CHAITANYA BHARATHI INSTITUTE OF TECHNOLOGY (A)
  • F2-Fluid Principles and Hydraulic Machines-IV-2020-21
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    FPHM - Complete Notes.pdf
    FPHM - Previous Exam Question Papers
    FPHM - Unitwise Questions
    Sliptest - 1
    Sliptest-2
    AY2021-UG-SEM-4-MECH2-18MEC10-Counselling-DKK-20210526-1- Collecting the data from the students of BE-IV sem-F2 section from roll numbers 18-095, 096 and 19-061 to 080
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210528-56- Seminar on “Be Beyond Being - Being Innovative in an Entrepreneurial Journey”, Organized by IIC, ARIIA & EDC, Mechanical Engineering Department, CBIT from 11.30 am to 12.30 pm
    Course end survey_ FPHM (18MEC10)
    UNIT - I PROPERTIES AND LAWS OF FLUID FLOW
    08.02.2021 - F2 - IV - FPHM - KK - 2.20 pm to 3.30 pm - Fluids - Introduction, types, properties - density, specific weight, specific volume, specific gravity, viscosity. mp4
    09.02.2021 - F2 - IV - FPHM - KK - 9.10 am to 11.20 am - Viscisity - dynamic and kinematic - units of viscosity, pressure - Patm, Pgauge, Pvac and Pabs - numerical problems, Continuity theorem.mp4
    10.02.2021 - F2 - IV - FPHM - KK - 11.30 am to 12.30 pm - Continuity equation, Bernoulli's theorem, assumptions made, Bernoulli's equation.mp4
    11.02.2021 - F2 - IV - FPHM - KK - 9.10 am to 10.10 am - Applications of Bernoulli's equation - Pitot tube – construction and working, determination of flow velocity of water through a pipe.mp4
    16.02.2021 - F2 - IV - FPHM - KK - 9.10 am to 11.20 am – Pitot tube – numerical problems – Venturimeter – discharge of water flowing through a pipe – derivation and numerical problems.mp4
    19.02.2021 - F2 - IV - FPHM - KK - 11.30 am to 12.30 pm - Notches - types - Rectangular notch & Triangular notch - derivation for discharge.mp4
    20.02.2021 - F2 - IV - FPHM - KK – 1.10 pm to 2.10 pm - Derivation and numerical problems solved for the discharge of water flowing over Trapezoidal and Stepped notches.mp4
    23.02.2021 - F2 - IV - FPHM - KK - 9.10 am to 10.10 am - Impulse Momentum theorem - equation and applications, Darcy's Equation for loss of head due to friction in the pipes - Reynold's number and its significance.mp4
    UNIT - II HYDRAULIC MACHINES - IMPACT OF JET ON VANES
    25.02.2021 - F2 - IV - FPHM - KK – 2.20 pm to 3.20 pm - Layout of Hydraulic power plant - working – Impact of jet – significance – factors on which the impact force of jet depends.mp4
    26.02.2021 - F2 - IV - FPHM - KK – 9.10 am to 10.10 am – Impact force exerted by a water jet on a (i) single fixed flat vertical vane, and (ii) single moving flat vertical vane-power and efficiency.mp4
    26.02.2021 - F2 - IV - FPHM - KK – 11.30 am to 12.30 pm – Impact force, power, efficiency and maximum efficiency of a jet striking a series of flat moving vertical vanes.mp4
    27.02.2021 - F2 - IV - FPHM - KK – 1.10 pm to 2.10 pm – Impact force, power, efficiency and maximum efficiency of jet striking a single and series of flat moving vertical vane (s) - numerical problems solved.mp4
    02.03.2021 - F2 - IV - FPHM - KK – 9.10 am to 10.10 am – Impact force exerted by a water jet striking at the centre and at one end of a single symmetrical and unsymmetrical fixed curved vane.mp4
    09.03.2021 - F2 - IV - FPHM - KK – 9.10 am to 10.10 am – Impact force, power and efficiency of jet striking at the centre of a single and series of symmetrical moving curved vane(s).mp4
    12.03.2021 - F2 - IV - FPHM - KK – 11.30 am to 12.30 pm – Procedure to draw the inlet, outlet and combined velocity triangles, when the jet strikes at one end of a single and series of symmetrical moving curved vanes.mp4
    16.03.2021 - F2 - IV - FPHM - KK – 9.10 am to 10.10 am – Derivation for impact force, power and efficiency of jet striking at one end of a single and series of symmetrical moving curved vane(s).mp4
    18.03.2021 - F2 - IV - FPHM - KK – 2.20 pm to 3.20 pm – Derivation for impact force, power and efficiency of jet striking at one end of a single and series of unsymmetrical moving curved vane(s).mp4
    19.03.2021 - F2 - IV - FPHM - KK – 11.30 am to 12.30 pm – Impact of jet on vanes - solved the problems given in previous exam question papers.mp4
    UNIT - III RECIPROCATING PUMPS
    20.03.2021 - F2 - IV - FPHM - KK – 1.10 pm to 2.10 pm – Impact of jet on vanes - Hydraulic machines-power consumers and power producers, Reciprocating pumps-classification.mp4
    23.03.2021 - F2 - IV - FPHM - KK – 9.10 am to 10.10 am – Construction and working of Single acting and Double acting Reciprocating Pumps.mp4
    25.03.2021 - F2 - IV - FPHM - KK – 2.20 pm to 3.20 pm – SARP - derivations for Qth, Qact, slip, %slip, Cd, Pth, Pact and efficiency.mp4
    26.03.2021 - F2 - IV - FPHM - KK – 11.30 am to 12.30 pm – Variation of pressure head of water flowing through suction and delivery pipes of a SARP during suction and delivery strokes.mp4
    27.03.2021 - F2 - IV - FPHM - KK – 1.10 pm to 2.10 pm – Variation of pressure head of water flowing through the suction and delivery pipes of SARP due to pipe friction during suction and delivery strokes.mp4
    30.03.2021 - F2 - IV - FPHM - KK – 9.10 am to 10.10 am – Ideal indicator diagram - Actual indicator diagram considering the effects of both piston acceleration and pipe friction.mp4
    01.04.2021 - F2 - IV - FPHM - KK – 2.20 pm to 3.20 pm – Effect of acceleration of piston on the power required to drive the pump, cavitation (separation), effects of cavitation.mp4
    06.04.2021 - F2 - IV - FPHM - KK – 9.10 am to 10.10 am – SARP – derivation for the safe speed to avoid seperation (cavitation) during both suction and delivery strokes.mp4
    08.04.2021 - F2 - IV - FPHM - KK – 2.20 pm to 3.20 pm – Maximum safe speed to avoid cavitation in SARP and DARP-numerical problems.mp4
    09.04.2021 - F2 - IV - FPHM - KK – 11.30 am to 12.30 pm – Air vessels, functions and working of air vessels, power saved by fitting air vessels to SARP.mp4
    10.04.2021 - F2 - IV - FPHM - KK – 1.10 pm to 2.10 pm – Power saved by fitting air vessels to DARP, quantity of water entering into or coming out of air vessel fitted to SARP.mp4
    15.04.2021 - F2 - IV - FPHM - KK – 2.20 pm to 3.20 pm – Quantity of water entering into or coming out of air vessel fitted to DARP, crank angle at which no water enters into or coming out of air vessels in SARP and DARP.mp4
    UNIT - IV CENTRIFUGAL PUMPS
    16.04.2021 - F2 - IV - FPHM - KK – 11.30 am to 12.30 pm – Reciprocating pumps-numerical problems solved given in previous exam question papers, comparison between CF pumps and reciprocating pumps.mp4
    17.04.2021 - F2 - IV - FPHM - KK – 1.10 pm to 2.10 pm – Revision of reciprocating pumps-ideal and actual indicator diagrams, separation, safe speed, air vessels.mp4
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210422-1- CF pumps, working, velocity triangles, manometric head and power required to drive the pump
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210423-39- CF pumps, head equivalent of workdone, manometric, mechanical and overall efficiencies of the CF pumps
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210424-40- Relation between manometric, mechanical and overall efficiencies, pressure rise in the impeller of CF pump
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210427-41- Condition for delivery of water and minimum starting speed of a CF pump
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210429-42- Specific speed of CF pump and its significance, concept of model testing of CF pumps
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210430-43- Equations for the conditions of similarity of head, discharge and power for CF pumps, priming and its importance
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210504-44- Discussion on the questions and numerical problems on CF pumps given in the previous exam question papers
    Common Operational Troubles, reasons and Remedies for CF pumps
    UNIT - V HYDRAULIC TURBINES
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210506-45- Hydraulic turbines, classification, general working principle, components and working of Pelton turbine
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210507-46- Velocity triangles, power developed, efficiencies (hydraulic, mechanical, overall and maximum) of Pelton turbine
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210508-47- Design of jet diameter, rotor diameter and blade dimensions of Pelton turbine to generate rated power from available head of water
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210511-48- Specific speed of hydraulic turbines, working of Francis turbine, differences between Pelton turbine and Francis turbine
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210513-49- Testing of hydraulic turbines, unit testing, unit speed, unit discharge, unit power, concept of model testing
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210518-50- Equations for similarity of head, discharge and power of hydraulic turbines, working, power developed and efficiencies of Francis turbine
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210520-51- Kaplan turbine-working, power developed and efficiencies, total energy head, performance characteristic curves, surge tank
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210521-52- Questions and numerical problems given in previous examination question papers on Pelton, Francis and Kaplan turbines discussed
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210522-53- Hydraulic turbines-typical questions and problems from previous exam question papers solved
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210525-54- Revision of typical questions and numerical problems on Pelton, Francis and Kaplan turbines given in previous exam question papers
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210527-55- Revision of syllabus and discussion on the typical questions and numerical problems given in previous exam question papers
    AY2021-UG-SEM-4-MECH2-18MEC10-FPHM-DKK-20210529-57- Revision of syllabus and discussion on the typical questions and numerical problems given in previous exam question papers
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    F2-Fluid Principles and Hydraulic Machines-IV-2020-21
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    7. F2-Fluid Principles and Hydraulic Machines-IV-2020-21
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    F2-Fluid Principles and Hydraulic Machines-IV-2020-21

    • Teacher: Dr.K.Kishor Associate Professor
    Skill Level: Beginner

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