Questions in: Hydraulics

Hydraulics is a branch of engineering that uses pressurized, incompressible liquids, typically oil, to generate, transmit, and control power. It operates on the principle of force multiplication, allowing a small force to lift or move very heavy loads.

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Hydraulics Marine Engineer
Ques:- What are the instrumental diagram of valve.
Asked In :- Naval Group, columbia shipmanagement,
Right Answer:
The instrumental diagram of a valve typically includes symbols representing the valve type (e.g., globe, gate, ball), control mechanisms (e.g., actuator, positioner), and connections to the hydraulic or pneumatic system. It also shows the flow direction, pressure points, and any sensors or indicators associated with the valve operation.
Hydraulics Quality Engineer - Piping
Ques:- What is the purpose of having an inclined portion on the dam site exactly behind the dam opening????
Asked In :- A Wabtec Company, gold plus glass industry limited,
Right Answer:
The inclined portion behind the dam opening helps to direct and control the flow of water, reducing turbulence and preventing erosion of the dam structure.
Hydraulics Marine Engineer
Ques:- What does a pump develops? Flow or Pressure. Give the Answer with Proper Logic.
Asked In :- honda malaysia, daikin ac,
Right Answer:
A pump develops flow. However, it can also create pressure as a result of that flow against resistance in the system.
Hydraulics Marine Engineer
Ques:- What unit is used for measuring comp. outlet flow. it is CFM, M3/hr or NM3/hr. ?
Asked In :- iowa department of transportation, ve commercial vehicles ltd.,
Right Answer:
The unit used for measuring compressor outlet flow can be CFM (Cubic Feet per Minute), M3/hr (Cubic Meters per Hour), or NM3/hr (Normal Cubic Meters per Hour), depending on the context and requirements.
Hydraulics Quality Engineer - Piping
Ques:- What is control valve input and out put
Asked In :-
Right Answer:
The input of a control valve is the signal or command that determines how much the valve should open or close, typically from a controller or sensor. The output is the flow rate or pressure of the fluid that passes through the valve after it has adjusted its position based on the input signal.
Hydraulics Quality Engineer - Piping
Ques:- For a centrifugal pump if the pump is running and we close the discharge valve what is the effect
Asked In :- starfish medical,
Right Answer:
Closing the discharge valve of a running centrifugal pump will cause the pressure in the pump to increase, potentially leading to overheating, cavitation, or damage to the pump if it continues to run without proper protection.
Hydraulics Quality Engineer - Piping
Ques:- What is flow and flowrate?definate and diffrentiate it?pls post a valid ansthanks in advance
Asked In :- Johns Hopkins Applied Physics Lab, daikin ac,
Right Answer:
Flow refers to the movement of fluid through a pipe or system, while flow rate is the volume of fluid that passes a specific point in the system per unit of time. Flow is a general concept, whereas flow rate quantifies that movement, typically expressed in units like liters per second (L/s) or gallons per minute (GPM).
Hydraulics Marine Engineer
Ques:- How to calculate flow range in DP tx
Asked In :- Mahindra Tractors, Triumph Motorcycles,
Right Answer:
To calculate the flow range in a differential pressure (DP) transmitter, use the formula:

Flow Rate (Q) = K * √(ΔP)

Where:
- Q = flow rate
- K = flow coefficient (depends on the system and fluid)
- ΔP = differential pressure measured by the transmitter

Adjust the values of ΔP to find the minimum and maximum flow rates for the desired range.
Hydraulics Marine Engineer
Ques:- What is the basic principal of vertax flow meter
Asked In :- southeastern railway, my home constructions, lsp,
Right Answer:
The basic principle of a vortex flow meter is based on the creation of vortices when a fluid flows past a bluff body. The frequency of the vortices generated is proportional to the flow rate of the fluid, allowing for accurate measurement of the flow.
Hydraulics Marine Engineer
Ques:- What will be the velosity of a water at in the pipe of 6 inches which is situated at the bottom of 10 mtr tank ?
Asked In :- columbia shipmanagement, porsche engineering,
Right Answer:
The velocity of water at the bottom of a 10-meter tank can be calculated using Torricelli's law:

[ v = sqrt{2gh} ]

Where:
- ( g ) (acceleration due to gravity) = 9.81 m/s²
- ( h ) (height of the water column) = 10 m

Calculating:

[ v = sqrt{2 times 9.81 times 10} approx 14.14 , text{m/s} ]

So, the velocity of water at the bottom of the tank is approximately **14.14 m/s**.
Hydraulics Quality Engineer - Piping
Ques:- What are the characteristics of Control Valve
Asked In :-
Right Answer:
The characteristics of a control valve include:

1. **Flow Characteristics**: The relationship between the valve opening and the flow rate, typically categorized as linear, equal percentage, or quick opening.
2. **Rangeability**: The ratio of the maximum to minimum flow rates that the valve can control effectively.
3. **Cv (Flow Coefficient)**: A measure of the valve's capacity to allow fluid flow, indicating how much flow can pass through the valve at a given pressure drop.
4. **Actuator Type**: The mechanism that operates the valve, which can be pneumatic, electric, or hydraulic.
5. **Response Time**: The speed at which the valve can adjust to changes in control signals.
6. **Leakage Rate**: The amount of fluid that can pass through the valve when it is in the closed position.
7. **Body Design**: The construction and materials of the valve body, affecting durability and compatibility with different fluids.
8. **Temperature and Pressure
Hydraulics Quality Engineer - Piping
Ques:- What is the principale of vortex flow meter.
Asked In :-
Right Answer:
A vortex flow meter operates on the principle of vortex shedding, where fluid flowing past a bluff body creates alternating vortices downstream. The frequency of these vortices is proportional to the flow velocity, allowing the meter to measure the flow rate accurately.
Hydraulics Quality Engineer - Piping
Ques:- The advantage of free wheeling diode in a Full Ware rectifier is -reduces the harmonics-Supplies the voltage at negative vlotage
Asked In :-
Right Answer:
Supplies the voltage at negative voltage.
Hydraulics Quality Engineer - Piping
Ques:- How to estimate the efficiency of a pump?
Asked In :-
Right Answer:
To estimate the efficiency of a pump, use the formula:

Efficiency (%) = (Water Horsepower / Brake Horsepower) × 100

Where Water Horsepower is the useful hydraulic energy delivered by the pump, and Brake Horsepower is the input power supplied to the pump.
Hydraulics Marine Engineer
Ques:- What is the booster in pneumatic.
Asked In :- columbia shipmanagement, ramco cements ltd,
Right Answer:
A booster in pneumatic systems is a device that increases the pressure of compressed air, allowing for greater force or power in pneumatic tools and equipment.
Hydraulics Quality Engineer - Piping
Ques:- How can caliberete the gas volume.
Asked In :-
Right Answer:
To calibrate gas volume, use a calibrated flow meter to measure the gas flow rate over a specific time period, then compare the measured volume to a known standard or reference volume to ensure accuracy. Adjust the system as necessary based on the comparison results.
Hydraulics Quality Engineer - Piping
Ques:- What is the basic working principle of I/P and Positioner in any control valve.
Asked In :- brandt group of companies, rebar design & detail (p) ltd,
Right Answer:
The basic working principle of an I/P (Current to Pressure) converter is to convert an electrical current signal (typically 4-20 mA) into a proportional pneumatic pressure output. This pressure is then used to position the control valve. The positioner receives the pressure signal and adjusts the valve's position to ensure it matches the desired setpoint, providing precise control of flow or pressure in the system.
Hydraulics Quality Engineer - Piping
Ques:- What are the types of clarifier used in water treatement plant?
Asked In :- ng bailey, tega industries limited,
Right Answer:
The types of clarifiers used in water treatment plants include:

1. **Horizontal Flow Clarifiers**
2. **Vertical Flow Clarifiers**
3. **Dissolved Air Flotation (DAF) Clarifiers**
4. **Inclined Plate Clarifiers**
5. **Circular Clarifiers**
Hydraulics Quality Engineer - Piping
Ques:- What is the difference between application of single acting actuator and double acting actuator
Asked In :- Raster Engineers, daikin ac,
Right Answer:
A single acting actuator uses pressure to move in one direction and relies on a spring or gravity to return, while a double acting actuator uses pressure to move in both directions, allowing for more control and force in both actions.


Hydraulics is an applied science and technology concerned with the mechanical properties and use of liquids in motion or under pressure. The fundamental principle governing all hydraulic systems is Pascal’s Law, which states that a pressure change at any point in a confined incompressible fluid is transmitted equally throughout the fluid. This principle allows a small force applied over a small area to be converted into a much larger force over a larger area, a concept known as force multiplication.

A typical hydraulic system consists of several key components working in concert: a reservoir to hold the hydraulic fluid, a pump to pressurize the fluid and convert mechanical energy into fluid power, control valves to direct the flow of the fluid, and an actuator (such as a cylinder or a motor) that converts the fluid power back into mechanical force or motion to do the work.

Hydraulics is a cornerstone of modern engineering and has a vast array of applications across numerous industries. In construction, hydraulic systems power heavy machinery like excavators, cranes, and bulldozers, enabling them to lift and move massive loads with precision. The automotive industry utilizes hydraulics for braking systems, power steering, and car lifts. In manufacturing, hydraulic presses are used to shape and form metal, while in aviation, hydraulics are essential for operating landing gear, flaps, and other flight control surfaces. The power and reliability of hydraulic systems make them indispensable for any application requiring high force, high precision, and controlled movement.

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