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,, cultur
al
EDgineetj/J1l
{Al /J(/ t,
Ie0 ~ { l ( 6
o
IKV l\ u ngeli-49533 t
~
.J
S
YL
B U
for
lINOF:R GR DU TE PROGR MME
B Tech. Agricultural Engineering)
(Effective rom 2008-09)
CHH TTISG RH
S MV D
2013
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Distributions
o
Courses for B. Tech. Agril. Engg.)
Particular
Page No.
Course No.
I
Course Name
Distribution
of
Course Credits
3
Year,
t
Semester
EMA ll1 Engineering Mathematics I
09
EPH 111 Engineer ing Physics
09
ECHE 111
Engineering Chemistry
EMB ll1
Workshop Practice
12
ECE 111 Surveying and leveling
12
ECE 112 Engineering Drawing
13
EES ll1 Environmental Science
13
EEL lIl
Electrical Circuits
14
t
Year, It d Semester
1 -
EMA 121 Engineering Mathematics II
15
EEL 121 Computers Programming
and
Data
15
Structure
EEL 122 Applied electrortics and instrumentation
16
EAG 122
Agriculture for Engineers
17
EME 121 Workshop Technology
18
EMB 122 Thermodynamics and Heat Engines
19
FMP 121
0 M of Tractor and Farm Machinery I
20
ECE l21 Engineering Mechanics
21
NSS/NCC Non Credits Course
II
d
Year,
I t
Semester
APFE 211
Engg. Properties of Biological Materials 22
and Food Quality
ECE 211 Soil Mechanics
23
SWE 21 I Soil and Water Conservation 24
Engineering
FMP 211 Farm Machinery and Equipment l
25
FMP 212 Farm Power 26
SWE 212
Engineering Hydrology
27
EMA 21I Engineering Mathematics III 28
EECO 211
Agribusiness Management and Trade 28
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t
l Ind Year,
lInd
Semester
FMP-221
Farm Machinery and Equipment-II
29
FMP-222
Renewable Energy Sources
30
-
SWE-221
Irrigation Engineering
3
APFE-221
Crop Process Engineering
32
ECE-221
Fluid Mechanics
33
I
I
EME-221 Theory
of
Machines 34
EME-222
Heat and Mass Transfer
35
FMP-223
o
M of Tractor and Farm Machinery
36
IIr
d
Year, 1
t
Semester
-
EEL-311
CAD/CAM- M/c Drawing Computer
37
Graphics
EME-311
Machine Design
38
APFE-311
Dairy and Food Engineering
39
FMP-311
Tractor Systems and Control
39
EEL-312
Electrical
Machines and
Power
40
Utilization
EEL-313
Database
Management and
Internet
4
Application
ECE-311
Strength of Materials
42
SWE-311
Groundwater, Wells and Pumps
43
IIr
d
Year,
l Ind
Semester
APFE-321 Agril.
Structures
and
Environment
44
Control
APFE-322
Drying and Storage Engineering
45
APFE-323
Design if structures
46
SWE-32I Drainage n ~ i n e e r i n g
47
SWE-322
Soil and Water Conservation Structures
48
EME-321 Refrigeration and Air Conditioning 49
EECO-321
Entrepren. Develop. Communication
50
Skills
IVth
Year,
r
t
Semester
AE-411
Dissertation/Project
5
AE-498 Seminar
5
'--------
Module-I: Soil
Water
Engineering
SWE-411
Design
and Maintenance of Green
5
House
SWE-412 Micro Irrigation Systems Design 52
SWE-413 Watershed Planning and Management 53
SWE 4l4 Minor Irrigation and Command Area 54
Development
SWE-415 Gully and Ravine Control Structures 54
SWE-416
Remote Sensing and GIS Application 55
SWE-417
Reservoir and Farm Pond Design 56
SWE-418 Systems Engineering 57
Module-II:
Farm
Machinery and Power
FMP-411 Tractor Design and Testing 58
FMP-412 Hydraulic Drives and Controls 58
FMP-413
Farm
Power and Machinery
59
Management
FMP-4l4 Renewable Energy Technology 60
FMP-415 6
FMP-416
Human Engineering and Safety
Biomass Management for fodder and
6
Energy
FMP-417 62
Machinery
FMP-418
Production technology of Agricultural
Mechanics of
Tillage and Traction 63
Module-III: Agricul tural Processing Food Engineer ing
APFE-411 64
APFE-412
Food Packaging Technology
65
APFE-413
Waste and By-product Utilization
66
Equipments
APFE-414
Development of Processed Products and
Food
Processing Plant Design and 66
Layout
APFE-415 Environmental Engineering 67
IVth Year, l Ind Semester
AE-499 In-Plant-Training 68
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. .
'1,
;tj
gricultural Engineering Education ................ .
The agricultural engineering education integrates engineering
and agricultural science knowledge and skill to develop technology
and/or processes to raise production and productivity and reduce
losses
of
agriculture and other farm produce through efficient
utilization
of
natural resources and conserving the same for future
use. The agricultural engineering education addresses issues relevant
to social and technological development
of
the farmers. The quality
and quantum
of
agricultural inputs and their management techniques
and also quality
of
farm produce and methods
of
value additions
would keep on changing with advancement
of
industrialization in
general and economic upliftment of farmers/processors n particular.
The mission
s
undertaken to educate student in the field of
engineering so as to prepare them for careers in agricultural
engineering in which they will become leaders in industry, the
profession and conduct quality research by applying engineering
principles to solve problems
of
agricultural system with major
objectives to impart education, and entrepreneurial skills in
engineering and design, development, manufacturing and operation of
equipment and technologies for farm operations for crop production
processing and value addition and efficient use of agricultural inputs
and natural resources, including different forms of energy in
agriculture and to conduct research on development
of
machines/technologies with an aim to mechanize various farm
operations as well as post harvest/product-processing operations.
Agricultural Engineering education in India was introduced
n
1942 with Bachelor
of
Science degree at the Allahabad Agricultural
Institute, Naini, Allahabad, U.P. with the objectives (i) to mechanize
their farms using more efficient tools, implements and machines and
ii) to conserve soil and water for efficient use. The second
programme
n
agricultural engineering education in India was
established in 1952 with Bachelor
of
Technology (B. Tech.) degree at
the Indian Institute of Technology (lIT) Kharagpur, West Bengal.
Pace
of
development ,of Indian Agriculture with green
revolution accelerated, and with that obsolescence of technical
contents
of
agricultural engineering education. Increasing export
opportunities in agricultural allied industries sector, beside
Adoption of
4
Deans committee recommendation n I\3KV, Rlupur
w e f
Academic session 2008-09 1
(EMR.JO" July 2008,69" BOM 4" August 2008 and 62'" ACM-12" September 2008 ,
-
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IJ
diversification has put additional responsibilities
in
agricultural
engineering to meet the growing requirement of food, feed and fiber.
Integrated energy management, controlled application of water,
surface covered cultivation, green house, horticulture, agro-forestry,
aquaculture, value addition of agro produces, standardization and
quality control, application of micro processor, and computer in
agriculture, agri-business etc. are some
of
the new engineering areas
which provide major scope to agricultural engineers.
With establishment of State Agricultural Universities (SA Us)
during 1960s on the pattern of Land Grant Universities in the United
States, the concept of agricultural education
in
India changed
significantly. The teaching, research and extension became integral
part of education. Presently there are about 44 agricultural
universities and
25
Engineering colleges offering courses in
agricultural engineering. In addition there are number of private
colleges offering degree programme outside the State Agricultural
University system.
Bhawani Sao Ramlal Sao Memorial College of Agricultural
Engineering and Technology, Mungeli, established in 2007
is
a
constituent college of Indira Gandhi Krishi Vishwavidyalaya, Raipur.
The syllabus and course curriculum
of
under graduate teaching
programme in Agricultural Engineering have suitably been amended.
The University has adopted new syllabus as per recommendations of
Fourth Deans' Committee of Indian Council of Agricultural Research,
69
th
Govt. of India, New Delhi (EMR_30
tlI
July 2008, BOM th
August 2008 and 62
nd
ACM-12 September 2008). The details
of
the
syllabus are available in the further sections.
I am sure that
all
the students would be benefitted by the
content given
in
this document. I would like to thank to
aU
who have
contributed directly and
in
indirectly for compilation of this
document.
Vinay
K.
Pandey
Adoption
of
4 Deans committee .-..:omm.nd.tion in IOKV, Raipur w,.,f, Academic session
2OOS-09
(EMR-30 July 2008,69" BOM 4 August 2008 and 62" ACM-12" September 2008
FIRST YEAR
IS' Semester
T Course Co'de
Course Name
Credits
N.
Total Th. TPr.
1.
EMA 111
Engineering Mathematics-I
3
3
I
0
2. EPH
Engineering Physics
3
2
3.
ECHE
111
Engineering Chemistry
3 2
4.
EME Workshop Practice
1
0
5.
ECE Surveying and Leveling
3
6.
ECE
112 Engineering Drawing 2
0
I 2
7. EES 111
Environmental Science
3 3
I 0
8. EEL 111 Electrical Circuits
3
2
9.
NCCINSS NCCINSS
Total 21
13
I 8
2
nd
Semester
1
EMA
121
Engineering Mathematics-II
3 3
0
2 EEL
121
Computers Programming and
Data Structures
3
2
3
EEL 122 Applied Iectr onics a nd
Instrumentation
3
2 1
4
EAG
121
Agriculture of Engineers 4
3
1
5
EME 121
Workshop Technology
3
2
1
6
EME
122 Thermodynamics and Heat
Engines
4
3
7
FMP
121
o & M of Tractor and Farm
Machinery-!
1
0 1
8
ECE 121
Engineering Mechanics
3 2
Total 24
16
8
Adoption of Deans committee recommendation in IGKV, Raipurw,.,f. Academic session 2008-09
~
EMR-30" July 2008,69" BOM
4"
August 2008 and 62'" ACM-12" September 2008
-
-
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SECOND YEAR
l't Semester
2
nd
Semester
2
nd
Semester
3
2
2
3
2
3
4
3
4
3 2
5
3
2
6
Theorv of Machines
3
2
7
Heat
and Mass Transfer
2 2
o
8
o
&
M of Tractor and Farm 2
Machiner y -II
Total
23 16 \ 7
FOURTH YEAR
I
Semester
THIRD
YEAR
1 \ Semester
1
APFE
211
2 ECE 211
3 SWE211
4
FMP 211
5
FMP212
6
SWE212
7
EMA211
8 EECO
211
Engg. Properties
of
Biological Materials
and Food Quality
Soil Mechanics
Soil and Water Conservation Engineering
Fann Machinery and Equipment-I
Fann Power
Engineering Hydrology
Engineering Mathematics-III
Agribusiness Management and Trade
Total
3
3
3
3
3
3
3
3
24
2
1
2 1
2 1
2 1
2
1
2 1
3
0
3
0
1 6
8
and
3
4
3
2
Conservation
3
Air
3
2
20
2
1
3
1
2 1
1 1
2
1
2
1
1
1
13 1
1
APFE 321
Agril. Structures
Environmental Control
2
APFE322
Drying and Storage Engineering
3
APFE 323
D e s ~ n of
Structures
4
SWE 321
Drainage Engineering
5 SWE322
Soil
and Water
Structures
6
EME321
Refrigeration
and
Conditioning
7 EEC0321
Entrepren. Develop.
&
Communication Skills
Total
-
1
AE41l
.1 Dissertationl Project '
6
2
AE498
I
Seminar
I
3
Cafeteria Courses
15
(students have to take 15 credits)
M o d u l e ~ l Soil and Water Engineering
SWE41l
Design and Maintenance
of
Green
3
House
SWE412
Micro Irrigation Systems Design
3
SWE413
Watershed
Planning
and 3
Management
SWE414
Minor Irrigation and Command
3
Area Development
SWE 415 Gully and Ravine Control 3
Structures
SWE416
Remote Sensing
and
GIS
3
Applications
SWE417
Reservoir and Farm Pond Desi,gn
3
SWE 418
Systems Engineering
3
Adoption of Deans committee recommendation in
IOKV,
Raipur w.e. . Academic semon
2008-09
(BMR-30"
luly
2008,69'"
80M 4
August 2008
and
6')(" ACM-l2'" &pternber
2008
0
6
0
1
2
1
2
1
2
1
2
1
2 1
2 1
2
1
2
1
2
Computer 3
EEL 311
2 I 1 3
MB311
2 I 1PFE
311 3
Tractor Systems
and
Controls
2 I 1
FMP311
3
2 I 1EL 312
Electrical Machines and Power Utilization
3
Database Management and Internet o I 2
EEL
313
2
Applications
Strength of Materials
BCE 311 3 2
SWE
311 Groundwater, Wells and Pumps 2 I 1
3
Total 23 13 I
1
Adoption of
4th
Deans. committee recommendation
m I(;
F'X. R II pm
, v e r Academic session
2 8 ~ 9
(EMR-30"
July
2008,69'''
BOM
4
August 2008 and
62''''
ACM-12"
September 2008
-
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Module-II: Farm Machinery and Power
FMP 411
Tractor Design and Testing
3
2
FMP 412
Hydraulic Drives and Controls
3
2
FMP 413
Farm
Power and
Machinery
3
2
Manag
el11
ent
3
2
2
2
2 2
-
nd Energy
FMP 417 Production
Technology
of
3
2
Agricultural Machinery
FMP 418
Mechanics of Tillage and Traction
3 2
Module-III: Agricultural Processing & Food Engineering
3
2
2
2
3
2
and Equipments
APFE 414 Food Processing Plant Design and
2 2
Layout
APFE415
Environmental Engineering 3
22 Credits
Two to four students will form a group to undertake research work.
2
nd
Semester
I
0
0
1
0
1
0
1 I AE 499
In-plant Training (only 14 credits
will be counted towards OG PA
. calculation)
25
o
25
Grandl'o IlI: 2
(only 171 credits will be count towards OGPA calculation
In-Plant Training
(25
credit hours):
The in-plant training
is
intended to expose the students to an environment
in which they are expected to be associated in their future career. The students will
be required to have hands-on-experience at progressive farms, research institutions
manufacturi ng or agro-processing industries and in rural areas. The training includes
farm planning and development of irrigation/drainage project, watershed
development, manufacturing technology of agricultural
or
processing machinery,
testing and evaluation, quality control, marketing and servicing.
Operational Aspects:
Six months duration shall be covered during the final year for
the training
to
be carried out at various centers, plants and institutes. The detailed
programme of work shall be developed and carried out by the students. The
evaluation procedures to be followed shall be prepared by the concerned
faculty/department
of
the institute in the form
of
a manual for reference of students,
evaluators and the functionaries concerned. The manual shall contain all details about
training programme. The programme shall be of residential nature and it shall be
compulsory for the student
to
stay at the place of posting. A minimum 0 r80 percent
attendance
is
necessary during the training programme.
Supervision: In order to take policy decision and to solve
and
administrative bottleneck
ifany,
there should be a college level
of the following:
Dean, College
Chairman
Chairman Academic Committee of college
Member
Head of concerned department
Member
Evaluation In plant Training: The In-plant training for a period equivalent to one
semester or two trainings of two months each is recommended, where in the student
would complete the process right from the raw material to the finished product; and
then market it to the consumer. Out of25 credits assigned in In-plant training only 14
credits will be counted towards O.G.P.A. calculation and rest II credits will be
evaluated as Satisfactory (S)lUnsatisfactory (US).
Iant Trainimt - Distribution
of
Credits
- - -
_
S.N.
1
Activities
Training Report
Towards
Calculation
of
OGPA
-
Towards grading
ofSIUS
5
2. Oral
Presentation
Report
of
Training
6
3.
Viva Voce Examination
9
-
4. Assessment
Achievements
Total
-
Training 5
14
11
Experiential
Learning:
The experiential learning is intended to build practical skills and
Adoption
of 4
Deans committee recommendation in ICKV, Raipurw.e.f. Academic session 2008-09
Adoption
of 4th
Deans committee recommendation in IGKV. RaJPur
w.e.f.
Academic session 2008-09
(EMR-30 July 2008,69 B OM ~ A u g u s t 2008 and
62
ACM-12
1h
September 2008
\iv...\ 6
(EMR.30 ' July 2008.69' BOM
4
August 2008 and 62'
C M 2 ~
September 2008
\ i v ~
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7/26/2019 Syl Labib Age Ngg Degree
8/38
entrepreneurshipamongthegraduates. t willinvolvesetting-upof model plansfor
food
processing and value addition for product diversification, setting up of
workshops for manufacturing, operation and maintenance
of farm
machinery
and
.equipment,maintenance
and
customhiringof farmmachinery
and
equipment. Thus
besides in-plant training. two hands-on training programme each
o
six weeks
duration during summer breaks o second year and third year would be required to
be completed
y
every student.
Performance of
the
students
in
the training
programme be evaluatedbased on: (a) work quality,
(b)
acquired knowledge
and
expertise,
(c)
attendance,
(d)
maintenanceofrecords
(e)
report,(f)demonstration
and
presentation
in
seminar,and
(g)work
outcome.
Thesuggestedareasforexperientialleaming are as follows:
1. Fabricationof marketable toolsand implements. Facilityrequired- Production
workshop
2. Processingof agri-produce.Facilityrequired-Agro-processingcenter,
Pilotplant
for
processing
and
packagingof selectedgrainlhorticulturalcrop.
3.
Customhiring
of
packageof
farm
equipment.Facilityrequired- Tractor
andsetof
farm
implements
Adoptionof
4
Dean.committee reeommendQlion in10KV.
RQipur
w .
.
~ m i c
sion200809
(EMIt.30"
July
2008,69"BOM4'"August
2008
and62"'ACMI2'"
September
1008
FIRST
YEAR
(FirstSemester)
1
ENGINEERINGMATHEMATICS-I
EMA1113(3
0)
Differential calculus: Taylor's and Maclaurin's expansions; indeterminate
form; curvature, asymptotes, tracing
of
curves, function
of
two or more
independent variables, partial differentiation, homogeneous functions and
Euler's theorem, composite functions, total d e r i v a t i v ~ s derivative
of
an
implicitfunction, change
of
variables,Jacobians, errorevaluation, maxima
andminima.Integral calculus:Requction formulae;rectification
of
standard
curves, volumes and surfaces
of
revolution
of
curves; double andtriple
integrals, change
of
order
of
integration, Gamma and Beta functions,
applicationof doubleandtripleintegralsto find areaandvolume.Ordinary
differentialequations:ExactandBernoulli'sdifferentialequations,equations
reducible to exactform by integratingfactors, equations
of
first orderand
higherdegree, Clairaut'sequation,Differential equationsof higherorders,
methods
of
finding complementary functions and particular integrals,
method
of
variation of parameters, Cauchy's and Legendre's linear
equations, simultaneous linear differential equations with constant
coefficients,seriessolutiontechniques,Bessel 'sandLegendre'sdifferential
equations.Vectorcalculus:Differentiation
of
vectors,scalarandvectorpoint
functions, vector differential operator Del, Gradient
of
a scalar point
function, DivergenceandCurl
of
avectorpointfunctionandtheirphysical
interpretations, identitiesinvolvingDel, second orderdifferential operator;
line,surfaceandvolumeintegrals,Stoke's,divergenceandGreen'stheorems
(withoutproofs).
Reference:
1. Grewal, B.S. 1983. Higher Engineering Mathematics, Khanna
PublishingHouse,NewDelhi.
2. Love, c E and Rainville,
E n
1968. Differential and Integral
calculus.TheMacmillonCo.NewYork,
3.
Prasad, Gorakh, 1986. Textbook on Integral Calculus and
elementarydifferentialequations.PothishalaPvt.Ltd.,Allahabad.
2. ENGINEERING PHYSICS EPH-1113(2+1)
Dia, Para and ferromagnetism-classification. Langevin theory of dia and
paramagnetism. Adiabatic demagnetization, Weiss molecular field theory
and ferromagnetism. Curie-Weiss law. Wave particle quality, de-Broglie
concept,uncertaintyprinciple. Wave function, Time dependentand time
-
7/26/2019 Syl Labib Age Ngg Degree
9/38
'I
/
independent Schrodinger wave equation, Qualitative explanation of e e ~ a n
effect, Stark effect and Paschan Back effect, Raman spectroscopy. Statement
of Bloch's function, Bands in solids, velocity of Bloch's electron and
effective mass. Distinction between metals, insulators and semiconductors,
Intrinsic and extrinsic semiconductors, law
of
mass action, Determination of
energy gap in semiconductors, Donors and acceptor levels.
Superconductivity, critical magnetic field, Meissner effect, Isotope effect,
Type-I and II superconductors, Josephson's effect DC and AC, Squids,
Introduction to high Tc superconductors. Spontaneous and stimulated
emission, Einstein A and B coefficients, Population inversion, He-Ne and
Ruby lasers, Ammonia and Ruby masers, Holography-Note. Optical fiber,
Physical structure, basic theory. ~ o e type, input output characteristics of
optical fiber and applications. Illumination: laws of illumination, luminous
flux, luminous intensity, candle power, brightness
Practical: To find the frequency of A.C. supply using an electrical vibrator;
To find the low resistance using Carey Foster bridge without calibrating the
bridge wire; To determine dielectric constant of material using De Sauty's
bridge; To determine the value of specific charge
elm)
for electrons by
helical method; To study the induced e.m.f. as a function
of
velocity of the
magnet; To obtain hysteresis curve (B-H curve) on a C.R.O. and to
determine related magnetic quantities; To study the variation
of
magnetic
field with distance along the axis of a current carrying circular coil and to
determine the radius
of
the coil; To determine the energy band gap in a
semiconductor using a p-n Junction diode; To determine the slit width from
Fraunhofer diffraction pattern using laser beam; Determination of ultrasonic
wave velocity in a liquid medium; To find the numerical aperture
of
optical
fiber; To set up the fiber optic analog and digital link; To study the phase
relationships in L.R. circuit; To study LCR circuit; To study the variations
of
thermo e.m.f. of a copper-constantan thermoc.ouple with temperature; To
find the wave length of light by prism.
Reference:
1.
Glasston, S. 1988. Source book of atomic energy. Affiliated East-West
press, New Delhi.
2. Marion, J.B. and Hornyak, W.F. 1984. Principles of Physics: CBS
College Publishing, New York.
3. Rajam, J.B. 1979. Atomic Physics. S. Choudhary Co. New Delhi.
4.
Singhal, G.R. 1996. Modem Textbook
of
Physics. Universal book
depot. Gwalior.
Adoption of 4 Deans committee recommendation in IOKY, Raipur w.d. A c a d ~ ; ; i c session 2008-09 1 A 10
(EMR-30'" July 2008,69" BOM August 2008 and 62"' ACM-I2'" September 2008 Hv-J
-
3. ENGINEERING CHEMISTRY
ECHE 111 3 (2+1)
Phase rule and its application to one and two component systems. Fuels:
classification, calorific value. Colloids: classification, properties. Corrosion:
causes, types and method
of
prevention. Water: temporary and permanent
hardness, disadvantages
of
hard water, scale and sludge formation
in
boilers,
boiler corrosion. Analytical methods like thermogravimetric, polarographic
analysis, nuclear radiation , detectors and analytical applications of radio
active materials. Enzymes and their use in the manufacturing
of
ethanol and
acetic acid by fermentation methods. Principles
of
food chemistry,
introduction
to
lipids, proteins, carbohydrates, vitamins, food preservators,
colouring and flavouring reagents
of
food. Lubricants: properties,
mechanism, classification and tests. Polymers. types of polymerization,
properties, uses and methods for the determination
of
molecular weight
of
polymers. Introduction to IR spectroscopy.
Practical: Determination of temporary and permanent hardness
of
water by
EDTA method; Estimation of chloride in water; Estimation of dissolved
oxygen in water; Determination
of
BOD in water sample; Determination
of
COD in water sample; Estimation of available chlorine
in
bleaching powder;
Determination of viscosity of oil; Estimation of activity of water sample;
Estimation
of
alkalinity of water sample; Determination of carbonate and
non-carbonate hardness by soda,reagent; Determination
of
coagulation
of
water and chloride ion content ;' Determination
of
specific rotation
of
an
optically active compound; Determination of
Om""
and verification of Beer
Lambert Law; Determination of calorific value of fuel; Identification
of
functional groups (alcohol aldelyde, keline, carbonylic acid and amide) by
IR;
Chromatographic analysis; Determination of molar refraction of organic
compounds.
Reference:
1. Agarwal, C.V. 1969 Or recent edition Chemistry.. of Engineering
Materials. Tara Publication Varanasi.
2. Gyngell, E.S. 1989. Applied chemistry for Engineers B.L
Publications Bombay.
3.
Richards, W.C. 1992. Engineering materials Science. Printice-Hall
of
India, New Delhi.
4. Jain,
p c
and Jain, M. 1998. Engineering Chemistry, Dhanpatrai
Publication, Delhi.
5. Uppal, M.M., A Text Book of Engineering Chemistry, Khanna
Publications, Delhi.
Adoption of
Dean.
committee recommendation in IGKY, Raipur w.e.f. Academic s ;on 2008-09
(EMR-30'" July 2008,69'" BOM August 2008 and 62"' ACM-12 September 2008
-
7/26/2019 Syl Labib Age Ngg Degree
10/38
4.
WORKSHOPPRACTICE
EME
111
1(0+1)
2. Kanetkar, T,P, andKulkarni, S,P. 1965. Surveyingand Levelling.
A.V. GrihaPrakashan,Pune-4.
Practi cal: Introductionto variouscarpentrytools,materials,typesof wood
and their characteristics and Processes
OR
operations in wood working;
i
Preparation of simple joints: Cross
half
Lap
joint
and T-Halving joint;
Preparationof Dovetailjoint,Mortiseandtenorjoint;IntroductiontoSmithy
tools and operations; Jobs on Bending, shaping etc.; Jobs on Drawing,
Punching, Rivetting; Introductionto tools and measuring instruments for
/
fitting;Jobsonsawing,filing andrightanglefitting
of
MSFlat;Practicalin
morecomplex fittingjob; Operations
of
drilling" reaming, andthreading
withtapanddies;Practicaltest;Introductiontotoolsandoperations
in
sheet
metalwork;Makingdifferenttypes
of
sheetmetaljointsusingG.I.sheets.
Reference:
1.
Arthur, D. et
al
1998. General Engineering Workshop Practice.
AsiaPublishingHouse,Bombay.
2. Chapman, W.A.1., 1962. Workshop Technology, Part
I,
II, III,
E.I.B.S.andEdwardArnoldPublishersLtd.,London.
3, Chapman, W.A.1. 1965. Applied Workshop Calculations, Low
PricedTextbook.TheEnglishLanguageBookSocietyandEdward
Arnold(publishers)Ltd.
4. Gupta,K.N.andKaushik,J.P. 1998.WorkshopTechnology,Vol.I
andIINewHeights,Daryaganj, NewDelhi.
5. SURVEYINGANDLEVELING ECE111 3(1+2)
Surveying: Introduction, classification and basic principles, linear
measurements.Chain surveying. Compasssurvey.Errors inmeasurements,
their elimination and correction. Plane table surveying. Levelling,
Contouring, Computation of area and volume. Theodolite traversing.
Introductiontosetting
of
curves,
Practical:Chainsurveyof anareaandpreparationof map;Compasssurvey
of
anareaandplotting
of
compasssurvey;Planetablesurveying;Leveling,
L-section andX-sections andits plotting; Contour surveyof an areaand
preparation
of
contour map; Introduction
of
software in drawingcontour;
Theodolite surveying; Ranging
by.
theodolite, Height of object by using
theodolite;Settingoutcurvesbytheodolite;Minorinstruments,
Reference:
1. Agor,R. 1998. SurveyingandLevelling,KhannaPublishers,New
Delhi.
Adoptio."
of
4 DeanscommitteerecommendationinlGKV,Raipur
w,e.f.
A c a d e ~ i c session2008-09
(EMR.30"1uly2008,69'"BOM
4
August2008and62'"ACM12,hSeptember2008
12
-
3. Kochher,C,L. 1986,A Textbookof Surveying,
VoL
IandVoL II.
KatsonPublishingHouse,Ludhiana,
6. ENGINEERINGDRAWING
ECE 112 2(0+2)
Practical:
Introduction of drawing scales; Principles of orthographic
projections;Referencesplanes;Pointsand lines inspaceandtracesof lines
andplanes;Auxiliaryplanesandtrueshapesof obliqueplainsurface;True
length and inclination
of
lines; Projections of solids (Change of position
method,alterationof groundlines); Sectionof solidsandInterpenetration
of
solid-surfaces; Development of surfaces
of
geometrical solids; Isometric
projectionof geometricalsolids,
Reference:
1. Bhatt, N,D, 1984. Elementary Engineering Drawing, Charotar
PublishingHouse,Anand(Gujrat).
2. Dhawan,R.K. 1986,Atext bookof EngineeringDrawing,Katson
PublishingHouse,Ludhiana.
3, Gill, P.S, 1986. A text book of Geometrical Drawing. Katson
PublishingHouse,Ludhiana,
4. Gill, P.S. 1986. Workbook on Engineering Drawing. Katson
PublishingHouse,Ludhiana, .
7.
ENVIRONMENTALSCIENCE
EES111 3(3+0)
Definition, Scope and Importance. Ecosystem: Types, structure and
functions : Bio-diversity: value, threats and conservati(ln. Natural
Resources: forest, mineral, soil and water
-their
uses and abuses.
Environmentalpollution
-Causes,
effectsandcontrolmeasures of air,water,
soil, marine,thermaland noisepollution,Nuclearhazards. Bio-safetyand
risk assessment. Rural and urban waste management. Glollal wanning,
Environmentalactand related issues. Humanpopulation, heal
th
andsocial
welfare.
References:
1.
EnvironmentalEngineering. Pandey,G.N,and Carney,G,c. 1997,
TataMcGrawHillPublishingCo. Ltd" NewDelhi.
2, Environmental Pollution Control Engineering. Rao, C.S.1994.
WileyEasternLtd.,NewAgeInternational
Ltd"
NewDelhi.
3. EnvironmentalBiotechnology,Michael,A,M,andOjha,T.P.1997.
Adoptionof 4 DeanscommitteerecommendationinIGKV. Raipurw.e.f Academicsession2008-09 t . 13
(EMR.JO'h1uly 0 0 8 6 9 ~ BOM
4
August2008and62'" A C M 1 2 ~ September2008 U\ J
-
-
7/26/2019 Syl Labib Age Ngg Degree
11/38
f
Principles of Agricultural Engineering, Vol.
I,
Vikas Publishing
HouseP.Ltd.NewDelhi.
EEL 1113 (2+1)
8.
ELECTRICAL CIRCUITS
Average and effectivevalue of sinusoidaland linearperiodicwave forms.
Independentanddependentsources,loopcurrentand loop equations(Mesh
currentmethod), node voltage andnode equations(Nodalvoltage method),
Network theorems: Thevenin's, Norton's, Superposition, Reciprocity and
Maximumpowertransfer,Star- Deltaconversionsolutionof DCcircuitby
Network theorems, Sinusoidal steady state response of circuits,
Instantaneousandaveragepower,powerfactor,reactiveandapparentpower,
Conceptand analysis of balanced polyphase circuits, Laplace transform
method
of
finding step response of DC circuits, Series and parallel
resonance, Classification
of
filters, constant-k, m-derived, terminating
half
networkandcompositefilters.
Practical:
To familiarize with the components and equipments used in
Laboratory; To verify
Kirchhoffs
current laws; To verify
Kirchhoffs
voltagelaws;ToverifyThevenintheorems;ToverifyNorton's theorems;To
verifySuperpositiontheorem; To verifyreciprocitytheorem; Tostudy the
sinusoidalresponse of
RL
seriescircuit;Tostudythesinusoidalresponseof
RC
seriescircuit;Tostudythestepresponse
of
RL
seriescircuit;Tostudy
thestepresponseof RCseriescircuit;Tostudytheresponseof constantK
filters;Tostudytheresponse of m-derivedfilters;Tostu dypowerconsumed
in athree-phasecircuit.
References:
1.
Del,V. 1998.ElectricalEngineeringFundamentalsToro,Prentice
Hallof India,NewDelhi.
2.
Edminister,J.A. 1998.ElectricCircuits,Schaum's(AsainStudents
Edition)Hill,InternationalCo.Singapore.
3. Nagrath,
U.
1995.BasicElectricalEngineering.TataMeGrawHill
Pub.Co.Ltd.
4. Theraja,B.L. 2002. Fundamentals of Electrical Engineering and
Electronics,PublicationDiv.ofNiraja Construction,Dev.Co.New
Delhi.
AdoPtion
~ f I
DeanscommltteerecommendationinIOK.V,RaiPUf w.e,f.Academicsession 2 8 ~ 9
(EMR-3P'hJuly
2008,69"
BOM
4
August2008and62'"ACM-12"September2008
~ ~
FIRST
YEAR
(SecondSemester)
1.
ENGINEERING
MATHEMATICS-II
EMA-1213(3+0)
Matrices:Elementarytransfonnations,rankof amatrix,reductiontonormal
form, Gauss-Jordon method to find inverseof a matrix, consistencyand
solution of linear equations, Eigen values and Eigen vectors, Cayley
Hamilton theorem, linear transformation, orthogonal transformations,
diagonalisationof matrices, Bilinearand quadratic forms. Functions of a
Complex variable: Limit, continuity andderivative of complex functions,
analytic function, Cauchy-Reimann equations, conjugate functions,
Hannonic functions. Fourier series: Infinite series and its convergence,
periodicfunctions, Fourier series,E uler's fonnulae, Dirichlet's conditions,
functionshavingarbitraryperiod,evenandoddfunctions,half rangeseries,
Hannonic analysis. Partial differential equations: Fonnation of partial
differentialequations,Lagrange'slinearequation,Higherorderlinearpartial
differential equations with constant coefficients, solution
of
non-linear
partial differential equations, Charpit's method, application of partial
differentialequations(one dimensionalwave andheat flow equations,two
dimensionalsteadystateheatflowequation(Laplaceequation).
Reference:
1. Grewal, B.S. 1983. Higher Engineering Mathematics, Khanna
Publishers,Delhi.
2. Jeffrey, A. 1979,Mathematics for Engineers and
Scientists. The
ELBSPublicationKenya.
3. Pipes, L.A. 1971. Applied Mathematics for Engineers and
Physicists.McGrawHillBookCo.Inc.,NewYork.
2.
COMPUTER
PROGRAMMING ANDDATASTRUCTURES
EEL 1213
(1+2)
Introductionto highlevel languages,Primarydatatypesand userdefined
data types, Variables, typecasting, Operators, Building and evaluating
expressions, Standard library functions, Managing input and output,
Decision making, Branching, Looping, Arrays, User defined functions,
passingargumentsandreturningvalues,recursion,scope andvisibilityof a
variable, Stringfunctions,Structuresand union, Pointers, Stacks,PushlPop
operations,Queues,Insertionanddeletionoperations,Linkedlists.
Practical:
FamiliarizingwithTurboCIDE;Building anexecutableversion
of Cprogram;Debugginga Cprogram;Developingandexecutingsimple
Adoption
of
DeanscommitteerecommendationinIOKV,Raipur w.e. Academicsession2008-09 1.. .15
(EMR-30"July2008,69"BOM
Augusl2008
and
62
ACM-12"September2008
~
-
7/26/2019 Syl Labib Age Ngg Degree
12/38
programs; Creatingprogramsusing decisionmaking statementssuch
as
if,
goto switch;Developingprogramusingloopstatementswhile,do for;
Usingnestedcontrolstructures;Familiarizingwithoneandtwodimensional
arrays; Using string functions; Developingstructuresand union; Creating
user defined functions; Using local, global external variables; Using
pointers; ImplementingStacks;Implementingpush/pop functions; Creating
queues; Developinglinked lists inC language; InsertionlDeletion in data
structures.
References:
1. Balagurusamy, E. 1999.Programming
in
BASIC. BPB Publications,New
Delhi.
2.
Balagurusamy,
E.
1999.FORTRANforBeginners.BPBPublications,New
Delhi.
3.
Bedi,J.S. 1998. Computer
and
Microprocessor.Khanna Publishers,New
Delhi.
4.
Singh,Sadhu, 1998.ComputerAided Design
and
Manufacturing.Khanna
Publishers,NewDelhi.
5. Pahiya, S. 2003. Data Communication
and
Computer Networks,
3'0
Ed,
StandardPublication,NewDelhi.
6.
Pahiya,
S.
2003. Data Structures
and
Algorithms,3
rd
Ed., Standard
Publisher,NewDelhi.
7.
Singh,Sadua.2006.Computer AidedDesignand Manufacturing, Khanna
Publisher,NewDelhi.
8.
Bedi,J.S. 2006.Computerand MicroProcessor, KhannaPublisher,New
Delhi.
9.
Agrawal, D.C. 2006. Computer Communication ISWN System, Khanna
Publisher,NewDelhi.
10.
Jain,L.C.2006.Introductionto MicroprocessorUsing, KhannaPublisher,
NewDelhi.
11.
Groover, M.P. and Zimmer, E.B. 2002. CAD/CAM, Computer Aided
DesignandManufacturing;PrinticeHallPvt.Ltd.,NewDelhi.
12. Groover, M.P. 2002. Automation, Production Systems and Computer
IntegratedManufacturing,PrenticeHallPvt.Ltd.,NewDelhi.
13. Ghoshal, S. 2001.ComputerAidedAnalysisandDesign,PrenticeHallPvt.
Ltd.,NewDelhi.
3.
APPLIED ELECTRONICS
AND
INSTRUMENTATION
EEL
]22 3(2+1)
Semiconductors,p-njunction,V-I characteristicsof p-njunction,diodeasa
circuit element, rectifier, clipper, clamper, voltage multiplier, capacitive
filter, diode circuits for
OR
AND (both positive and negative logic),
bipolar junction transistor: operating point, classification(A,B C) of
amplifier, various biasing methods (fixed, self,.potential divider), h-
Adoptionof Dcanscommitteerecommendation in IGK V, Raipurw.e.f.Academics.ssion2008-09 1A 16
(EMR-30"July
2 0 0 8 6 9 ~
BOM4 Augusl2008 and62"'ACM-I2'hSeptember2008 UtAJ
parametermodel
of
atransistor,analysis
of
smallsignal,CEamplifier,phase
shiftoscillator, analysisof differentialamplifier usingtransistor, ideal OP
AMPcharacteristics,linearandnon-linearapplications
of
OP-AMP(adder,
subtractor, integrator,activerectifier, comparator, differentiator, differential,
instrumentation amplifier and oscillator), zener diode voltage regulator,
transistor series regulator, current limiting, OP-AMP voltage regulators,
Basictheoremof Booleanalgebra,Combinationallogiccircuits(basicgates,
SOP ru le and K-map), binary l adder D A converter, successive
approximation AID converter,generalizedinstrumentation,measurementof
displacement,temperature,velocity,forceandpressureusingpotentiometer,
resistance thermometer, thermocouples, Bordentube, LVDT,strain gauge
andtacho-generator. .
Practical: TostudyV-Icharacteristics
of
p-njunctiondiode;Tostudy half
wave,fullwaveandbridgerectifier;TostudytransistorcharacteristicsinCE
configurations;Todesignandstudyfixedandself biastransistor;Todesign
and studypotentialdivider biastransistor; Tostudy a diode asclipperand
clamper; To study a OP-AMP IC 741 as inverting and non-inverting
amplifier;TostudyaOP-AMPIC741 asdifferentiatoramplifier;Tostudya
differentialamplifier usingtwo transistor; Tostudy a O P ~ M P IC 741 as
differential amplifier; Tostudy a zener regulatorcircuit; Tostudya -
AMP IC 741 as a active rectifier; To study a OP-AMP IC 741 as a
comparator;Tofamiliarizewith:varioustypesof transducers.
References:
1. Adams,L.F.1975.EngineeringMeasurementsandInstrumentation.
TheEnglishUniversityPress,London.
Nakara, B.C. and Chaudhary, K.K. 1996. Ins trumenta tion
Measurementand Analysis.Tata
McGraw
HillPub. Co. Ltd.,New
Delhi.
3. Sawhney,A.K. and Sawhney,1.K. 1998.A CourseinMechanical
MeasurementandInstrumentation,DhanpatRaiandCo.,Pvt.Ltd.,
New
Delhi.
4.
AGRICULTURE FOR ENGINEERS
EAG
-]21 4(3+1)
Soils: .Nature andorigin
of
soil; soil forming rocks andminerals, their
classificationandcomposition,soilformingprocesses,classification
of
soils
soil taxonomy orders; important soil physical properties; and their
importance; soil particle distribution; soil inorganic colloids - their
composition, properties and origin of charge; ion exchange in soil and
nutr ien t availabi lity ; so il organic mat ter - its composit ion and
decomposition,effecton soilfertility; soilreaction acid,salineand sodic
Adoption
o
4
Deanscommitteerecommendation
in
IOKV,Raipurw,e,f AcademiCsession2008-09
E M R - 3 0 ~
July 2 0 0 8 6 9 ~ BOM August2008and62"" A C M - 1 2 ~ September2008
-
7/26/2019 Syl Labib Age Ngg Degree
13/38
f
soils; qualityor irrigationwater;essentialplantsnutrients- theirfunctions
anddeficiencysymptomsin plants; importantinorganicfertilizers and their
reactions in soils. Agronomy: Definition and scope
of
agronomy.
Classification of crops, Effect of different weather parameters on crop
growthand development. Principles
of
tillage,tilth and its characteristics.
Soilwaterplantrelationshipandwaterrequirement
of
crops,weedsand their
control, crop rotation, cropping systems, Relay cropping and mixed
cropping.Horticulture:Scopeof horticulturalandvegetablecrops.Soiland
climaticrequirementsfor fruits, vegetablesandfloriculturecrops, improved
varieties, Criteria
for
site selection, layout and planting methods, nursery
raising, macro and micro propagation methods, plantgrowing structures,
pruning and training, fertilizer application, fertigation, irrigation methods,
harvesting, grading and packaging, post harvest practices, Garden tools,
management
of
orchard,Extractionandstorage
of
vegetablesseeds.
Practica l: Identification
of
rocks andminerals; Examination
of
soil profile
in the field; Determinationof bulkdensity; particledensity andporosityof
soil; Determination
of
organic carbon
of
soil; Identification of crops and
their varieties seeds and weeds; Fertilizerapplication methods; Different
weedcontrolmethods;Judging maturitytime forharvestingof crop;Study
of seed viability and germination test; Identification and description of
important fruit; flowers and vegetables crops; Study
of
different garden
tools; Preparation
of
nurserybed;Practices
of
pruningandtraining in some
importantfruitcrops.
Reference:
1.
ICAR, 1997.HandBook
of
Agriculture,ICARPub.NewDelhi.
2.
Martin, J.M.,Leonard, W.H.and Stamp,D.L. 1976. Principlesof
Fieldcropproduction.MacmillonPublishingCo. Inc.NewYork.
3.
Singh, Chidda, 2001. Modem Techniques
of
raising field crops.
OxfordandIBHPublishingCo.
Pvt.
Ltd.,NewDelhi.
4.
Brady, N.C. 1999. TheNatureand Properties
of
Soils. TenthEd.
Prentice-HallofIndiaPvt.Ltd.,NewDelhi.
5.
Rai, M.M.
1998.
Principles
of
Soil Science.MacmillonIndia Ltd.,
NewDelhi.
5.WORKSHOPTECHNOLOGY
EME 1213
(2+1)
Introductionto welding, typesof welding,Oxyacetylene gaswelding,types
of
flames, welding techniques and equipment. Principle
of
,arc welding,
equipment
and
tools. Castingprocesses.Classification,constructionaldetails
of
centerlathe,Mainaccessoriesandattachments.Mainoperationsandtools
used oncenterlathes.Types
of
shapers, Constructional details
of
standard
Adoptionof 4*Deanscommitteerecommendationi nIOKV,Rsl purw,e,f,Academicsession20 0809 1.
18
(EMR.30'"July2008,69'"BOM4'"August2008and62'"AC M12- September2008
H ,-
shapero
Workholding devices,shapertools
and:
main operations.Typesof
drillingmachines. Constructional details
of
pillartypes and radial drilling
machines. Work holdingand tool holdingdevices. Main operations.Twist
drills,drill anglesandsizes.Typesandclassification.Constructionaldetails
and principles
of
operation of column and knee type universal milling
machines.Plainmillingcutter.Mainoperationson millingmachine.
Practical:Introductiontoweldingequipment,processestools,theiruseand
precautions;JobsonARCwelding- Lapjoint,buttjoint;T-Jointand comer
joint in Arc welding; Gas welding Practice - Lab, butt and T-Joints;
Introductiontometalcastingequipment,toolsand theiruse; Mouldmaking
using one-piece pattern and two pieces pattern; Demonstrationof mould
making using sweep pattern, and match plate patterns; Practical test;
Introduction to machine shop machines and tools; Demonstration on
Processes
in
machininganduse
of
measuringinstruments;Practicaljobson
simple turning, step turning; Practical
job
on taper turning, drilling and
threading;Operationson shaperand planer, changinga roundMS rod into
square section on a shaper; Demonstration
of
important operations on a
milling machine, making a plot, gear tooth forming and indexing; Any
additionaljob.
Reference:
1
Chapman, W.A.J.,
1962.
Workshop Technology, Part
I,
II, III,
E.I.B.S.andEdwardArnoldPublishersLtd.,London.
2. Chapman, W.A.J. 1965. Applied Workshop Calculations, Low
PricedTextbook.The EnglishLanguageBook SocietyandEdward
Arnold(Publishers)Ltd.
3. Gupta,K.N.andKaushik, J.P.
1998.
WorkshopTechnology,Vol. I
andII NewHeights,Daryaganj,NewDelhi. .
6. THERMODYNAMICSANDHEATENGINES
EME-122 4(3+1)
Thermodynamics properties, closed and open system, flow and non-flow
processes,gaslaws,laws
of
thermodynamics,internalenergy.Applicationof
firstlaw
in
heatingandexpansion
of
gases
in
non-flowprocesses.Firstlaw
applied to steady.flow processes.Kelvin-Planck and Claussius statements.
Reversible processes, Carnot cycle, Carnot theorem. Entropy, physical
concept of entropy, change
of
entropy
of
gases in thermodynamics
processes. Difference between gas and vapour, change of
phase during
constant pressure process. Generation
of
steam, triple point and critical
point.Internalenergyandentropy
of
steam.Use
of
steamtablesandMollier
chart,heatingandexpansion
of
vapour
in
non-flowprocesses,measurement
Adoptionof 4
Deanscommitteerecommendation
in
IGKV,Raipurw e,(.Academicsession
2oo8 Q9
(EMR.30"July2008,69'"BOM4- August2008and62 ACM12- September2008
f
-
7/26/2019 Syl Labib Age Ngg Degree
14/38
of dryness fraction. Classification of steam boilers, Cochran, Lancashire,
locomotive and Babcock-Wilcox boilers. BOller mountings and accessories.
Desirable properties of working fluid used for power plants. Rankine cycle.
Expansive and non expansive working. Saturation curve and missing
quantity, governing. Calculations
of
cylinder dimensions, Introduction to
compound steam engines. Air Standard efficiency, other engine efficiencies
and terms. Otto, diesel and dual cyCles. Calculation of efficiency, mean
effective pressure and their comparison. Measurement
of
IP, BP and .heat
balance calculations (not involving combustion). Engine efficiencies and
performance.
Practical: Study of boilers; Study of various mountings and accessories of
boilers; Study of steam engine; .To measure dryness fraction of steam;
Performance test of steam engine; Study of
I.e.
engines; Study
of
valve
timing diagram
of
2-stroke engines; Study
of
valve timing diagram of 4
stroke engines; Performance test
on
2- cylinder diesel engines; Performance
test and heat balance test on a four cylinder horizontal diesel engine;
Practical test; To conduct Morse test on multi-cylinder petrol engine;
Comparison of different temperature measuring methods; To verify inverse
square law of radiation; To verify Stefan-Boltzman relationship; To
determine the emissivity of a given material.
References:
1.
Arora, N. 1972. Engineering Thermodynamics Problems, Dhanpat
Rai and Sons. New Delhi. .
2. Domkundwar : Thermal Engineering.
3. Ballaney, P.L. 1984. Thermal Engineering. Khanna Publishers,
New Delhi. .
4. Jones, F.R. 1970. Farm Gas Engines and Tractors, Mc Graw. Hill
Book Co. New York and London.
5. Rai, G.D. 1998. Practical Thermodynamics. 1998. Khanna
Publishers, New Delhi.
7. OPERATION & MAINTENANCE OF TRACTOR & FARM
MACHINERY
-I
FMP-1211(0+1)
PractiCal:1ntroduCtion to various systems of a tractor viz. fuel, lubrication,
cooling, electrical, transmission, . hydraulic
&
final drive system.
. Familiarisation with tractor controls & learning procedure of tractor starting
and stopping. Driving in forward and reverse gears. Driving safety rules.
Hitching, adjustments, settings and field operation of farm machinery.
Familiarisation with different makes & models
of
4- wheeled tractors.
Starting & the tractor. Familiarisation with
Adoption of
4' De Bns
committee recommendation tn l U I \ . Y 1\a lpUr W e L
fi l41Ueml\ ; ~ C ; t l V l l
~ V V O V 7
~ \ 2
(EMR.30 July 2008,69'"BOM 4" August 2008 and 62'" ACMl2'h September 2008
instrumentation panel & controls; Road signs, traffic rules, road safety,
driving & parking of tractor; Tractor driving practice forward & reverse
driving practice; Tractor driving practice with two wheeled tractor trailer
forward & reverse; Study and practising the hitching and dehitching of
implements; Study operation and field adjustments of MB plough & disk
plough; Field operation of trailing & mounted disk harrow; Field operation
and adjustments of seed drill/planter/sprayer.
References:
1.
Culpin, C. 1978. Farm Machinery. Granada Publishing Ltd.,
London.
2.
Kepner, R.A., Bainer,
R.
and Barger, E.L. 1987. Principles
of
Farm
Machinery. e.S.B. Publishers and distributors, New Delhi.
3. 3 Smith, HP. and Wilkes, L.H. 1979.. Farm Machinery and
Equipment. Tata McGraw-Hill Publishing Co. Ltd., New Delhi.
4. Ojha, T.P. and Michael, A.M . 2001.Principais of Agricultural
Engineering, Vol. I., Jain Brothers, New Delhi.
5. Sahay, J. 2001. Elements of Agricultural Engineering, Jain
Brothers, New Delhi.
6. Jain, S.c. and Rai, C.R. 2001. Farm Tractor Maintenance and
Repair. Jain Brothers, New Delhi.
7. Liljedhi, B.L. 1990. Tractors and their Power UnitS, John Willey
and Sons, New Delhi.
8. ENGINEERING MECHANICS ECE-1213 (2+1)
Basic concepts. Force systems. Centroid. Moment of inertia. Free body
diagram and equilibrium of forces. Frictional forces. Analysis of simple
framed structures using methods
of
joints, methods
of
sections and graphical.
method. Simple stresses. Shear force and bending moment diagrams.
Stresses in beams. Torsion. Analysis of plane and complex stresses.
Practical: Problems on; Composition and resolution of forces, moments
of
a
force, couples, transmission
of
a couple, resolution
of
a force into a force &
a couple; Problems relating to resultant
of;
a concurrent - coplaner force
system, nonconcurrent - coplaner force system, nonconcurrent
noncoplaner force system, parallel - noncoplaner force system, system
of
couples
in
space; Problems relating to centroids
of
composite areas;
Problems on moment of inertia, polar moment of inertia, radius of gyration,
polar radius of gyration of composite areas; Equilibrium of concurrent
coplaner and nonconcurrent ~ c o p l a n e r force systems; Problems involving
frictionaHorces; Analysis
of simple trusses by method of joints and method
of sections; Analysis of simple trusses by graphical method; Problems
Adoption of
11
Deans committee recommendation' in IGKV Raipur w.e,f, Academic
s-ession
2008..Q9
(EMR-30'" July 2008,69" BOM 4 August 2008 and 62"" ACM-12" September 2008
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relatingtosimplestressesandstrains;Problemsonshearforceandbending
moment diagrams; Problems relating to stresses in beams; Problems on
torsion
of
shafts;Analysis
of
planeandcomplexstresses.
Reference:
1.
Bruch,C.D. 1976.MechanicsforTechnology.Johd.Wilcy Sons,
NewYork,London.
2.
Dhawan, R.K. 1986. Engineering Mechanics and S.O.M. Katson
PublishingHouse,Ludhiana.
3.
Junnarkar, S.B. 1965. Elements
of
Applied Mechanics. Charotar
BookStall,Anand.
4. Khurmi, R.S. 1984.A textbookof Applied Mechanics.S. Chand
andCo.Ltd.,NewDelhi.
5.
Prasad, I.B. Applied Mechanics, 1998. KhannaPublishers,New
Delhi.
SECOND
YEAR
(First
Semester)
1. ENGINEERINGPROPERTIESOF BIOLOGICALMATERIALS
FOOD
QUALITY APFE211 3(2+1)
Importance
of
engineering properties
of
biological materials, Study
of
different physical and thermal characteristics of important biological
materials like shape, size, volume, density,roundness, sphericity,surface
area, specific heat, thermal conductivity, thermal diffusivity, etc.
measurement
of
colour,flavour, consistency, viscosity, texture andtheir
relationship with food qualityandcomposition. Rheological characteristics
like stress, strain time effects, rheological models and their equations.
Aerodynamic characteristics and frictional properties.Application of
engineering properties
in
handling.processing machines and storage
structures.Concept,objectivesandneed
of
quality,qualitycontrol,methods
of
quality control, sampling; purpose, samplingtechniques, requirements
and sampling procedures for liquid, powderedand granular materials,
sensory quality control, panel selection methods, interpretationof sensory
results instatistical quality control,TQM andTQC,consumerpreferences
and acceptance, Food Laws and Regulations in India. Food grades and
standards BIS, AGMARK, PFA, FPO, CAC (Codex Alimantarious
Commission), sanitation infood industry,GMP,HACCP(Hap1rdanalysis
andcriticalcontrolpoint)andISO9000Series.
Practical:Tofind theshapeand
sizeof
grainsandfruitsandvegetables.To
Adoptionof
4
Dean.committeerecommendationinIOKY;Raipurw.e.f.Academicsession200809
t .
22
(EMR3'. July2008.6BOM4"August2008and62"'ACMI2'" September2008 Hv,J
determine bulk density and angle of repose
of
grains. To determine the
particledensity/truedensityandporosity of solidgrains.Tofindouttheco
efficient of external and internal friction
of
different crops; Tostudy the
separatingbehaviour of agrainsampleina vertical windtunner(Aspirator
column).Tofindthethermalconductivity
of
differentgrains.To determine
specificheat of somefood grains.Todeterminecookingqualityof rice.To
determine impuritiesand invisiblestresscracks ingrains.Preparationof a
readyreckonerofchangeinunitweight
of
foodgrainsas affectedbychange
in its moisture content (w.b.) (5% - 25%). Milling quality of paddy;
Determination
of
hardness
of
foodmaterial;Detection
of
adulteration
in
food
productsviz.milk,ghee,honeyetc.
Reference:
L Mohesin, N.N. 1978. Physical Properties of Plants Animals.
Gordon&BreachSciencePublishers,NewYork.
2. Prentice, J.H. 1984.MeasurementinRhelogicalProperties
of
Food
Stuffs.ElsevierAppliedsciencePub.Co.Inc.NewYork.
3. Rao,M.A. andRizvi,S.H., 1995.EngineeringPropertiesof Foods.
MarcelDekkerInc.NewYork.
4.
Rizvi, S.s.H. and Mittal, 1992. Experimental Methods in Food
Engineering.VanNostarndReinhold,NewYork.
2. SOILMECHANICS
ECE
211 3(2+1)
Introduction of soil mechanics, field of soil mechanics, phase diagram
physical and index properties of soil classification of soils, general
classification based on particles size, textural classification and LS. soil
classification system stress condition in soils, effective and neutral stress,
elementaryconceptof Bousinesqueand Westerguardsanalysis, newmark
influence chart. Shearstrength mohr stresscircle, theoretical relationship
between principle stress circle, theoretical relationship between principal
stressmohr-coulombfailuretheory,effectivestressprinciple.Determination
of
shearperameters
by
directshear to becircle,theoreticaltest. Numerical
exercise based onvarioustypes of tests. Compactioncomposition ofsoils
standard and modified protector test,abbot compaction and Jodhpur mini
compactiontextfieldcompactionmethodandcontrol.Consolidation of soil:
Consolidation
of
soils, one dimensional consolidation spring analogy,
Terzaghi'stheoryLaboratoryconsolidationtext,calculation
of
voidratioand
coefficient of volume change, Taylor's
and.
Casagrand's method,
determination of coefficient of consolidation. Earth pressure: Plastic
equilibrium
in
soils, active and passive states, Rankine'stheory of earth
pressure. active and passive earth pressure for cohesive soils, simple
Adoptionof 4 DeanscommItteerecommendationinIOKY,Raipurw.e..Academic. . . .ion200809
(EMR.30'"July2008,6
SOM
4 August2008and62"" ACMIZ"September2008
' '
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numerical exercise. Stability of slopes: Introduction to stability analysis of
and finite slopes friction circles method Taylor's stability number.
Practical:, Determination of water content of soil; Determination of specific
gravity of soil; Determination of field density of soil by core cutter method;
Determination
of
field density by ' sand replacement method; Grain size
analysis by sieving (Dry sieve analysis); Grain size analysis by hydrometer
method; Determination, of liquid limit by Casagrande'S method;
Determination of liquid limit by cone penetrometer and plastic limit;
Determination
of
shrinkage limit; Determination
of
permeability by constant
head method; Determination of permeability by variable head method;
Determination of compaction properties by' standard proctor test;
Determination
of
shear parameters by Direct shear test; Determination,
of
unconfined compressive strength of soil; Determination of shear parameters
, by Triaxial test; Determination of consolidation properties
of
soils.
References:
1. Arora,
KR.
2000. Soil Mechanics and Foundation Engineering.
Standard Publishers and Distributors, New Delhi.
2. Capper, P.L. and Cassie, W.F. 1961.The Mechanics of Engineering
, soils. Asia Publishing House, Bombay.
3.
Verma, B.P. 1996. Problems in Soil Mechanics and Foundation
Engineering. Khanna Publishers, New Delhi.
3.
SOIL
AND WATER
CONSERVATION ENGINEERING
, SWE -2113(2+1)
Introduction; soil erosion - causes, types and agents of soil erosion; water
erosion - fonus of water erosion, mechanics of erosion; gullies and their
chlssification, stages of gully development; soil loss estimation - their
various parameters; erosion control measures - agronomical measures
contour cropping, strip cropping, mulching; mechanical measures - terraces
level and graded broad base terraces and their design, bench terraces & their
design, layout procedure, terrace plaiming, bunds - contour bunds, graded
bunds and their design; gully and ravine reclamation - principles of
control - vegetative and temporary structures; wind erosion - factors
affecting wind erosion, mechanics of wind erosion, soil loss estimation, wind
erosion control measures - vegetative, mechanical measures, wind breaks
shelter belts, sand dunes stabilization; sedimentation - sedimentation in
reservoirs and streams, estimation and measurement, sediment delivery ratio,
trap efficiency; characteristics of contours and preparation
of
contour maps;
land use capability classification; grassed water ways and their design;
Adoption of 4
di
Dean,S committee reco'mmendation in IGKV, Raipur w.e.f. Academic session 2008-09 1
24
(EMR-30'" July 2008,69"
BOM
4" August 2008 and
62
01
ACM12'" September 2008
Hv..A
-
introduction to water harvesting techniques; introduction to stream water
quality and pollution.
Practical: Study of soil loss measurement techniques; Study of details of
Coshocton wheel and m u l t i ~ s l o t runoff samplers; Determination
of
sediment
concentration through oven dry method; Problems on Universal Soil Loss
Equation; Preparation
of
contour map
of
an area and its analysis; Design of
vegetative waterways; Design of contour bunding system; Design graded
bunding system; Design of
various types
of
bench terracing systems;
Determination
of
rate
of
sedimentation and storage loss in reservoir; Design
of Shelter belts and wind breaks.
References:
1. Hudson Norman, 1985.Soil Conservation . Cornell University Press
Ithaka, New York ,U.S.A.
2. Michael, A.M. and Ojha, T.P. 1997. Principles
of
Agricultural
Engineering. Vol.-II, Jain Brothers Publishers, New Delhi.
3. Schwab, G.O., Frevert, R.K, Edminister, T.W. and Barnes, KK
1966. Soil and Water Conservation Engineering. John Wiley and
Sons. Inc., New York.
4.
FARM
MACHINERY & EQUIPMENT-
I
FMP -
2113
(2+1)
Objectives of farm mechanization. Classification of farm machines.
Materials of construction heat treatment. Principles
of
operation and
selection of machines used for production of crops. Field capacities
economics.
i l \ a g e ~
primary and secondary tillage equipment. Forces acting
on tillage tools. Hitching systems and controls. Draft_measurement
of
illage
equipment Earth moving equipment - their construction working
principles viz Bulldozer, Trencher, Elevators etc.; sowing, planting
transplanting equipment - their calibration and adjustments. Fertilizer
application equipment. Weed control and Plant prote ction equipment
sprayers and dusters, their calibration, selection, constructional features of
different components and adjustments.
Practical: Introduction to various farm machines, visit to implements shed
and research hall; Field capacity and field efficiency measurement for at
least two machineslimplements; Draft & fuel consumption measurement for
different implements under different soil conditions; Construction details,
adjustments and working of M.B. plough, disc plough and disc harrow and
secondary tillage tools; Introduction, construction and working of earth
moving equipment; Construction and working of rotavators and other rotary
Adoption Deans committee recommendation in IGK
V,
Raipur w,e.f. Academtc session 200&..09
Lk 5
EMR.30 July 2008,69'" BOM
4
August 2008 and 62
01
ACM12 September 2008
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7/26/2019 Syl Labib Age Ngg Degree
17/38
tillers, measurement of speed working width; Working of
seed-cum-fertilizer drills, planters and their calibration in field; Working of
transplanters and operation; Weeding equipments and their use; Study
of
sprayers, dusters, measurement
of
nozzle discharge, field capacity etc.
References:
1.
Culpin, C. 1978. Farm Machinery; Granada Publishing Ltd.,
London.
2. Kepner, R.A., Bainer, R. and Barger, E.L. 1987. Principles of Farm
Machinery. C.S.B. Publishers and distributors, New Delhi.
3. Smith, H.P. and Wilkes, L.H. 1979. Farm Machinery and
Equipment. Tata McGraw-Hill Publishing Co. Ltd.,New Delhi.
4.
Ojha, T.P. and Michael, A.M. 2001. Principals
of
Agricultural
Engineering, Vol. 1., Jain Brothers, New Delhi.
5.
Sahay, J. 2001. Elements
of
Agricultural Engineering, Jain
Brothers,
New
Delhi.
5. FARM POWER
FMP 212 3 (2+1)
Sources
of
farm power -conventional non-conventional energy sources.
Classification
of
tractors and IC engines. Review of thermodynamic
principles of IC (CI SI) engines and deviation from ideal cycle. Study of
engine components their construction, operating principles and functions.
Engine systems : valves & valve mechanism. Fuel & air supply, cooling,
lubricating, ignition, start ing and electrical" systems. Study
of
constructional
details, adjustments operating principles
of
these systems. IC engine fuels
- their properties combustion of fuels, gasoline tests and their significance,
diesel fuel tests and their significance, detonation and knocking in IC
engines, study of properties of coolants, anti freeze and anti-corrosion
materials, lubricant types study
of
their properties. Engine governing
systems.
Practical: Introduction to different systems
of
an CI engine; Engine parts
and functions, working principles etc; Valve system study, construction
and adjustments; Oil Fuel - determination
of
physical properties; Air
cleaning system; Fuel supply system of SI engine; Diesel injection system
timing; Cooling system, and fan performance, thermostat and radiator
performance evaluation; Part load efficiencies governing; Lubricating
system adjustments; Starting and electrical system; Ignition system;
Tractor engine heat balance and engine performance curves; V i ~ t to engine
manufacturer/ assembler/ spare parts agency.
Adoption
of 4 [l . . . . . .
committee recommendation
in
IOKV, Raipur
w.e.f.
Academic ""ssion 2008-09
(EMR.30" July
2008,69
BOM 4- August 2008 and 62"" ACM12* September 2008
References:
1. Culpin, C. 1978. Farm Machinery. Granada Publishing Ltd.,
London.
2. Kepner, R.A., Bainer,
R. and Barger, E.L. 1987. Principles of Farm
Machinery. C.S.B. Publishers and distributors, New Delhi.
3. Smith,
HP.
and Wilkes, L.H. ] 979. Fa rm Machinery and
Equipment. Tata McGraw-Hill Publishing Co. Ltd., New Delhi.
4. Ojha, T.P. and Michael, A.M. 2001. Principals of Agricultural
Engineering, Vol. I., Jain Brothers, New Delhi.
5. Sabay,
1.
2001. Elements
of
Agricultural Engineering, Jain
Brothers, New Delhi.
6. ENGINEERING
HYDROLOGY
SWE - 212 3 (2+1)
Introduction; hydrologic cycle; precipitation - forms, rainfall measurement,
mass curve, hydrograph, mean rainfall depth, frequency analysis of point
rainfall, plotting position, estimation
of
missing data, test for consistency
of
rainfall records; interception; infiltration; evaporation; evapo-transpiration
estimation and measurement; geomorphology
of
watersheds - stream
number, stream length, stream area, stream slope and Horton's laws; runoff
factors affecting, measurement; stage and velocity, rating curve, extension of
rating curve; estimation of peak runoff rate and volume; rational method,
Cook's method, SCS method, Curve number method; hydrograph;
components, base flow separation, unit hydro graph theory - unit hydrograph
of different durations, dimensionless unit hydrograph, distribution
hydrograph, synthetic unit hydrograph, uses and limitations
of
unit
hydro graph; head water flood control - methods, retards and their location;
flood routing - graphical methods
of
reservoir flood routing; hydrology
of
dry land areas - drought and its classification; introduction to watershed
management and planning.
Practical: Visit to meteorological observatory; Study of different types
of
rain gauges; Exercise on analysis
of
rainfall data; Double mass curve
technique; Determination of average depth of rainfall and frequency
analysis; Study
of
stage recorders and current meters; Exercise on estimation
of
peak runoff rate and runoff volume; Exercises on hydrograph and unit
hydrograph; Exercises
on
design and location
of
retards for channel
improvement; Exercises on flood routing problems.
References:
1. Herman. 1978. Groundwater Hydrology. Bouwer, International
Student edition. McGraw-Hill. Kogakusha Ltd. Tokyo. Japan.
2. Todd, D.K. 1989Ground Water Hydrology. or recent edition: Wiley
Adoption 4th Deans committee recommendation
in
fGKV, Raipur
w,e..
Academic session 2008-09
27
(EMR.30" July 2008,69" BOM August 2008 and
62" A C M 2 ~
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International Edition. Toppan Company Ltd, Tokyo. Japan.
3. Mahajan, 2002. Groundwater : Surveys and investigation, SBS
Scientific Book supplier, New Delhi.
4. Michael, A.M. and Kheper, S.D. 1998. Water Well and pump
engineering. Tata McGraw Hill Pub. Co. Ltd., New Delhi.
7.
ENGINEERING
MATHEMATICS-III
EMA
- 211 3 (3+0)
Numerical analysis: Finite differences, various difference operators and their
relationships, factorial notation, interpolation with equal intervals, Newton's
forward and backward interpolation formulae, Bessel's and Stirling's central
difference interpolation formulae, interpolation with unequal intervals,
Newton's divided difference formula, Lagrange's interpolation formula;
numerical differentiation, differentiation based on equal interval
interpolation, first and second order derivatives by using Newton's forward
and backward, Stirling's and Bessel's formulae; maxima and minima of a
tabulated function, numerical integration, numerical integration by
Trapezoidal, Simpson's and Weddle's rules; Difference equations, order
of
a
difference equation, solution
of
linear difference equation, rules for finding
complimentary function and particular integral; numerical solution
of
ordinary differential equations
by
Picard's method, Taylor's series method,
Euler's method, modified Euler's method, Runge-Kutta method. Laplace
transforms: Definition
of
Laplace transform, Laplace transforms
of
elementary functions, properties of Laplace transforms, inverse Laplace
transforms, transforms
of
derivatives, integrals, transform of function
multiplied by tn, transform
of
function divided by t, convolution theorem;
application of Laplace transforms to solve ordinary differential equations
and simultaneous differential equations, Laplace transforms of unit step
function, unit impulse function, periodic function.
References:
1.
Grewal, B.S. 1983. Higher Engineering Mathematics, Khanna
Publishing House, New Delhi.
2.
Love, C.E. and Rainville, E.D. 1968. Differential and Integral
calculus. The Macmillon Co. New York,
3.
Prasad, Gorakh, 1986. Text book on Integral Calculus and
elementary differential equations. Pothishala Pvt. Ltd.,
Allahabad.
8.
AGRIBUSINESS MANAGEMENT AND
TRADE
EECO 211 3 (3+0)
Management concepts and principles, process of management, functions of
management, concept of agribusiness and application of management
Adoption of 4th Deans committee recommendation in IGKV, Raipur w.e.f. Academic session 200809
1
28
E M R - 3 0 ~ July 2008,69" BOM August 2008 and 62"
A C M - 1 2 ~
September 2008
Hv.J
---.
principles to agribusiness, production, consumption, and marketing of
agricultural products, agricultural processing, meaning and theories of
international trade, WTO provisions for trade
in
agricultural and food
commodities, India's contribution to international trade
in
food and agri
commodities.
References:
1.
Mondy R Waghe and Premeanx Shahe,
R.
1995. Management
Concepts, Practices and Skills. Prentice Hall, Inc. Englewood
Cliffs, New Jersey.
2. Shukla,
M.e.
2001. Business Organization and Management.
S.
Chand and Co., New Delhi.
SECOND YEAR
(Second Semester)
1.
FARM MACHINERY
&
EQUIPMENT-II
FMP 2213 (2+1)
Principles & types of cutting mechanisms. Construction & adjustments of
shear & impact-type cutting mechanisms. Crop harvesting machinery :
mowers, windrowers, reapers, reaper binders and forage harvesters. Forage
chopping & handling equipment. Threshing mechanics & various types
of
threshers. Threshers, straw combines & grain combines, maize harvesting &
shelling equipment, Root crop harvesting equipment - potato, groundnut etc.,
Cotton picking & Sugarcane harvesting equipment. Principles of fruit
harvesting tools and machines. Horticultural tools and gadgets. Testing of
farm machine. Test codes & procedure. Interpretation of test results.
Selection and management
of
farm machines for optimum performance.
Practical:
Familiarization with various Farm machines related to harvesting,
threshing, root harvesting, combine etc; Study of various types of mowers,
constructional details, materials and working; Study
of
various types
of
reaper, constructional details, materials and working & performance; Study
of various types of reaper binder, constructional details, materials and
working; Study of various types of potato harvesters, constructional details,
materials and working; Study
of
various types
of
groundnut harvesters,
constructional details, materials and working & performance; Study of
various types of forage harvester, constructional details, materials and
working; Study of various types of sugarcane harvester, constructional
details, materials and working; Study of various types of maize sheller,
constructional details, materials and working & performance; Study of
Adoption of 4th Deans committee recommendation in IOKV, Raipur w.e.f. Academic session 2008-09
~ J
EMR-30 " July 2008,69" B OM August 2008
and
62 ACM-I2" Sep tember 2008
.-
, "1 1
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7/26/2019 Syl Labib Age Ngg Degree
19/38
various types
of
threshers, constructional details, materials and working
performance; Study of various types of cotton pickers and strippers,
constructional details, materials and working; Study of various types of
harvester tools, constructional details, materials and working; Study
of
various types of combine harvester, constructional details, materials and
working; Study of various types of straw combines, constructional details,
materials and working; Study of various types
of
fruit harvester equipment,
constructional details, materials and working.
References:
1.
Culpin,
C.
1978. Farm Machinery. Granada Publishing Ltd.,
London.
2. Kepner, R.A., Bainer,
R.
and Barger, E.L. 1987. Principles
of
Farm
Machinery. C.S.B. Publishers and distributors, New Delhi.
3. Smith, H.P. and Wilkes, L.H. 1979. Farm Machinery and
Equipment. Tata McGraw-Hill Publishing
Co.
Ltd., New Delhi.
4.
Ojha, T.P. and Michael, A.M. 2001. Principals of Agricultural
Engineering, Vol. I., Jain Brothers, New Delhi.
5. Sahay, 1. 2001. Elements of Agricultural Engineering, Jain
Brothers, New Delhi.
2.
RENEWABLE ENERGY SOURCES
FMP
222 3 (2+1)
Classification
of
energy sources; Introduction to renewable energy sources;
characterization of biomass; types, construction, working principle, uses and
safety/environmental aspects of different renewable energy devices like
gasifiers, biogas plants, solar passive heating devices, photovoltaic cells and
arrays; Brief introduction to wind energy, hydroelectric energy, ocean
energy, briquetting and baling of biomass, biomass combustion, biodiesel
preparation and energy conservation in agriculture.
Practical: Preparation of biomass sample; Determination
of
calorific value;
Estimation of ash content of biomass; Estimation of moisture content of
biomass; Estimation of fixed carbon and volatile matter of biomass;
Demonstration
of
down draft throatless rice husk gasifier; Demonstration of
down draft gasifier with throat; Demonstration of rice husk gasifier for
thermal use; Demonstration of working
of
a fixed dome type biogas plants;
Demonstration of working of a floating drum type biogas plants;
Demonstration of biodiesel preparation; Measurement of basic solar
parameters; Demonstration of solar water heater; Demonstratiiln of PVC;
Demonstration of solar cooker; Determination of fuel properties.
Adoption of 4
Deans committee recommendation
in
JGKV. Raipur w.e.f. Academic session 2008-09
E M R - 3 0 ~ 1uly
o o 8 . 6 9 ~
BOM August 2008 and 62'"'
A C M - 1 2 ~
September 2008
~ 3 0
References:
1. Culp, A.W. 1991: Principles
of
energy conversion. McGraw-Hill
publishing Co.lnc. New York
2.
Duffie,
I A
and Beckman, W.A.1991. Solar Engineering of thermal
processes. John Wiley, New York.
3. Utilization in Agriculture, David Pimentel, Hand Book of Energy"
C.R.C. Press.
4. Garg, H.P. and Prakash, J. 1997Solar energy Fundamentals and
applications.: Tata McGraw-Hill Publishing Co.Inc. India
5.
Odum, H.T. and Odum, E.C. 1976: Energy basis for man and
nature. McGraw-Hill Publi shing Co.Inc. New York.
6. Sukhatme, S.P. 1997 2/e Solar energy-principles of thermal
collection and storage.: Tata McGraw-Hill publishing Co.lnc. India.
" 3. IRRlGATION ENGINEERlNG
SWE 221 4 (3+1)
Irrigation Engineering; Irrigation, impact of irrigation on Human
Environment, some major and medium irrigation schemes of India, purpose
of irrigation, sources
of
irrigation water, present status of development and
utilization of different water resources of the country; Measurement of
irrigation water, weir, notches, flumes and orifices and other methods; water
conveyance, design
of
irrigation field channels, underground pipe
conveyance system, irrigation structures, channel lining; land grading,
diffetent design methods and estimation of earth work and cost; soil water
plant relationship, soil water movement, infiltration, evapo-transpiration, soil
moisture constants, depth of irrigation, frequency of irrigation, irrigation
efficiencies; surface irrigation methods of water application, border, check
basin, furrow and contour irrigation; sprinkler and drip irrigation method,
merits, demerits, selection and design; Participatory irrigation management.
Economics of water resources utilization.
Practical: Measurement of soil moisture by different soil moisture
measuring instruments; measurement of irrigation water; measurement
of
infiltration rate; computation
of
evaporation and transpiration; land grading
exercises; design of under ground pipe line system; infiltration-advance in
border irrigation; measurement
of
advance and recession in border irrigation
and estimation of irrigation efficiency; measurement of advance and
recession in furrow irrigation and estimation of irrigation efficiency;
measurement of uniformity coefficient of sprinkler irrigation method;
measurement of uniformity coefficient of drip irrigation method; field
problems and remedial measures for sprinkler and drip irrigation method.
Adoption of Deans committee recommendation
in
lGKV, Rllipur w.e.. Academic session 2008-09
(EMR.30" July 2008,69" B OM August 2008 and 62"' ACM-12'" September 2008
~ ' - -
T ~ ; 4 4 l ; ; : ; -
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7/26/2019 Syl Labib Age Ngg Degree
20/38
References:
1. Ghosh, S.N. 1997. Flood Control and Drainage Engineering.
Oxford and IBH Publishing Co. Pvt. Ltd., New Delhi.
2. Israelson, O.W. and Hensen, V.E. 196