Teaching Plan FM 2013-14
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Transcript of Teaching Plan FM 2013-14
SHRI SANT GADGE BABA COLLEGE OF ENGINEERING & TECHNOLOGY, BHUSAWAL
SHRI SANT GADGE BABA COLLEGE OF ENGINEERING & TECHNOLOGY, BHUSAWALDEPARTMENT OF MECHANICAL ENGINEERINGTEACHING PLAN CLASS: S.E. BRANCH: Mechanical SEMESTER: I SESSION: 2013-2014 SUBJECT: FM SUB. TEACHER: SR. NO.TOPIC TO BE COVEREDDATE OF TOPIC COVEREDSIGN. OF SUB. TEACHERSR. NO.TOPIC TO BE COVEREDDATE OF TOPIC COVEREDSIGN. OF SUB. TEACHER
I. FLUID PROPERTIES & HYDROSTATICII. FLUID KINEMATICS AND DYNAMICS
01Fluid properties & its definitions, definition of fluid, Vapour pressure, Surface tension, Capillarity, 13Types of flow, Definition of steady, Unsteady, Uniform, Non uniform, Laminar, Turbulent, Compressible, incompressible, rotational, Irrotational flow, 1D-2D flows,
02Viscosity, Bulk modulus of elasticity, Capillarity14Stream line, Streak line, Path line, concept of Velocity, potential & stream function flow net
03Vapour pressure, Surface tension, Manometers15Continuity equation for steady, Unsteady, Uniform, Non uniform, Compressible incompressible,
04Pascals law, Hydrostatic law its derivation162D Eulers equation, Bernoullis equation along a stream line for incompressible flow
05Total pressure & Centre of pressure on vertical, horizontal, inclined, curved surface its derivation17Practical applications of Bernoullis equation - Pitot tube, Venturi meter, Orifice meter.
06Numericals on above topic
18Derivation On Venturimeter and its Numerical
07Total pressure & Centre of pressure on , inclined surface its derivation19Derivation on Orificemeter and its Numerical
08Numericals on above topic
20Numericals on above topic
09Total pressure & Centre of pressure on horizontal,curved surface its derivationIII. VISCOUS AND BOUNDARY LAYER FLOW
10Concept Of buoyancy & flotation Meta centre, metacentric height its derivation.
21Introduction to flow of viscous fluid through circular pipes,
11Stability, unstability, equilibrium of floating & submerged body22Numerical on above topic
12Numericals on above topic
23Viscous fluid through two parallel plates derivation
SHRI SANT GADGE BABA COLLEGE OF ENGINEERING & TECHNOLOGY, BHUSAWALDEPARTMENT OF MECHANICAL ENGINEERINGTEACHING PLAN CLASS: S.E. BRANCH: Mechanical SEMESTER: I SESSION: 2013-2014 SUBJECT: FM SUB. TEACHER: SR. NO.TOPIC TO BE COVEREDDATE OF TOPIC COVEREDSIGN. OF SUB. TEACHERSR. NO.TOPIC TO BE COVEREDDATE OF TOPIC COVEREDSIGN. OF SUB. TEACHER
24Numerical on above topic35Water hammer phenomenon
25kinetic and momentum energy correction factor
V. CENTRIFUGAL AND RECIPROCATING PUMP
26Power absorbed in viscous flow36Introduction to main parts, working & construction of Centrifugal pump, types of impellers & casings, priming
27Viscous resistance to journal bearing, footstep bearing, collar bearing.
37Work done on centrifugal pump, various heads and efficiencies of centrifugal pump
28Introduction to boundary layer flow, laminar and turbulent boundary layer, laminar sub layer, boundary layer thickness, displacement thickness, momentum thickness, 38minimum starting speed of a centrifugal pump,multistage centrifugal pump,
IV. DIMENSIONAL ANALYSIS AND FLOW THROUGH PIPES39principles of similarity applied to centrifugalpump.
29Introduction to dimensional analysis, dimensional homogeneity, methodsof dimensional analysis- Rayleighs method, Buckinghams -theorem,40Specific speed, NPSH, cavitations in pumps.
30dimensionless numbers,Loss of energy in pipes, loss of energy due to friction41Introduction to main parts of Reciprocating pump, construction & workingof Reciprocating pump,
31minor energy losses, concept of HGL and TEL, flow through syphon,42classification of Reciprocating pump, slip ofreciprocating pump, air vessels
32flow trough pipes in series or compound pipes
33equivalent pipe, parallel pipes, branched pipes and numerical
34Power transmission through pipes