Gulzar Group of Institutions

graduate program

Mechanical Engineering

  • HOD Message
  • Vision & Mission
  • PEO,PO,PSO
  • Course Outcome
  • Lab
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Welcome to the best mechanical engineering institute in India Department at Gulzar Group of Institutions. Mechanical Engineering courses are one of the most diverse and versatile engineering fields as it touches virtually every aspect of modern life, including the human body, a highly complex machine.

 

The role of a mechanical engineer is to take a product from an idea to the marketplace. Our distinguished faculty members and highly efficient technical staff members are actively involved with the students in guiding and preparing them to design products that have functionality, mechanical engineering colleges in Punjab, aesthetics, and durability; and determine the best manufacturing approach that will ensure results without failure. Mechanical engineers play key roles in a wide range of industries including automobile, aerospace, biotechnology, computers, electronics, conventional energy, core industry, green energy, robotics and automation, and both traditional and modern manufacturing. This discipline allows students a variety of career options even beyond the industries listed above.

 

Although the best mechanical engineering colleges in Punjab Department at GGI are young, our driving mission is to prepare students for a rapidly evolving and complex world. With the GGI slogan "SHARPENING MINDS, BRIGHTENING TOMORROW", we continue to be committed to the core values of building on strong foundations to foster a culture of innovation within a dynamic, vital, and engaging intellectual environment.

Our laboratories are very well established and consist of state-of-the-art facilities to motivate students to learn beyond the syllabus which develops complete knowledge of the subject and develops skill sets in students to become promising engineers in the future. It is our earnest endeavor to empower students with creative thinking skills to design an exciting product or system; analytical tools to achieve their design goals; the ability to overcome all constraints; and the teamwork needed to design, market, and produce a system with top mechanical engineering institute near Khanna.

 

Dr. Sarbjeet Kaushal

Head of Department

Department Vision

To be the department of choice of students for Mechanical Engineering education.

 

Department Mission

To prepare quality mechanical engineering professionals, who depending upon their choice will be readily employable by the industry, or will venture for higher studies or entrepreneurship.

PROGRAM EDUCATION OBJECTIVES (PEO)

PEO1: To impart exhaustive knowledge in Mechanical Engineering, applied sciences and humanities as well as management abilities.

PEO2: To enable students to understand, analyze and solve real-life problems in Mechanical Engineering through hands-on practice in laboratories.

PEO3: To promote collaborative learning through multidisciplinary projects and professional ethics.

PEO4: To expose students to material engineering and manufacturing processes in an industrial environment through classroom learning, industrial visits and internships.

PEO5: To inculcate communication skills and leadership abilities among students.

PROGRAMME OUTCOMES (PO)

  • Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
  • Problem Identification & analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
  • Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for public health and safety, and the cultural, societal, and environmental considerations.
  • Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis, and interpretation of data, and synthesis of the information to provide valid conclusions.
  • Usage of Modern tool: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.
  • Engineer and society relationship: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
  • Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
  • Ethics & Responsibilities: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
  • Engineer Role: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
  • Communication & presentation: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
  • Functionality of Engineering & Management principles: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
  • Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.

 

Program Specific Outcomes (PSO)

PSO1: To empower the students with theoretical aspects and practical knowledge in fundamentals of design, materials, thermal, manufacturing, industrial engineering, and allied domains. 

PSO2: To equip the students to become entrepreneurs, industry-ready professionals or pursue higher studies. 





Course Outcomes (CO’s) for B. Tech ME

Semester: III - BTME301-18 Fluid Mechanics 
Students will be able to

  • BTME301-18.1 Understand the concept of fluids and their properties.
  • BTME301-18.2 Apply the concept to solve the problems related to statics, dynamics, and kinematics of fluids.
  • BTME301-18.3 Use and apply dimensional analysis and similitude techniques to various physical fluid phenomena.
  • BTME301-18.4 Distinguish various types of flows and learn flow measurement methods.

BTME302-18 Theory of Machines-I 

 Students will be able to

  • BTME302-18.1 Understand constructional and working features of important machine elements
  • BTME302-18.2 Design belt, rope, and chain drives for transmission of motion from one shaft to another.
  • BTME302-18.3 Identify different Cam and follower pairs for different applications and construct a cam profile for required follower motion.
  • BTME302-18.4 Understand the function of brakes, dynamometers, flywheels, and governors.

BTME303-18 Machine Drawing 

Students will be able to

  • BTME303-18.1 Read, draw, and interpret the machine drawings and related parameters.
  • BTME303-18.2 Use standards used in machine drawings of machine components and assemblies.
  • BTME303-18.3 Learn the concept of limits, fits, and tolerances in various mating parts.
  • BTME303-18.4 Visualize and generate different views of a component in the assembly.
  • BTME303-18.5 Use CAD tools for making drawings of machine components and assemblies.

BTME304-18 Strength of Materials-I 

Students will be able to

  • BTME304-18.1 Understand the concepts of stress and strain at a point, in the members subjected to axial, bending, torsional loads, and temperature changes.
  • BTME304-18.2  Determine principal stresses, maximum shearing stress and their angles, and the stresses acting on any arbitrary plane within a structural element.
  • BTME304-18.3  Find bending moment and shear force over the span of various beams subjected to different kinds of loads.
  • BTME304-18.4  Calculate the load-carrying capacity of columns and struts and their buckling strength.
  • BTME304-18.5 Evaluate the slope and deflection of beams subjected to loads.

 

BTME305-18 Basic Thermodynamics 

Students will be able to

  • BTME305-18.1 Apply energy balance to Systems and Control Volumes in situations involving heat and work interactions.
  • BTME305-18.2 Evaluate changes in thermodynamic properties of substances. 
  • BTME305-18.3 Evaluate performance of energy conversion devices.
  • BTME305-18.4 Explain and apply various gas power and vapor power cycles.

BTEC305-18 Basic Electronics Engineering 
Students will be able to

  • BTEC305-18.1 Understand the construction of diodes and their rectifier applications.
  • BTEC305-18.2 Understand the construction and working bipolar junction transistors and MOSFETs.
  • BTEC305-18.3 Design Op-Amp IC-based fundamental applications.
  • BTEC305-18.4 Understand Comprehend working of basic elements of digital electronics and circuits.

BTME306-18 Strength of Materials Lab 
Students will be able to

  • BTME306-18.1 Measure the various mechanical properties such as tensile and compressive strength, impact strength, torsion strength, and fatigue strength, and hardness of brittle and ductile materials.
  • BTME306-18.2 Calculate the load-carrying capacity of long columns and their buckling strength.

BTME307-18 Theory of Machines Lab 
Students will be able to

  • BTME307-18.1 Determine gyroscopic couple, balancing of rotating masses, and Cam profile analysis.
  • BTME307-18.2 Determine gear- train value of compound gear trains and epicyclic gear trains.

BTME308-18 Fluid Mechanics Lab
Students will be able to

  • BTME308-18.1 Distinguish various types of flows and flow measurement methods and concepts of statics and dynamics of liquids.
  • BTME308-18.2 Determine discharge and head loss, hydraulic and friction coefficient, for different types of flow in pipe and open channels.

Semester: IV
BTME401-18 Applied Thermodynamics 
Students will be able to

  • BTME401-18.1 Learn the functioning and performance evaluation of reciprocating air compressors.
  • BTME401-18.2 Analyze the combustion phenomenon in boilers and I.C. engines.
  • BTME401-18.3 Use of Steam Tables and Mollier Chart to solve vapour power cycle problems.
  • BTME401-18.4 Explain the construction features and working of steam power plants and to evaluate their performance.

BTME402-18 Fluid Mechanics 
Students will be able to

  • BTME402-18.1 Recognize basic components of turbomachines and understand related fundamental laws/ principles and apply these for calculation of various parameters like work done, force efficiency etc.
  • BTME402-18.2 Know about constructional details, working and design aspects of runner/wheel, and evaluate the performance of various turbines like Pelton, Kaplan, and Francis.
  • BTME402-18.3 Know about constructional details, working and evaluating the performance of centrifugal pump under different vane shape conditions.
  • BTME402-18.4 Know about constructional details, working and evaluating the performance of the reciprocating pump, and evaluate the effect of various deviations from the ideal conditions on the work done.
  • BTME402-18.5 Know about constructional details and working of hydraulic devices like fluid coupling, accumulator, and intensifier.

BTME403-18 Strength of Materials II 
Students will be able to

  • BTME403-18.1   Apply the basics to find stresses in various applications (shells, curved beams, and rotating discs).
  • BTME403-18.2 Know about constructional details, working and design aspects of runner/wheel, and evaluate the performance of various turbines like Pelton, Kaplan, and Francis.
  • BTME403-18.3 Know about constructional details, working and evaluating the performance of centrifugal pump under different vane shape conditions.
  • BTME403-18.4 Know about constructional details, working and evaluating the performance of the reciprocating pump and evaluating the effect of various deviations from the ideal conditions on the work done.
  • BTME403-18.5      Know about constructional details and working of hydraulic devices like fluid coupling, accumulator, and intensifier.

BTME404-18 Material Engineering 
Students will be able to

  • BTME404-18.1 Understand the significance of structure-property-correlation for engineering materials including ferrous and nonferrous.
  • BTME404-18.2 Explain the use and importance of various heat treatment processes used for engineering materials and their practical applications.
  • BTME404-18.3 Understand the various structural changes that occurred in metals with respect to time-temperature transformations.
  • BTME404-18.4 Understand the various structural changes that occurred in metals with respect to time-temperature transformations.

BTME405-18 Theory of Machines II 
Students will be able to

  • BTME405-18.1 Understand the basic concepts of inertia forces & couples applied to reciprocating parts of a machine.
  • BTME405-18.2 Understand balancing of rotating and reciprocating parts of machines.
  • BTME405-18.3 Select a suitable type of gear for different applications and analyze the motion of different elements of gear trains.
  • BTME405-18.4 Understand the concept and application of the gyroscopic effect. 
  • BTME405-18.5 Gain knowledge of kinematic synthesis.

EVS101-18 Environmental Sciences 

Students will be able to

  • EVS101-18.1 Understand environmental problems at the local and national levels through literature and general awareness.
  • EVS101-18.2 Gain practical knowledge by visiting wildlife areas, environmental institutes, and various personalities who have done practical work on various environmental issues.
  • EVS101-18.3 Apply an interdisciplinary approach to understand key environmental issues and critically analyze them to explore the possibilities to mitigate these problems.
  • EVS101-18.4 Reflect critically on their roles and identities as citizens, consumers, and environmental actors in a complex, interconnected world.

BTME406-18 Applied Thermodynamics Lab 
Students will be able to

  • BTME406-18.1   Understand the construction and working of IC engines and evaluate their performance.
  • BTME406-18.2   Identify the various types of boilers & condensers.

BTME407-18 Fluids Mechanics Lab 
Students will be able to

  • BTME407-18.1 Conduct experiments on scaled-down models or on actual size hydraulic machines and evaluate results in terms of unit or specific quantities for comparison purposes.
  • BTME407-18.2 Understand the working of various hydraulic machines (turbines and pumps) and can suggest remedial solutions for various faults.

BTME408-18 Material Engineering Lab 
Students will be able to

  • BTME408-18.1 Analyse the microstructure of different ferrous and non-ferrous samples.
  • BTME408-18.2 Explore the effect of heat treatment on various engineering materials by analyzing their microstructure and hardness.

Semester V

BTME501-18 Heat Transfer 
Students will be able to

  • BTME501-18.1 Understand the basic principles of conduction, radiation, and convection heat transfer. Students will demonstrate an understanding of the basic concepts of conduction, radiation, and convection heat transfer
  • BTME501-18.2 Extend the basic principle of conservation of energy to systems that involve conduction, radiation, and heat transfer. Students will demonstrate an understanding of the concept of conservation of energy and its application to problems involving conduction, radiation, and/or convection heat transfer. This principle will be used to formulate appropriate mathematical models and associated thermal boundary conditions.
  • BTME501-18.3 Identify, formulate, and solve engineering problems involving conduction heat transfer. Students will demonstrate the ability to formulate practical conduction heat transfer problems by transforming the physical system into a mathematical model, selecting an appropriate solution technique, and evaluating the significance of the results.
  • BTME501-18.4 Identify, formulate, and solve engineering problems involving forced convection heat transfer, natural convection heat transfer, and heat exchangers. Students will demonstrate the ability to formulate practical forced and natural conduction heat transfer problems by transforming the physical system into a mathematical model, selecting an appropriate solution technique, and evaluating the significance of the results. Students will also demonstrate an ability to analyze the performance of heat exchangers
  • BTME501-18.5 Identify, formulate, and solve engineering problems involving radiation heat transfer among black surfaces and among diffuse gray surfaces. Students will demonstrate the ability to formulate practical radiation heat transfer problems by transforming the physical system into a mathematical model, selecting an appropriate solution technique, and evaluating the significance of the results

BTME503-18 Manufacturing Processes 

Students will be able to

  • BTME503-18.1 Know about a wide variety of conventional manufacturing processes for the processing of engineering materials.
  • BTME503-18.2 Learn about various additive manufacturing processes. 
  • BTME503-18.3 Understand the principle of various joining processes.
  • BTME503-18.4 Learn the basic principle and working of various non-conventional machining processes.
  • BTME503-18.5 Learn the basics of jigs and fixtures and various tooling techniques.

 

BTME504-18 Management & Engineering Economics 

Students will be able to

  • BTME504-18.1 Explain the development of management and the role it plays at different levels in an organization
  • BTME504-18.2 Comprehend the process & role of effective planning, organizing, and staffing for the development of an organization.
  • BTME504-18.3 Understand the necessity of good leadership, communication, and coordination for establishing effective control in an organization.
  • BTME504-18.4 Understand engineering economics demand supply and its importance in economic decision making and problem solving.
  • BTME504-18.5 Calculate present worth, annual worth & IRR for a different alternative in economic decision making.
  • BTME504-18.6 Under the procedure involved in the estimation of cost for a  simple component, product costing and depreciation, its method making.

 

BTME505-18 Heat Transfer Lab

Students will be able to

  • BTME505-18.1 Design and fabricate the experimental setups related to heat transfer phenomena.
  • BTME505-18.2 Measure and analyze different heat transfer parameters.
  • BTME505-18.3 Apply finite difference methods to solve simple heat transfer problems.

BTME506-18 Manufacturing Processes Lab 
Students will be able to

  • BTME506-18.1 Determine/calculate the clay content, moisture content, hardness, permeability, and grain fineness number of the molding sand samples.
  • BTME506-18.2 Use oxy-acetylene gas welding, manual arc welding, MIG, TIG, and spot-welding processes to make various joints.
  • BTME506-18.3 Use machine tools such as lathe, shaper, and milling machine for machining/cutting various profiles on workpieces.
  • BTME506-18.4 Learn about the constructional features and working of grinding machines, hydraulic press, drawbench, rolling mills, drawing, and extrusion equipment.

BTME507-18 Numerical Methods Lab 
Students will be able to

  • BTME507-18.1 Understand different implementation modes of numerical methods.
  • BTME507-18.2 Use the numerical methods with the understanding of the limitations of these methods for solving problems.
  • BTME507-18.3 Develop and implement their own computer programs.
  • BTME507-18.4 Solve problems more accurately and efficiently in low computational time.
  • BTME507-18.5 Handle the problems conveniently which are difficult to deal with manually.

Semester VI

BTME601-18 Reirrigation & Air Conditioning 
Students will be able to

  • BTME601-18.1 Illustrate the fundamental principles and applications of refrigeration and air conditioning system
  • BTME601-18.2 Obtain cooling capacity and coefficient of performance by conducting tests on refrigeration systems.
  • BTME601-18.3 Calculate the energy requirements of cooling and heat equipment for air conditioning applications.
  • BTME601-18.4 Explain the properties, applications, and environmental issues of different refrigerants.
  • BTME601-18.5 Demonstrate an ability to analyze psychrometric processes and cycles of air conditioning systems.

BTME602-18 Mechanical Measurements & Meteorology 
Students will be able to

  • BTME602-18.1 Interpret characteristics of measuring instruments.
  • BTME602-18.2 Describe various industrial metrological instruments for measuring linear, angular, screw thread, and gear profiles.
  • BTME602-18.3 Apply the fundamental principles for measurement of various mechanical quantities like Force/torque etc.
  • BTME602-18.4 Develop ability for problem-solving and decision-making by identifying and analyzing the cause for variation and recommending suitable corrective actions for quality measurements.

BTME603-18 Automobile Engineering 
 Students will be able to

  • BTME603-18.1 Identify the different parts of the automobile.
  • BTME603-18.2 Explain the working of various parts like engine, transmission, clutch, brakes, steering, and suspension systems.
  • BTME603-18.3 Develop a strong base for understanding vehicle safety systems and future developments in the automobile industry.

BTME604-18 Introduction to Industrial Management 
Students will be able to

  • BTME604-18.1 Understand the complexities associated with management in the organizations and integrate the learning in handling these complexities.
  • BTME604-18.2 Demonstrate the roles, skills, and functions of management. BTME604-18.3 Understand the concepts related to industrial management.

BTME605-18 Refrigeration & Air Conditioning Lab 

Students will be able to

  • BTME605-18.1   Conduct and analyze the experimental data on the performance of the vapor compression refrigeration systems in domestic refrigerators and water coolers.
  • BTME605-18.2 Conduct and analyze the experimental data on the performance of the Electrolux Refrigerator
  • BTME605-18.3 Conduct the performance of the window-type room air conditioner and system.
  • BTME605-18.4 Analyze the industrial setup for the working and use of the vapor compression refrigeration system in cold storage.

BTME606-18 Mechanical Measurements & Meteorology Lab 
Students will be able to

  • BTME606-18.1 Demonstrate the use of instruments for measuring linear (internal and external), angular dimensions, and surface roughness
  • BTME606-18.2 Identify proper measuring instruments and know the requirement of calibration, errors in measurement, etc.
  • BTME606-18.3 Apply analytical and experimental methods to make measurements and to find and correct defects in measurement systems.

BTME607-18 Automobile Engineering Lab 
Students will be able to

  • BTME607-18.1 Identify Construction, working, preventive maintenance, troubleshooting, and diagnosis of various Automobile Systems.
  • BTME607-18.2 Understand the importance and features of different systems like the axle, differential, brakes, steering, suspension, balancing, etc.
  • BTME607-18.3 Identify Modern technology and safety measures used in Automotive Vehicles.

BTME610-18 Mechatronics
Students will be able to

  • BTME610-18.1 Design mux, demux, flip-flops, and shift registers.
  • BTME610-18.2 Describe the block diagram, registers, ALU, bus systems, timing & control signals, instruction cycles, and interrupts of 8085 microprocessors.
  • BTME610-18.3 Apply the concept of 8085 microprocessor instruction sets and addressing modes in writing an assembly language program for a given problem.
  • BTME610-18.4 Describe the interfacing of memory, 8255 PPI, ADC, DAC, 7- segment LED system, stepper motor, 8251 and 8253 ICs with 8085 microprocessors.

List of lab Apparatus

 

Material Engineering Lab (BTME408-18)

Sr. No.

Name of Major Equipment

1

Abrasive disk cut of machine 

2

Belt Sander Machine

3

Muffle Furnace

4

Polishing Machine

5

Jominy’s End quench test Equipment

6

Metallurgical Mounting Press

7

Rockwell Hardness Tester

Strength of Material Lab (BTME306-18)

Sr. No.

Name of Major Equipment

1

Rockwell Hardness Tester

2

Impact Testing Equipment

3

Fatigue Testing Machine

4

Compression Testing Machine 

5

Torsion Testing Machine

6

Universal Testing Machine

Fluid Machines Lab (BTME407-18)

Sr. No.

Name of Major Equipment

1

Metacentric apparatus

2

Drag coefficient apparatus 

3

Centrifugal Pump

4

Bernoulli apparatus

5

Discharge Venturi meter/ Orifice meter

6

Discharge over the notch.

7

Reynolds number apparatus

8

Flow through an orifice mouthpiece 

9

Losses due to friction in pipeline Apparatus

10

Loss in a pipeline due to sudden expansion/ sudden contraction/ bend.

11

Pitot tube set  apparatus

 

Applied Thermodynamics Lab (BTME406-18)

Sr no.

Name of Major Equipment

1

Single Cylinder Diesel Engine Testing Rig

2

Multi Cylinder Petrol Engine Testing Rig

3

Air Compressor Testing Rig

4

Connecting Rod

5

Piston

6

Surface Condenser

7

Air Preheater

8

Model of Cooling Tower (Non-working Type)

9

De-Level Turbine

10

Pressure and Velocity Compounded Steam Turbine

11

Air or Steam Pressure Turbine

12

Pure Reaction & Hero's Steam Turbine

13

Model of Lancashire Boiler

14

Model of Babcock & Wilcox Boiler

Manufacturing Processes Lab (BTME506-18)

Sr no.

Name of Major Equipment

1

Clay Content Tester 

2

Infrared Moisture Balance

3

Rapid Moisture Meter

4

Core Hardness Tester With Dial Graduated

5

Mould Hardness Tester With Dial Graduated

6

Permeability Meter With Two No. Orifice Large & Small, Permeability Scale With 1/2 Kg Mercury

7

Shatter Index Tester

8

Sand Muller, Motorized, Lab Model

9

Sand Rammer With Specimen Tube & Stripper Along With Tensile & Transverse Attachment

10

Universal Sand Strength Machine, Manually Operated For Conducting Compression, Shear, Strength, Transverse & tensile

11

Clay Content Tester 

12

Infrared Moisture Balance

12

Rapid Moisture Meter

14

Core Hardness Tester With Dial Graduated

Numerical Methods Lab (BTME507-18)

Sr no.

Name of Major Equipment

1

CPU, Mouse, LCD, Keyboard, Auto CAD Software, MatLab, Solid Works

2

CNC Turning Machine

3

CPU, Mouse, LCD, Keyboard, Auto CAD Software, MatLab, Solid Works

Mechanical Measurements & Metrology Lab (BTME606-18)

Sr no.

Name of Major Equipment

1

Sine Bar

2

Dial Bore Gauge

3

Surface Roughness Tester

4

Surface Roughness Tester Printer

5

Slip Gauge

6

Profile Projector

7

Tool Maker Microscope

8

Vernier Height Gauge

9

Micrometer Inside

10

Micrometer Inside

11

Vernier Caliper

12

Vernier Caliper Digital

Automobile Engineering Lab (BTME607-18)

Sr no.

Name of Major Equipment

1

Electrical Test Bench

2

Electrical Panel

3

HeadLight Beam Adjuster

4

Valve Refacing Machine

5

Nozzle Pressure Tester

6

Battery Charger

7

Battery Tester

8

Hindustan Motors 4 Stroke 4 Cylinder Diesel Engine With Rear Wheel Drive Cut Section Model

9

Air Compressor

10

Automotive Electrical Training Panel

11

Auto Electrical Test Bench

12

Bajaj Scooter Chetak

13

Heads Of Different Automobiles

Industrial Automation and Robotics Lab

Sr no.

Name of Major Equipment

1

Pneumatic Trainer

2

Hydraulic  Trainer 

3

Robotic Arm

4

Hydraulic / Pneumatic  Valves

5

Pneumatic Trainer

6

Hydraulic  Trainer 

 

Refrigeration and Air Conditioning Lab (BTME605-18)

Sr. No.

Name of Major Equipment

1

Vapour compression test rig

2

Domestic refrigerator test rig

3

Air conditioning test rig

4

Vapour absorption test rig 



Mechanical Vibration Lab

Sr no.

Name of Major Equipment

1

Single Wire Torsion Pendulum

2

Coupled Pendulum

3

Cantilever Beam

4

Dynamic Absorber

5

Two Disc Along With Bar

6

Single Wire Torsion Pendulum



Theory of Machine Lab (BTME307-18)

Sr. No.

Name of Major Equipment

1

Universal Governor

2

Gyroscope apparatus

3

Static dynamic Balancing

4

Epicyclic gear train

5

Journal bearing

6

Cam Analysis Apparatus

 

Heat Transfer Lab (BTME505-18)

Sr. No.

Name of Major Equipment

1

Dropwise& Film Wise Condensation Apparatus

2

Fluidized Bed Heat Transfer Unit 

3

Heat Transfer in Natural Convection Apparatus

4

Heat Transfer from a Pin Fin Apparatus

5

Heat Pipe Demonstrator

6

Pool Boiling Apparatus

7

Stefan Boltzmann's Apparatus

8

Thermal Conductivity of Insulation Powder Apparatus

9

Thermal Conductivity of Metal Rod Apparatus

10

Thermal Conductivity of Insulating Slab Apparatus

 

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