National Institute Of Technology,Kurukshetra

LABORATORIES:

Sr. No.

Name of the Laboratory

1

Advanced Manufacturing Technology Lab

2

Advanced Mechanical Vibrations  Lab

3

Advanced Production Technology Lab

4

Applied Mechanics Lab

5

Applied Numerical Methods Lab

6

Computational Fluid Dynamics Lab

7

Computer Aided Design Lab

8

Computer and Automation Lab

9

Fluid Mechanics & Hydraulic Machines Lab

10

Heat Transfer Lab

11

Industrial Engineering Lab

12

Measurement and Control Lab

13

Mechanical Vibrations Lab

14

Mechanics of Machines Lab

15

Mechatronics Lab

16

Metrology Lab

17

Refrigeration  & Air Conditioning Lab

18

Strength of Materials Lab

19

Thermal Engineering Lab

20

Tribology Lab

 

Details of the Equipment and/or Facilities available in Laboratories:

Name: Advanced Manufacturing Technology Lab

Prof-In-Charges: Jatinder Kumar (jatin.tiet@gmail.com)

                            Joy Prakash Misra (joyprakash.misra@gmail.com)

 

Details of the equipment:

 

Rotary Ultrasonic

Machining Set Up

Rotary USM Set Up was procured under TEQIP-II. It is based on non-traditional machining concept, and utilizes both the rotary action of the spindle as well as high frequency ultrasonic vibration to machine very delicate, brittle and non-metallic substances with application of very less cutting force. Four PhD scholars are doing their experimental research work currently on this equipment, while one PhD thesis has been completed already.

CNC Wire Cut EDM

This equipment was procured under TEQIP-I. CNC wire cut EDM is used for machining of electrically conductive metals with the help of a thin wire electrode. It utilizes the high frequency sparking action for machining purpose. About ten PhD scholars have already completed their research work on this equipment. Many M. Tech. Thesis have also been undertaken on this equipment. A large number of research papers have also been published, including SCI and Scopus indexed Journals. B. Tech. students are also given exposure on this equipment in their lab (APT Lab Pr.)

     

 

 

 

Name: Computer Aided Design Lab

 

Prof-In-Charges: V S Nagendra Reddy B (nagendra@nitkkr.ac.in)

                            Satnam Singh (satnamsingh@nitkkr.ac.in)

 

Details of the equipment:

Dell Optiplex 5050 MT Desktop Computers

30 No.s

Dell T7810 Workstations

02 Nos.

 

Details of the Software:

CATIA:

20 users suit

Kiss soft:

20 users suit

Altair Hyperworks:

20 users suit

LS Dyna:

5 users suit

Radioss

10 Users suit

 

Name of Lab:  Computer Automation Lab

Prof-In-Charges: - Satnam Singh (satnamsingh@nitkkr.ac.in)

         V S Nagendra Reddy B (nagendra@nitkkr.ac.in)

Details of the equipment: -

Dell Optiplex Desktop Computers

29 No.s

 

Details of the Software:

Solidworks

30 users suit

 

Name: Heat Transfer Lab

Prof-In-Charge: - Gulshan Sachdeva (gulshan4you@gmail.com)

S. No.

Name of the Equipment

Objective

1.

Metallic Rod Test Rig

To determine the thermal conductivity of a brass rod.

2.

Insulating Powder Test Rig

To determine the thermal conductivity of asbestos powder.

3.

Liquid Thermal Conductivity Test Rig

To determine the thermal conductivity of a glycerin.

4.

Composite Wall Test Rig

To determine the temperature gradient and thermal resistance of a composite wall.

5.

Pin Fin in Free Convection

To determine the temperature distribution along the length of a pin fin in natural convection.

6.

Forced Convection Inside a Tube

To determine the heat transfer coefficient for forced convection inside a tube.

7.

Concentric Tube Heat Exchanger

To find LMTD and Effectiveness of heat exchanger in parallel and counter flow modes.

8.

Stefan Boltzman Constant

To determine the Stefan Boltzman Constant.

9.

Critical Heat Flux

To study the boiling heat transfer phenomenon and determine critical heat flux for pool boing of water.

10.

Emissivity Apparatus

To determine the emissivity of a metallic disc test plate.

11.

Demonstration of Heat Pipe

To demonstrate the super conductivity of heat pipe

12.

Shell and Tube Heat Exchanger set up

To determine the effectiveness and LMTD of Shell and Tube Heat Exchanger

13.

Unsteady State test rig

To calculate heat transfer coefficient in unsteady mode using lumped capacitance method.

14.

Finned Tube Heat Exchanger

To find LMTD and overall heat transfer coefficient of finned tube heat exchanger

15.

Natural Convection Apparatus

To determine the surface heat transfer coefficient for a heated vertical tube under natural convection.

16.

Drop wise/ film wise Condensation Apparatus

To study film wise & drop wise condensation of steam on a vertical surface.

17.

Plate Type Heat Exchanger

To find LMTD and overall heat transfer coefficient of plate type heat exchanger.

18.

Heat Transfer Through Lagged Pipe

To determine the rate of heat transfer through composite cylinders.

19.

Heat Transfer in Agitated Vessel

To determine coil side overall heat transfer coefficient for different agitation speeds in given agitated vessel.

 

Name: Refrigeration and Air Conditioning Lab

Prof-In-Charge: - Gulshan Sachdeva (gulshan4you@gmail.com)

 

 

 

 

 

S. No Name of Equipment Objective
1. Vapor Compression Refrigeration Model To study the basic of vapor compression refrigeration cycle.
2. Air and Water Heat Pump Test Rig To find the theoretical and experimental COP of the vapor compression system when using as refrigerator and as heat pump.
3. Vapor Absorption Refrigerator Test Rig To study 3-fluid refrigeration system and to find theoretical and experimental COP.
4. Air Blower Test Rig To determine the overall efficiency of the blower.
5. Window AC Test Rig To study the various components of room air conditioner.
6. Sling Psychrometer To find the relative humidity of room air and outside air using sling psychrometer and psychrometric chart.
7. Computerized Air Conditioning Test Rig To study the air conditioning cycle in summer and winter mode.
8. Control Devices Panel To display the various expansion valves, capillary tube, temperature and pressure control devices.
9. Compressor Models To study the construction and working of reciprocating, rotary and hermetically sealed compressor.
10. Ice Plant Test Rig To study and find the COP of an ice plant.
11. Automotive Test Rig To determine the refrigeration tonnage and COP of the automotive air conditioner.

 

 

Name: Metrology Lab

 

Prof-In-Charge: Dr. Lalit Thakur (lalitthakur@nitkkr.ac.in)

Details of the equipment:

Pneumatic Comparators (2 Nos)

 

It compares the unknown dimensions of a part with some standard or master setting which represents the basic size and dimensional variations from the master setting. Air is supplied at constant pressure through the orifice and the air escapes in the form of jets through a restricted space which exerts a back pressure. The variation in the back pressure is then used to compare the size of a component.

 

 

Roundness Tester

High accuracy Roundness / Cylindricity measuring instrument with achieving easy operation.

 

Monochromatic Light Source Unit with Optical Flats

It is used to measure the flatness of a component by interference. A flat surface is indicated by a pattern of straight, parallel fringes with equal spacing, while other patterns indicate uneven surfaces.

 

Universal Gear Roll Tester

Useful for checking total composite error, tooth to tooth error of Helical and Spur Gears.

 

Double Disc Polishing Machine

It is used for polishing of metallic samples. Polished samples are further analyzed under microscope for metallurgical studies.

 

 

Digital Toolmakers Microscope

It is used for all precision 2D and 3D measurements.

 

Surface Roughness Tester with surface plate

It is used to measure the surface roughness of a manufactured component.

 

 

Semi-Micro Weighing Balance

It is used to measure the weight of the small specimens with an accuracy of 0.01 mg

 

 

Optical Profile Projector

The profile projector is a very useful optical instrument that is used in industries for the purpose of analysis of the shapes of the components used in different products. The profile makes it easy to measure the dimensions of the specimen with great accuracy.

 

Slip Gauges, Vernier Caliper, Screw Gauge, Gear Tooth Vernier Caliper

 

These are used for precise measurement of linear dimensions.

 

Name: Production Technology Lab

Prof-In-Charges: Joy Prakash Misra (jpmisra@nitkkr.ac.in)

                             Vikas Kumar (vikas.pec@nitkkr.ac.in)

 

Details of the equipment:

Equipment

Number of units

Lathe machine

5

Cylindrical grinder

1

Radial drilling machine

1

Horizontal milling machine

1

Gear hobbing machine

1

Vertical milling machine

1

Universal milling machine

1

Power hacksaw

1

Pillar type drilling machine

1

Electro discharge machine

1

 

Lathe Machine

Cylindrical Grinder

 

 

Radial Drilling Machine

Horizontal Milling Machine

 

 

Gear Hobbing Machine

Vertical Milling Machine

 

 

Universal Milling Machine

Electro Discharge Machine

 

 

Power Hacksaw

Pillar Type Drilling Machine

 

Name: Strength of Materials (SOM) Lab

 

Prof-In-Charges:        

Dr. Vinod Mittal (mit_vkum@nitkkr.ac.in)

Dr. Punit Kumar (punkum2002@yahoo.co.in)

Dr. Lalit Thakur (lalitthakur@nitkkr.ac.in)

 

Details of the equipment:

 

  1. Computerized Universal Testing Machine (UTM) - 200 ton capacity

Total load capacity =2000KN

Environmental Conditions

        1. Temperature = 10-350C
        2. Relative humidity <80%
        3. Speed = 0.5-20 mm/sec

       Total no tests that can be performed:

  1. Tensile Test
  • Specimen diameter 8-60 mm for round bar
  • Specimen diameter(width) 10-70 mm for flat bar
  1. Compression test
  • Specimen diameter =400 mm
  1. 3 point bending
  2. 4 point bending
  3. Shear and Double Shear test
  4. Chain, Rope, Nut, Bolt and Wire test

 

  1. Computerized Rockwell Hardness testing machine
  • Fully automatic and computer controlled
  • Total load = 15,30,45,60,100,150 kg-f
  • Used for testing for Hardness for various materials

 

  1. Computerized Vicker’s Hardness testing machine
  • Fully automatic computerized
  • Load =1,5,10,20,30,50 kgf
  • Least scale =0.001mm

 

  1. Computerized Brinell hardness testing machine
  • Fully automatic
  • Weight capacity = 250-3000 kgf
  • Ball holder diameter = 5-10mm

 

 

  1. Computer controlled Erichsen Cupping testing machine

 

  • Capacity= 100 KN
  • Servo-hydraulic and fully computerized
  • Max width of sheet =110mm
  • Punch ball dia. = 20, 15, 8mm
  • Thickness of sheet

0.1-2.0 mm (standard)

2.0-3.0 mm (Non-standard)

 

 

 

  1. Computerized Impact testing machine
  • Fully computerized with broaching machine tool

No. of tests that can be performed

  1. Charpy test

Impact energy = 250,500 J

Std. span of specimen= 40mm

Size of specimen= 10*10*55mm

  1. Izod test

Impact energy = 150 J

 

 

 

 

  1. Computerized Creep testing machine
  • Servo-electric computerized UTM
  • Load capacity = 100kN
  • Creep test strain rate = 10^-6 /min
  • Vertical daylight between column is =1200mm
  • Min vertical daylight = 300mm
  • Tablet based touch screen operator control panel
  • High temperature chamber for creep testing at elevated   

temperature 

 

 

  1. Computerized Fatigue testing machine with elevated temperature
  • Servo-hydraulic
  • Tablet based touch screen operator control panel
  • Load capacity =100kN
  • High temperature chamber for testing at elevated temperature

up-to 10000C.

  • No. of tests that can be performed:
              1. Tensile test
              2. Compression test
              3. 3 point bending test

 

 

  1. Computerized Torsion Testing machine
  • Fully automatic
  • Maximum torque ±1000 N-m
  • Measuring range of test load = 20-1000 N-m
  • Minimum reading of torsion angle= 0.10
  • Dia. of specimen = 6-20 mm
  • Working Temperature = 23±5 0C

 

 

 

 

 

 

  1. Computerized Bending of stress in beams apparatus

 

 

  1. Computerized Buckling of strut testing machine

 

 

 

 

 

 

 

 

 

 

 

Name: Thermal Engineering Lab

 

Profs.-In-Charges: Dr. Rajneesh (rajneesh@nitkkr.ac.in)

                               Er. Chandrashekara M (chandru3rvce@gmail.com)

 

Details of the equipment:

LOW SPEED DIESEL ENGINE

To make a trial on single cylinder 4 –stroke Diesel Engine to calculate B.H.P., S.F.C. and to draw its characteristics curves.

 

HIGH SPEED DIESEL ENGINE

To make a trial on 4- stroke high – speed diesel engine and to draw its Heat Balance Sheet.

 

 

 

TWO STAGE AIR COMPRESSOR

To calculate the isothermal efficiency and volumetric efficiency of a 2-stage reciprocating air compressor.

 

NESTLER BOILER

To make a trial on the Boiler to calculate equivalent evaporation and efficiency of the Boiler.

 

RUSTON DIESEL ENGINE

To make a trial on Diesel Engine at constant speed to calculate B.H.P., S.F.C., thermal efficiency and to draw its characteristic Curves.

 

VERTICAL STEAM ENGINE

To study vertical Steam Engine test RIG with Hydraulic Dynamometer.

 

STEAM TURBINE

To study the working of Steam Turbine.

 

BOILER MODELS

To study the models of various types of boilers.

 

Name of Lab: Tribology Lab

 

Prof-In-Charges:        

Dr. Vinod Mittal (mit_vkum@nitkkr.ac.in)

Dr. Punit Kumar (punkum2002@yahoo.co.in)

Dr. Lalit Thakur (lalitthakur@nitkkr.ac.in)

 

Details of the equipment:

 

Multi Tribometer

(Rtech Instruments)

It is used to measure friction and sliding wear for wide range of load and speed using rotary as well as reciprocating drives under lubricated and dry conditions.

 

Lubricant Film Thickness 10-500 nm
Measure Humidity, Temperature 5-95RH, upto 1500C
Drive Type Rotary
Load Range 0.2-500N
Resolution 10 mN
Friction Force Range 0.2-500 N
Drive RPM 0.1-5500 RPM
Stroke 0.1 to 150-200 mm
Wear Speed 0.001- 10 mm/s
Disc diameter Upto 100mm

 

 

 

Journal Bearing Apparatus

Journal Bearing Apparatus measures pressure distribution in hydrodynamic journal bearing. Various lubricants can be tested under different load and speed conditions.

 

 

Shaft Diameter 39.9 mm
Shaft Material EN-31 Bearing Steel
Radial clearance 0.11 mm
L/d ratio 1
r/c ratio 181
Radial Load 780 N (max.)
Speed Range 150-2000 RPM
Test Bearing Size 40.120 mm
Test Bearing material Brass 60-40 %
Radial load 150 N – 750 N
Oil tank capacity 3 lit
Oil reservoir capacity 500 ml
Dead weight on bearing 35 N
Loading ratio 1:5
Torque distance for frictional force 100 mm
Journal speed 200 rpm -2000 rpm

 

 

 

 

 

 

Shear Stability Tester

 It measures the loss in viscosity of lubricant due to molecular degradation as a result of shear stress cycles

 

Fluid Reservoir

Inner φ45mm Glass vessel, 250ml capacity

Opened on top surface

Cooling vessel Length:180 mm, spherical inner dia:25, outer dia:50mm, with inlet & outlet for water fixed on top and bottom end
3 way stop cock Cone type with a non-exchangeable solid plug with a bore size 8 mm
Pressure gauge Glycerol filled pressure gauge, Max 600 bar
Nozzle pressure 171 bar
Vrun 170 ml
Vres 25 ml
n-No of strokes/min 937
Motor speed 925 rpm
Oil discharge 170 mL/min
Pressure displayed on pressure gauge during test 171 bar

 

 

 

 

 

 

Dry Sand Abrasion Test Rig

Dry Sand Abrasion Test Rig is used to determine the scratching abrasion resistance of metallic materials by means of dry sand/rubber wheel test under a specified set of conditions

 

Surface Roughness Tester

(Surfcom Flex-50A, Zeiss)

It is used to check average value of roughness (RA) of any surface having certain sample length.

 

Advanced Heat and Mass Transfer Lab

Prof.-In-Charge: Dr. Gulshan Sachdeva


       

  Figure 1: Finned Type Heat Exchanger                                                     Figure 2: Heat Transfer in Agitated Vessel

 

   

Figure 3: Plate Type Heat Exchanger                                                       Figure 4: Drop & Film Wise Condensation

   

Figure 5: Thermal Conductivity of Liquids                                                  Figure 6:Heat transfer through critical heat flux

Figure 7: Unsteady state heat Transfer Unit

Refrigeration & Air-Conditioning Lab

 

Prof.-In-Charge: Dr. Avadhesh Yadav

Figure 1: Refrigeration Lab

Figure 2: Computerised Recirculating Type Air Conditioning Test Rig

Figure 3: Sectional Refrigeration Components

Figure 3: Sectional Refrigeration Components

Figure 5: Ice Plant Tutor

Figure 6: Air and Water Heat Pump

Advanced IC Engine Lab

Prof.-In-Charge: Dr. Rajneesh

Figure 1. Downdraft Gasifier of 20kW Capacity

Figure 2. Experimental Set-up for Biogas Production Enhancement

Figure 3. Emission Measurement System (MDS350)

Figure 4. Single Cylinder VCR Diesel Engine

Figure 5. Multi-cylinder Petrol Engine with Open ECU

Figure 6. Single Cylinder Multi-fuel VCR Engine

Figure 7. Engine Test Bed with CCLU, Blow-by and Eddy Current Dynamometer

HIGH SPEED DIESEL ENGINE

1 No.

Figure 8: HIGH SPEED DIESEL ENGINE

 

LOW SPEED DIESEL ENGINE

1 No.

Figure 9: LOW SPEED DIESEL ENGINE

 

 

Computational Fluid Dynamics Lab

Prof.-In-Charge: Dr. N.K Singh

 

Figure 1: Computational Fluid Dynamics Lab

 

 

 

 

NIT Kurukshetra is one of the premier technical institutes of the country. Founded in 1963 as Regional Engineering College Kurukshetra, the institute was rechristened as National Institute of Technology on June 26, 2002.