04/2018 Use of remote sensing and GIS in disaster
mitigation and management
43 04/04/2018 Use of remote sensing and GIS in disaster
mitigation and management
44 05/04/2018 Use of remote sensing and GIS in disaster
mitigation and management
45 09/04/2018 Revision
46 10/04/2018 Revision
47 11/04/2018 Revision
48 16/04/2018 Revision
TEXT/REFERENCE BOOKS:
1. Thomas D. Schneid., Disaster Management and Preparedness, CRC Publication, USA, 2001
2. Patrick Leon Abbott, Natural Disasters, Amazon Publications, 2002
3. Ben Wisner., At Risk: Natural Hazards, People vulnerability and Disaster, Amazon Publications, 2001
Home Assignments: 4 –5 assignments are given during the semester.
Evaluation Procedure
1. Surprise Quiz/ Tutorial Test 5 Marks
2. Assignment / Project / Performance in the Class 5 Marks
3. Minor Tests (Two tests having equal weightage)
Minor Test I : 06 – 09 March, 2018
Minor Test II : 17 -20 April, 2018
15 Marks
4. Major test (University Examination) 75 Marks
Attendance Record – Candidate should attend at least75% attendance of the total classes held of the
subject
Chamber consultation hour: Any vacant period.
Note:
1. In the semester examination, the examiner will set 08 questions in all selecting two from each unit (1
& 2 from unit I, 3 & 4 from unit II, 5 &6 from unit III and 7 & 8 from unit IV). The students will be
required to attempt only 5 questions selecting at least one question from each unit. All questions will
carry equal marks.
2. The use of scientific calculator will be allowed in the examination. However, programmable
calculator and cellular phone will not be allowed.
HINDU COLLEGE OF ENGINEERING, SONEPAT
LECTURE PLAN
SEMESTER/CLASS SESSION
SUBJECT: Elements of Earthquake Engineering SUBJECT CODE : CE-402B
SESSIONAL MARKS: 25 THEORY MARKS: 75 DURATION OF EXAMS: 3 HOURS
NAME OF TEACHER : Tanmay Gupta DEPARTMENT : Civil Engg. Dept.
OBJECTIVES OF CONCERNED SUBJECT: the objective of this subject is to give knowledge to students about
earthquake, its dynamic loading on structures, failures due to earthquake and retrofitting.
OUTCOME OF CONCERNED SUBJECT: this subject will give detailed knowledge about concept of earthquake,
structural dynamics.
Lecture
No. Lecture Dates TOPICS TEXT/REFERENCE BOOKS
1. 08.01.2018 Introduction to various disasters, Disaster
Management NIDM notes
2. 09.01.2018 Nature of dynamic loads, wind load and blast
load Structural Dynamics, Anil Kr.
Chopra
3 10.01.2018 Nature of dynamic loads, wind load and blast
load(contd.), characteristics of dynamic
problem
Structural Dynamics, Anil Kr.
Chopra
4. 11.01.2018
method of discretization (Lumped mass
procedure and generalized displacement
method)
Structural Dynamics, Anil Kr.
Chopra
5. 15.01.2018 method of discretization ( The finite element
concept)
Structural Dynamics, Anil Kr.
Chopra
6. 16.01.2018 Formulation of Equation of Motions: Free
vibrations of single degree of freedom system
Structural Dynamics, Anil Kr.
Chopra
7. 17.01.2018 Formulation of Equation of Motions: Forced
vibrations of single degree of freedom system
Structural Dynamics, Anil Kr.
Chopra
8. 18.01.2018 damping and its effects, transient vibration Structural Dynamics, Anil Kr.
Chopra
8th JAN. - JUNE 2018
9. 23.01.2018 response spectrum theory
Structural Dynamics, Anil Kr.
Chopra
10. 24.01.2018 Review of formulation of flexibility and
stiffness matrices of framed structures
Structural Dynamics, Anil Kr.
Chopra
11. 25.01.2018 Review of formulation of flexibility and
stiffness matrices of framed structures(contd.)
Structural Dynamics, Anil Kr.
Chopra
12. 31.01.2018 Review of formulation of flexibility and
stiffness matrices of framed structures(contd.)
Structural Dynamics, Anil Kr.
Chopra
13. 01.02.2018 Application of vibration theory. Structural Dynamics, Anil Kr.
Chopra
14. 05.02.2018 Introduction to Ductile Detailing of
Structures, Concept of Soft Story Shear Walls Structural Dynamics, Anil Kr.
Chopra
15. 06.02.2018 Introduction to Ductile Detailing of
Structures, Concept of Soft Story Shear
Walls(contd.)
Structural Dynamics, Anil Kr.
Chopra
16. 07.02.2018 Use of Codes with reference to Masonry
Buildings like IS: 4326
Eq. resistant design of structure,
Pankaj Aggarwal
17. 08.02.2018 Use of Codes with reference to Masonry
Buildings like, IS: 13828,
Eq. resistant design of structure,
Pankaj Aggarwal
18. 12.02.2018 Use of Codes with reference to Masonry
Buildings like, IS: 13827 Eq. resistant design of structure, Pankaj Aggarwal
19. 13.02.2018 Introduction to Structural Failures due to
Earthquake Eq. resistant design of structure, Pankaj Aggarwal
20. 15.02.2018 Introduction to Structural Failures due to
Earthquake(contd.) Eq. resistant design of structure, Pankaj Aggarwal
21. 19.02.2018 Introduction to Structural Failures due to
Earthquake(contd,) Eq. resistant design of structure, Pankaj Aggarwal
22. 20.02.2018 identification of Seismic damage in RC
Buildings Eq. resistant design of structure, Pankaj Aggarwal
23. 21.02.2018
Soft storey failure, floating column, plan and
mass irregularities, poor quality of
construction material.
Eq. resistant design of structure, Pankaj Aggarwal
24. 26.02.2018 criteria for repair and strengthening Eq. resistant design of structure, Pankaj Aggarwal
25. 27.02.2018 Retrofitting and retrofitting materials Eq. resistant design of structure, Pankaj Aggarwal
26. 01.03.2018 REVISION for sessional
27. 05.03.2018 REVISION for sessional
28. 13.03.2018 Effect of structural irregularities on Eq. resistant design of structure,
performance Pankaj Aggarwal
29. 14.03.2018 seismic resistant building Architecture Eq. resistant design of structure, Pankaj Aggarwal
30. 15.03.2018 seismic resistant building Architecture(contd.) Eq. resistant design of structure, Pankaj Aggarwal
31. 19.03.2018 Multi-degree of freedom systems Structural Dynamics, Anil Kr.
Chopra
32. 19.03.2018 Multi-degree of freedom systems: Mode
shapes and frequencies Structural Dynamics, Anil Kr.
Chopra
33. 20.03.2018 numerical techniques for finding
modes shapes and corresponding frequencies Structural Dynamics, Anil Kr.
Chopra
34. 21.03.2018 numerical techniques for finding
modes shapes and corresponding frequencies
Structural Dynamics, Anil Kr.
Chopra
35. 26.03.2018 numerical techniques for finding
modes shapes and corresponding frequencies
Structural Dynamics, Anil Kr.
Chopra
36. 27.03.2018 orthogonality relationship of principal modes
Structural Dynamics, Anil Kr.
Chopra
37. 01.03.2018 Determination of fundamental frequency
Structural Dynamics, Anil Kr.
Chopra
38. 02.04.2018 Determination of fundamental
frequency(contd.)
Structural Dynamics, Anil Kr.
Chopra
39. 03.04.2018 Rayleigh’s principle and its applications
Structural Dynamics, Anil Kr.
Chopra
40 04.04.2018 Rayleigh’s principle and its
applications(contd.)
Structural Dynamics, Anil Kr.
Chopra
41 05.04.2018 normal mode theory for forced vibration
Structural Dynamics, Anil Kr.
Chopra
42 09.04.2018 analysis of multi-degree freedom system
Structural Dynamics, Anil Kr.
Chopra
43. 10.04.2018 dynamic response by
mode superposition method
Structural Dynamics, Anil Kr.
Chopra
44. 11.04.2018 dynamic response by
mode superposition method(contd.)
Structural Dynamics, Anil Kr.
Chopra
45. 12.04.2018 dynamic response by
mode superposition method(contd.)
Structural Dynamics, Anil Kr.
Chopra 46. 16.04.2018
REVISION for sessional
TEXT/REFERENCE BOOKS:
A. Structural Dynamics, Anil Kr. Chopra
B. Earthquake resistant design of structure, Pankaj Aggarwal.
Home Assignments: 4 –5 assignments are given during the semester.
Evaluation Procedure
1. Surprise Quiz/ Tutorial Test 5 Marks
2. Assignment / Project / Performance in the Class 5 Marks
3. Minor Tests (Two tests having equal weightage)
Minor Test I : 06 – 09 March, 2018
Minor Test II : 17 -20 April, 2018
15 Marks
4. Major test (University Examination) 75 Marks
Attendance Record – Candidate should attend at least75% attendance of the total classes held of the
subject
Chamber consultation hour: Any vacant period.
Note:
1. In the semester examination, the examiner will set 08 questions in all selecting two from each unit (1
& 2 from unit I, 3 & 4 from unit II, 5 &6 from unit III and 7 & 8 from unit IV). The students will be
required to attempt only 5 questions selecting at least one question from each unit. All questions will
carry equal marks.
2. The use of scientific calculator will be allowed in the examination. However, programmable
calculator and cellular phone will not be allowed.
HINDU COLLEGE OF ENGINEERING,
SONEPAT
LECTURE PLAN
SEMESTER/CLASS SESSION
SUBJECT: HV&IPR SUBJECT CODE :MGT402B
SESSIONAL MARKS: 25 THEORY MARKS: 75 DURATION OF EXAMS: 3 HOURS
NAME OF TEACHER : ANITA KUCHHAL DEPARTMENT :Applied Science
OBJECTIVES OF CONCERNED SUBJECT: To develop responsible civil engineers and
enhancement of Moral values and Ethics.
OUTCOME OF CONCERNED SUBJECT: Increase in values and Ethics and responsibility
towards the Nation.
Lecture
No.
Lecture
Dates TOPICS TEXT/REFERENCE BOOKS
1 30/01/18 Role of engineer in Nation building
Mike Martin and Roland
Schinzinger,“Ethics in Engineering”,
McGraw-Hill, New York 1996.
2 31/01/18 Role of engineer in service of mankind Govindarajan M, Natarajan S, Senthil
Kumar V. S, “Engineering Ethics”,
Prentice Hall of India, New Delhi,2004
3 01/02/18 Engineering Ethics
4 07/02/18 Moral issues and types of inquiry
5 08/02/18 Moral autonomy,Kohlberg‟s and
Gilligan‟s theory
6 12/02/18 Profeesions,professional ideas and
virtues
7 13/02/18 Self interest,customs and religions,use
of ethical values
8 19/02/18 Moral values
9 20/02/18 Moral etics
10 21/02/18 Engineering as social expectation
11 26/02/18 Engineers as responsible experimenters
12 27/02/18 Code of ethic,balanced outlook on Law
13 28/02/18 The Challenger case study
8th CE JAN. - JUNE 2018
14 01/03/18 Engineers responsibility for safety
15 05/03/18 Safety and risk
16 12/03/18 Risk benefit analysis
17 13/03/18 Reducing Risk
18 14/03/18 The three mile island study
19 15/03/18 Chernobyl case study
20 19/03/18 Responsibility of engineers
21 20/03/18 Respect for authority, collective
bargaing
22 21/03/18 Confidentiality,conflict,occupational
crime
23 26/03/18 Professional rights
24 27/03/18 Employee rights
25 28/03/18 Intellectual property rights P.S. Narayan, „Intellectual Property Law
in India‟, Gogia Law Agency, 1999.
26 29/03/18 Discrimination, arbitration and
litigations
27 02/04/18 Global issues-Multinational
corporations
28 03/04/18 Environmental Ethics
29 04/04/18 Computer Ethics
30 05/04/18 Weapons Development
31 09/04/18 Engineers as managers
32 10/04/18 Leadership and code of conduct
TEXT/REFERENCE BOOKS:
A. Charles D. Fleddermann, “Engineering Ethics”, Pearson Education / Prentice Hall, New Jersey, 2004
(Indian Reprint now available).
B. Avinash Shivade, „Intellectual Property Manual‟ , Lexis, Nexis, 2004
Home Assignments: 4 –5 assignments are given during the semester.
Evaluation Procedure
1. Surprise Quiz/ Tutorial Test 5 Marks
2. Assignment / Project / Performance in the Class 5 Marks
3. Minor Tests (Two tests having equal weightage)
Minor Test I : 06 – 09 March, 2018
Minor Test II : 17 -20 April, 2018
15 Marks
4. Major test (University Examination) 75 Marks
Attendance Record – Candidate should attend at least75% attendance of the total classes held of the
subject
Chamber consultation hour: Any vacant period.
Note:
1. In the semester examination, the examiner will set 08 questions in all selecting two from each unit (1
& 2 from unit I, 3 & 4 from unit II, 5 &6 from unit III and 7 & 8 from unit IV). The students will be
required to attempt only 5 questions selecting at least one question from each unit. All questions will
carry equal marks.
2. The use of scientific calculator will be allowed in the examination. However, programmable
calculator and cellular phone will not be allowed.
HINDU COLLEGE OF ENGINEERING, SONEPAT
LECTURE PLAN
SEMESTER/CLASS SESSION
SUBJECT: IRRIGATION ENGINEERING-II
SUBJECT CODE : CE-404 B
SESSIONAL MARKS: 25 THEORY MARKS: 75 DURATION OF EXAMS: 3 HOURS
NAME OF TEACHER : MR. SUNDER SINGH DEPARTMENT :CIVIL ENGINEERING
OBJECTIVES OF CONCERNED SUBJECT: Irrigation System Selection and Design - Focusing on the types of
systems, their components, water application concepts and system evaluation are goals for this module. So, the
overall objectives of this module are: Module Objectives: You will recognize some of the engineering terms used in
irrigation systems.
OUTCOME OF CONCERNED SUBJECT:
To train the students and develop basic understanding of soil water plant relationship and select and design
appropriate method of water application in varied situations.
Lecture
No. Lecture Dates TOPICS TEXT/REFERENCE BOOKS
1 08/01/2018 Cross Drainage Works: Classification and their selection
Irrigation Engineering and
Hydraulic Structures by S.K.Garg.
2 09/01/2018
Cross Drainage Works: Hydraulic Design Aspects
of Aqueducts, Syphon Aqueducts, Super Passage,
Canal Syphon and Level Crossing
3 10/01/2018 Cross Drainage Works: Hydraulic Design Aspects of Aqueducts, Syphon Aqueducts, Super Passage, Canal Syphon and Level Crossing
4 11/01/2018
Cross Drainage Works: Hydraulic Design Aspects
of Aqueducts, Syphon Aqueducts, Super Passage,
Canal Syphon and Level Crossing
5 15/01/2018 Cross Drainage Works: Design of Canal Transitions.
6 16/01/2018 Cross Drainage Works: Design of Canal Transitions.
7 17/01/2018 Regulation works: Canal falls-necessity and location,
8 18/01/2018 Development of falls
9 29/01/2018 Design of cistern element, roughening devices.
8TH JAN. - JUNE 2018
10 30/01/2018 Design of Sarda type fall. Design of straight Glacis
fall. Off-take alignment
11 31/01/2018 Design of Sarda type fall. Design of straight Glacis fall. Off-take alignment
12 1/02/2018 Cross-Regulator and Distributory Head Regulators
13 5/02/2018 Devices to control silt entry into the off-taking
channel and Silt Ejector, Canal Escapes.
14 06/02/2018 Diversion Canal Headworks: Various components
and their functions, layout plan,
15 07/02/2018 Selection of site for diversion headworks, Causes of failure of weir/barrages on permeable foundation, Bligh's creep theory
16 08/02/2018
Selection of site for diversion headworks, Causes
of failure of weir/barrages on permeable
foundation, Bligh's creep theory
17 12/02/2018 , Khosla's method of independent variables, use
of Khosla's curves, various corrections.
18 13/02/2018 , Khosla's method of independent variables, use
of Khosla's curves, various corrections.
19 15/02/2018 Storage Headworks: Types of dams, selection of a
site
20 19/02/2018 Gravity dam-two dimensional analysis forces
acting
21 20/02/2018 Stability criterion, elementary profile of a dam
22 21/02/2018 Grout Curtain and drainage galleries,
23 26/02/2018 Arch dams, constant angle and constant radius
arch dam
24 27/02/2018 Arch dams, constant angle and constant radius
arch dam, simple design and sketchs,
25 01/03/2018 Most economical angle. Earth dam
26 05/03/2018 Design principles, seepage through earth dams,
seepage line, control of seepage
27 12/03/2018 Design principles, seepage through earth dams,
seepage line, control of seepage
28 13/03/2018 Design of filters.
29 14/03/2018 Design of filters.
30 15/03/2018 Spillways and Energy Dissipators: Requirements
of spillway and spillway capacity
31 19/03/2018 Types of spillways and their suitability.
32 20/03/2018 Design aspects of Ogee spillways, chute, side
channel,
33 21/03/2018
Shaft and syphon spillways, Energy dissipation
below spillways, stage discharge and jump height
curves,
34 26/03/2018
Shaft and syphon spillways, Energy dissipation
below spillways, stage discharge and jump height
curves,
35 27/03/2018 Stilling basins, USBR and I.S. Stilling Basins for
different Froude no. ranges
36 28/03/2018 Stilling basins, USBR and I.S. Stilling Basins for
different Froude no. ranges
37 30/03/2018 Stilling basins, USBR and I.S. Stilling Basins for
different Froude no. ranges
38 02/04/2018 Design of stilling basins
39 03/04/2018 Design of stilling basins
40 04/04/2018 Revision
41 05/04/2018 Revision
42 09/04/2018 Revision
43 10/04/2018 Revision
44 11/04/2018 Revision
45 16/04/2018 Revision
46 26/04/2018 Revision
TEXT/REFERENCE BOOKS:
A. Irrigation, Water Resources and Water Power Engineering by P.N.Modi.
B. Irrigation Engineering and Hydraulic Structures by S.K.Garg.
C. Theory and Design of Irrigation Structures Vol. I & II by R.S.Varshney, Gupta & Gupta
Home Assignments: 4 –5 assignments are given during the semester.
Evaluation Procedure
1. Surprise Quiz/ Tutorial Test 5 Marks
2. Assignment / Project / Performance in the Class 5 Marks
3. Minor Tests (Two tests having equal weightage) 15 Marks
Minor Test I : 06 – 09 March, 2018
Minor Test II : 17 -20 April, 2018
4. Major test (University Examination) 75 Marks
Attendance Record – Candidate should attend at least75% attendance of the total classes held of the
subject
Chamber consultation hour: Any vacant period.
Note:
1. In the semester examination, the examiner will set 08 questions in all selecting two from each unit (1
& 2 from unit I, 3 & 4 from unit II, 5 &6 from unit III and 7 & 8 from unit IV). The students will be
required to attempt only 5 questions selecting at least one question from each unit. All questions will
carry equal marks.
2. The use of scientific calculator will be allowed in the examination. However, programmable
calculator and cellular phone will not be allowed.
HINDU COLLEGE OF ENGINEERING, SONEPAT
LECTURE PLAN
SEMESTER/CLASS SESSION
SUBJECT: WATER POWER ENGINEERING SUBJECT CODE: CE 464B
SESSIONAL MARKS: 25 THEORY MARKS: 75 DURATION OF EXAMS: 3 HOURS
NAME OF TEACHER: MR. NAVEEN KUMAR DEPARTMENT: CIVIL ENGINEERING
OBJECTIVES OF CONCERNED SUBJECT:
i) To provide the knowledge of components of hydro power plants
ii) To gain the knowledge about turbines and water power generation
OUTCOME OF CONCERNED SUBJECT:
i) The student will get the opportunity to implement Research on the topic of his/her own interest.
ii) The student will be sound in designing the hydro power plants
Lecture
No.
Lecture
Dates TOPICS
TEXT/ REFERENCE
BOOKS
1-3
17/01/18,
18/01/18,
23/01/18
Unit I:
Introduction: Sources of power, estimation of water power,
necessity and importance of harnessing small hydro power,
flow duration and power duration curves
A, C
4-5 24/01/18,
25/01/18
Unit I:
Load curve, load factors, capacity factors, utilization factors,
firm and secondary power.
A, C
6-7 29/01/18,
30/01/18
Unit I:
Types of Hydro Power Plants: Elements of Hydro power,
classification of hydro-power plants, run-of-river plants A, C
8-11
30/01/18,
01/02/18,
05/02/18,
06/02/18
Unit I:
Storage plants diversion canal development, pumped storage
plants, tidal power plants, base load and peak load plants in a
power grid.
A, C
B.TECH. CE 8TH JAN. - JUNE 2018
12-14
07/02/18,
08/02/18,
12/02/18
Unit II:
Intakes: Intake structures, functions and their types,
components of Intakes- Forebay, Trash racks A, B
15-16 13/02/18,
15/02/18
Unit II:
Components of Intakes- Gates and Valves, force required to
operate gates. A, B
17-19
19/02/18,
20/02/18,
21/02/18
Unit III:
Conveyance System: Penstocks, design criterion, economical
diameter anchor blocks
A, C
20-22
26/02/18,
27/02/18,
01/03/18
REVISION FOR MINOR-I
23-25
05/03/18,
12/03/18,
13/03/18
Unit III:
Cradles and footings, water hammer, instantaneous closure of
power canal, surge tank, surges in canals. A, B
26-30
14/03/18,
15/03/18,
19/03/18,
20/03/18,
21/03/18
Unit IV:
Turbines: Types of turbines, specific speed and classification
of turbines, synchronous speed, scroll casing , flumes and
draft tubes, dimensions of scroll casing and draft tubes,
setting of turbines
A, B, C
31-35
26/03/18,
27/03/18,
28/03/18,
02/04/18,
03/04/18
Unit IV:
Power House: General layout and arrangements of hydro-
power units, number and size of units, sub-structure, spacing
of units, super-structure, underground power stations, tidal
power
A, B, C
REMAINING
LECTURES REVISION FOR MINOR-II & SEMESTER EXAMINATION
TEXT/REFERENCE BOOKS:
A. Water Power Engineering, Dandekar, M.M., Sharma,K.N.
B. Water Power Engineering, Borrows, H.K
C. Water Power Engineering, M.M.Deshmukh.
Home Assignments: 4 –5 assignments are given during the semester.
Evaluation Procedure:
1. Surprise Quiz/ Tutorial Test 5 Marks
2. Performance in the Class 5 Marks
3. Minor Tests (Two tests having equal weightage)
Minor Test I : 06 – 09 March, 2018
Minor Test II : 17 -20 April, 2018
15 Marks
4. Major test (University Examination) 75 Marks
Attendance Record – Candidate should attend at least 75% attendance of the total classes held of the subject
Chamber Consultation Hour: Any vacant period.
Note:
1. In the semester examination, the examiner will set 08 questions in all selecting two from each unit (1 & 2
from unit I, 3 & 4 from unit II, 5 &6 from unit III and 7 & 8 from unit IV). The students will be required to
attempt only 5 questions selecting at least one question from each unit. All questions will carry equal
marks.
2. The use of scientific calculator will be allowed in the examination. However, programmable calculator and
cellular phone will not be allowed.