ONGC chemical Engg
ONGC free solved placement papers ONGC chemical engg questions for practice ONGC models questions for chemical engineering questions
1. The fluid property, due to which, mercury does not wet the glass is
A.surface tension
B.viscosity
C.cohesion
D.adhesion
Answer: Option A
2. Laminar flow of a Newtonion fluid ceases to exist, when the Reynolds number exceeds
A.4000B.2100
C.1500D.3000
.
Answer: Option B
3. When the momentum of one fluid is used for moving another fluid, such a device is called a/an
A.jet pump
B.blower
C.acid egg
D.none of these
.
Answer: Option A
4. The normal stress is the same in all directions at a point in a fluid, when the fluid is
A.non-viscous.
B.incompressible.
C.both (a) and (b).
D.having no motion of one fluid layer relative to the other.
.
Answer: Option D
5. Head developed by a centrifugal pump depends on its
A.speed
B.impeller diameter
C.both (a) and (b)
D.neither (a) nor (b)
.
Answer: Option C
6. Hydraulic mean depth (Dm) for a circular pipe of diameter 'D' flowing full is 0.25 D. For a circular channel, at Dm = 0.3 D, gives the condition for the maximum
A.flow rate
B.mean velocity
C.both 'a' & 'b'
D.neither 'a' nor 'b'
.
Answer: Option B
7. The head loss in turbulent flow in a pipe varies
A.as velocity
B.as (velocity)2
C.inversely as the square of diameter
D.inversely as the velocity
.
Answer: Option B
8. Most commonly used joint in the underground pipe lines is the
A.sleevejoint
B.coupling
C.flange
D.expansion joint
.
Answer: Option A
9. Schedule number of a pipe, which is a measure of its wall thickness, is given by
A.1000 P'/S
B.100 P'/S
C.1000 S/P'
D.10000 P'/S
.
Answer: Option A
10. The net positive suction head (NPSH) of a centrifugal pump is defined as the sum of the velocity head and the pressure head at the
A.discharge.
B.suction.
C.suction minus vapor pressure of the liquid at suction temperature.
D.discharge minus vapor pressure of the liquid at the discharge temperature.
.
Answer: Option C
11. With increasing flow rate, the hydraulic efficiency of a centrifugal pump
A.monotonically decreases.
B.decreases and then increases.
C.remains constant.
D.increases and then decreases.
.
Answer: Option A
12. The velocity profile for turbulent flow through a closed conduit is
A.logarithmicB.parabolic
C.hyperbolicD.linear
.
Answer: Option A
13. In case of hydraulically smooth pipe, the resistance to flow depends only on the Reynolds number, whereas for a hydraulically rough pipe, the resistance to flow is governed by the relative roughness. Two pipes are said to have the same hydraulic roughness, when they have equal values of
A.relative roughness.
B.absolute roughness.
C.friction co-efficient for flows at equal Reynold number.
D.all (a),(b) & (c).
.
Answer: Option C
14. Water hammer in a pipeline results from the
A.bursting of pipelines due to closure by a valve.
B.rapid pressure change due to a rapid change in the rate of flow.
C.pressure increase due to closure of a valve resulting in decrease in rate of flow.
D.none of these.
.
Answer: Option B
15. Molten soap mass is transported by a __________ pump.
A.diaphragmB.reciprocating
C.gearD.centrifugal
.
Answer: Option C
16. Which of the following denotes the effect of compressibility in fluid flow ?
A.Weber number
B.Mach number
C.Euler number
D.Reynolds number
.
Answer: Option B
17. Nominal size of the discharge pipe of a pump is usually __________ the nominal size of the inlet pipe.
A.smaller than
B.larger than
C.same as
D.twice
.
Answer: Option A
18. The terminal velocity of a small sphere settling in a viscous fluid varies as the
A.first power of its dimeter.
B.inverse of the fluid viscosity.
C.inverse square of the diameter.
D.square of the difference in specific weights of solid & fluid.
.
Answer: Option B
19. If the discharge of a centrifugal pump is throttled, then its suction lift
A.increases
B.decreases
C.remains unchanged
D.data insufficient to predict
.
Answer: Option A
20. Foot valves provided in pumps are __________ valves.
A.relief
B.three/four way
C.pressure reducing
D.directional control
.
Answer: Option D
21. At high Reynolds number
A.inertial forces control and viscous forces are unimportant.
B.viscous forces predominate.
C.inertial forces are unimportant and viscous forces control.
D.none of these.
.
Answer: Option A
22. Power loss in an orificemeter is __________ that in a venturimeter.
A.less than
B.same as
C.more than
D.data insufficient, cannot be predicted
.
Answer: Option C
23. The terminal velocity of a particle moving through a fluid varies as dpn. What is the value of n' for Newton's law regime ?
A.0.5B.1
C.1.5D.3
.
Answer: Option A
24. What is the normal range of exit cone angle of a venturimeter ?
A.2 to 5
B.7 to 15
C.15 to 25
D.>25
.
Answer: Option B
25. The dimension of dynamic viscosity is
A.ML-1T-1B.L2T-1
C.LT-2D.ML-1T-2
.
Answer: Option A
.:
26. A particle A of diameter 10 microns settles in an oil of specific gravity 0.9 and viscosity 10 poise under Stoke's law. A particle B with diameter 20 microns settling in the same oil will have a settling velocity
A.same as that of A.
B.one fourth as that of A.
C.twice as that of A.
D.four times as that of A.
.
Answer: Option B
27. The pitot static tube does not measure the __________ pressure.
A.static
B.total
C.difference in static & dynamic
D.all (a),(b) and (c)
.
Answer: Option D
28. The fluid in which the shearing stress within it is proportional to the velocity gradient across the sheared section, is called a __________ fluid.
A.Bingham
B.Newtonion
C.perfect
D.none of these
.
Answer: Option C
.
29. In fluid flow, cavitation is caused, if the
A.fluid velocity decreases to zero.
B.total energy decreases.
C.both (a) and (b).
D.flow pressure approaches its vapor pressure at the prevailing temperature.
.
Answer: Option D
30. The ratio of the depth of flow to the hydraulic radius for the most economical trapezoidal section, in open channel flow is
A.0.5B.1
C.1.5D.2
.
Answer: Option D
31. The drag co-efficient for a bacterium moving in water at 1 mm/s, will be of the following order of magnitude (assume size of the bacterium to be 1 micron and kinematic viscosity of water to be 10-6m2/s).
A.24000B.24
C.0.24D.0.44
.
Answer: Option D
32. For Laminar flow through a packed bed, the pressure drop is proportional to (Vs is the superficial liquid velocity and Dp is the particle diameter)
A.Vs/Dp2B.Vs2/Dp2
C.Vs2/Dp3D.Vs/Dp3
.
Answer: Option A
33. The maximum delivery pressure of compressors can be upto __________ atmospheres.
A.10B.100
C.250D.1000
.
Answer: Option D
34. Dimension of surface tension is(where, F = force, L = length)
A.FLT-1
B.F-1 . L
C.F.L-2
D.F-2 . L
.
Answer: Option A
35. Which of the following is not a dimension-less parameter ?
A.Euler number
B.Specific gravity
C.Fanning friction factor
D.None of these
.
Answer: Option D
36. Co-efficient of velocity is __________ the coefficient of discharge.
A.less than
B.more than
C.equal to
D.not related to
.
Answer: Option B
37. All pipes of a particular nominal size have the same
A.inside diameter
B.outside diameter
C.thickness
D.none of these
.
Answer: Option B
38. For the transfer of solution of thick slurry, the pump used is a __________ pump.
A.reciprocatingB.gear
C.diaphragmD.centrifugal
.
Answer: Option C
39. Which of the following is not concerned with the fluid-particle interaction ?
A.Drag co-efficient
B.Froude number
C.Galileo number
D.Weber number
.
Answer: Option D
40. Maximum theoretical suction lift for water at 15°C by a centrifugal pump is 34 ft. The same for water at 90°C will be __________ ft.
A.40B.34
C.8D.37
.
Answer: Option C