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First Year labs

Basic Mechanical Lab

About Lab

To learn the principles of work and energy. To acquire knowledge about the fundamentals of thermodynamic laws, concepts and principles.
To understand the principles of various cycles and to apply the thermodynamic concepts in various applications like IC engines and Air conditioning systems.
To understand the procedure of doing different tests like hardness, compression, torsion, tension and impact etc in various materials.
To know various ignition systems and testing of IC engines

Lab Outcomes

  • Describe the behaviour of materials upon normal external loads.
  • Predict the behaviour of the material under impact conditions.
  • Explain the process of air standard cycles and concept of internal combustion engine and system.
  • Demonstrate knowledge of the operating characteristics of common internal combustion engines.

Second Year labs

Material Science & Testing Lab

About Lab

Engaged in advanced education, research, and development in materials science and engineering, including materials discovery and/or processing, or in professional disciplines that benefit from an understanding of MSE such as business, medicine or law.
critical reasoning to identify fundamental issues and establish directions for investigation

Lab Outcomes

  • An ability to apply knowledge of mathematics, science, and engineering
  • An ability to design and conduct experiments, as well as to analyze and interpret data
  • An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability
  • The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context

Machine Drawing-I

About Lab

Student will get methodically and well thought out presentation that covers fundamental issuescommon to almost all areas of machine drawing.
Students have an ability to apply knowledge of Modelling, science & engineering.
Student can modelled this drawing even in CAD/CAM software by applying the basicknowledge of machine drawing.
Students will able to demonstrate an ability to design and conduct experiments, analyse andinterpret data and assembly and disassembly drawings knowledge will be provided.

Lab Outcomes

  • Analysis of complex design systems related to mechanical Engineering.
  • Making use of appropriate laboratory tools and design innovative methods.
  • To motivate students to develop new innovative methods for measuring productCharacteristics.
  • To enhance the ability to work as practicing mechanical engineers in manufacturing Industriesand consulting firms.
  • The broad education necessary to understand the impact of engineering solutions in a global,economic, environment and societal context

Fluid Mechanics Lab

About Lab

To compare the results ofanalytical models introduced in lecture to the actual behaviour of real fluid flows.
To discuss and practice standardmeasurement techniques of fluid mechanics and theirapplications.
To learn and practice writing technical reports. To work on small design projects.

Lab Outcomes

  • Identify, name, and characterize flow patterns and regimes.
  • Understand basic units of measurement, convert units, andappreciate their magnitudes.
  • Utilize basic measurement techniques of fluid mechanics.
  • Discuss the differences among measurement techniques.

Applied Thermodynamics Lab

About Lab

Apply the principles of thermodynamics to reacting systems and analyse the chemical equilibrium of a reacting system using the computer.
Describe the characteristics of the Otto, Diesel, and Brayton power cycles and the method of analysis of each cycle.
Analyse the Rankine cycle with various configurations to optimize the design of apower plant and use the computer to synthesize and evaluate the design.
Use the methods of analysis of refrigeration cycles with verification provided by an experimental refrigeration apparatus.
Apply the general relations and analysis techniques of subsonic and supersonic flows.

Lab Outcomes

  • Define the fundamentals of the first and second laws of thermodynamics and explain their application to a wide range of systems.
  • Analyse the work and heat interactions associated with a prescribed process path and to perform analysis of a flow system.
  • Evaluate entropy changes in a wide range of processes and determine the reversibility or irreversibility of a process from such calculations.

Manufacturing Science-I Lab

About Lab

To expose to the students the different techniques of joining processes for metals and non-metals.
To provide to the students an understanding and appreciation of the abrasive metal cutting processes.
To provide a proper insight about the importance of lubrication and wear problems.
To provide the students with a proper understanding of non-traditional machining processes.

Lab Outcomes

  • To be able to understand the application of the different joining techniques, and be able to select an appropriate technique according to a specific requirement.
  • To be conversant with the surface grinding process and to appreciate the effect of process parameters on the surface integrity aspects during the grinding process.
  • To understand the meaning and importance of tribology, and how it affects the performance of a component during its service life.
  • To understand the different wear mechanisms, how they occur, and how to analyse & interpret wear-related problems.
  • To understand and appreciate the use of an Electro Discharge Machine (EDM) as a non-traditional method of machining complex and hard materials.

Measurement, Metrology and Control Lab

About Lab

To provide to the students an understanding and appreciation of the science of Measurement.
To expose the students to various mechanical and electrical engineering measuring devices, and understand the different degree of accuracy obtained from different types of instruments.
Describe the evolution of quality standards and metrology

Lab Outcomes

  • Demonstrate different measurement techniques.
  • Reproduce the fundamental knowledge on metrology techniques.
  • Apply statistical process control and acceptance sampling procedures in a manufacturing environment to improve quality of processes / products.
  • Identify suitable metrological methods for measuring the components.
  • Explain the acceptance test for machines.
  • Outline the working of various optical measuring instruments

Machine Drawing-II

About Lab

Student will get methodically and well thought out presentation that covers fundamental issues common to almost all areas of machine drawing. 1. Students have an ability to apply knowledge of Modeling, science & engineering. 2. Student can modeled this drawing even in CAD/CAM software by applying the basic knowledge of machine drawing. 3. Students will able to demonstrate an ability to design and conduct experiments, analyze and interpret data and assembly and disassembly drawings knowledge will be provided.

Lab Outcomes

  • Analysis of complex design systems related to mechanical Engineering
  • Making use of appropriate laboratory tools and design innovative methods.
  • To motivate students to develop new innovative methods for measuring product

Electrical Machines Lab

About Lab

Lab Outcomes

  • To draw advanced plan, elevation and section of load bearing and framed structures for implementation in respective projects.

Third Year labs

Theory of Machine and design Lab

About Lab

Theory of Machines lab is to impart practical knowledge on design and analysis of mechanisms for the specified type of motion in a machine. With the study of rigid bodies motions and forces for the transmission systems, machine kinematics and dynamics can be well understood.

Lab Outcomes

  • Demonstration exercises are provided with wide varieties of transmission element models to understand machine kinematics. Various experiments with governors, gyroscopes, balancing machines and universal vibration facilities are available to understand machine dynamics.

Heat and Mass Transfer

About Lab

This course is designed to introduce a basic study of the phenomena of heat and masstransfer, to develop methodologies for solving a wide variety of practical engineering problems,and to provide useful information concerning the performance and design of particular systemsand processes. A knowledge-based design problem requiring the formulations of solid conduction and fluid convection and the technique of numerical computation progressively elucidated indifferent chapters will be assigned and studied in detail.

Lab Outcomes

  • Upon successful completion of this course, the student will be able to:
  • Account for the consequence of heat transfer in thermal analyses of engineering systems.
  • Analyze problems involving steady state heat conduction in simple geometries.
  • Develop solutions for transient heat conduction in simple geometries.
  • Obtain numerical solutions for conduction and radiation heat transfer problems.

Application of programming and OOPS Lab

About Lab

To familiarize the students with language environment.
To implement various concepts related to language.

Lab Outcomes

  • Be able to understand the difference between object oriented programming and procedural oriented language and data types in C++.
  • Be able to program using C++ features such as composition of objects, Operator overloading, inheritance, Polymorphism etc.
  • At the end of the course students will able to simulate the problem in the subjects like Operating system, Computer networks and real world problems.

Machine Design II Lab

About Lab

Lab Outcomes


Fluid Machinary Lab

About Lab

This course is an introduction to the Fluid machinery lab which contains two parts Pneumatics and Hydraulics. The objectives of the course is to enable the student
To understand the basic principles of pneumatics and hydraulics. To identify pneumatic and hydraulic components and their functions. Integration of the pneumatics/hydraulics circuits. To provide practical knowledge in verification of principles of fluid flow. To impart knowledge in measuring pressure, discharge and velocity of fluid flow. To understand Major and Minor Losses. To gain knowledge in performance testing of Hydraulic Turbines and Hydraulic Pumps at constant speed and Head

Lab Outcomes

  • To provide the students with a solid foundation in fluid flow principles. To provide exposure to modern computational techniques in fluid dynamics
  • To provide the student knowledge in calculating performance analysis in turbines and pumps and can be used in power plants.
  • Students can able to understand to analyse practical problems in all power plants and chemical industries.
  • Conduct experiments (in teams) in pipe flows and open-channel flows and interpreting data from model studies to prototype cases, as well as documenting them in engineering reports.
  • Given the required flow rate and pressure rise, select the proper pump to optimize the pumping efficiency.

Refrigeration and Air Conditioning Lab

About Lab

To motivate students to excel in research and to practice the technologies in the field of Thermal Engineering with Specialization in Refrigeration and Air-conditioning.
To provide students with a solid understanding of Thermal Engineering fundamentals andapplications required to solve real life problems.
To train students with scientific and Engineering knowledge so as to comprehend, analyse,and design products and systems pertaining to Refrigeration and Air-conditioning.
To inculcate an attitude to face challenging Thermal problems with confidence through multidisciplinary team approach.
To provide students with an academic environment that is aware of professional excellenceand leadership through interaction with practicing engineers and professional bodies.

Lab Outcomes

  • On successful completion of the programme, graduates will demonstrate knowledge of Numerical methods in solving complex thermalproblems in general and Refrigeration and Air conditioning problems in particular.
  • Graduates will be able to identify, define and solve Thermal Engineering problems.Graduates will have the potential to design and conduct experiments, analyse and interpretdata.
  • Graduates will demonstrate an ability to design systems, components or process as perneeds and specifications.
  • Graduates will have a broad perspective of the Thermal behaviour of commercial andIndustrial Refrigeration and Air conditioning systems. Graduates will demonstrate skills to use modern engineering tools, software andequipment to analyse problems.

Seminar

About Lab

The overall aim of the seminar series is to help develop an emerging field at the intersection of multi-disciplinary understandings of culture and education. It will build on the existing body of work on education and culture, but its aim is explore and develop new perspectives in this area. A seminar may be defined as a gathering of people for the purpose of discussing a stated topic. Such gatherings are usually interactive sessions where the participants engage in discussions about the delineated topic. The sessions are usually headed or led by one or two presenters who serve to steer the discussion along the desired path.

Lab Outcomes

  • to explore new research from a range of academic disciplines which sheds light on the questions outlined above
  • to showcase cutting edge research on education and culture from outstanding academic researchers from the UK and internationally
  • to bring together seminar participants from different disciplines such as Sociology, Philosophy, Psychology, Human Geography, Media Studies as well as Education and Cultural Studies
  • to encourage and financially support the participation of PhD students
  • to actively involve practitioners and users from each venue
  • to engage a core group of policy makers
  • to use the seminars to develop links between academics and stakeholders in the arts, library, media, community and educational sectors

Fourth Year labs

CAD/CAM Lab

About Lab

This Lab introduces students to software and equipment associated with CAD/CAM. This Lab helps students to build their basic concepts about CAD/CAM. This Lab helps students to learn the following using different CNC Machine’s
Basic working principal
Axis movements
G & M code Development
Programming and Test run of Programmed part

Lab Outcomes

  • Acquire knowledge of CAD-CAM engineering and be able to discriminate, evaluate, analyse and integrate existing and new knowledge
  • Be able to critically analyse and carry out independent research on complex problems of CAD-CAM
  • Be able to carry out systematic research, design appropriate experiments and tools, and interpret experimental and analytical data for development of technological knowledge in CAD-CAM engineering
  • Be able to communicate effectively with written, oral and visual means, the design and research outcomes to the stakeholders. Be able to recognize state-of-the-art need and will be able to engage in life-long learning
  • Be able to understand professional and ethical responsibility while carryout out research and design activities. Be able to critically analyse, scrutinize and rectify one’s decisions and actions and apply self-corrective measures

Industrial Training

About Lab

Better interaction between Technical institutions and industry is the need of the hour. This will have great bearing on the Engineering Curriculum, exposure of industrial atmosphere to engineering students and subsequent placement of young graduating engineers in industries across the country. With the advent of globalization and opening up of Indian economy to outside world, competitions among industries have become stiff. To solve their engineering problems they look up now to engg. Institutions. Similarly, there is an urgent need to prepare engineering students for jobs in multinational companies, by exposing them to newer technologies and engineering methodologies. These objectives can only be achieved well by bridging the gap between industry and the academic institute.

Lab Outcomes

  • After Completion of the course student should able to Know concepts in problem solving
  • To convert the industrial interactions and guest lecturers into internships and subsequently placements. To provide students with a platform to interact with the industry experts and alumni and obtain practical exposure through these interactions.
  • To write diversified solutions using C language
  • Consultancy projects.
  • Scholarships/fellowships instituted by industries at the Institute for students.
  • Practical training of students in industries.
  • Joint research programs and field studies by faculty and people from industries.
  • R&D Laboratories sponsored projects by industries at the Institute.

Project

About Lab

The overall objective of this project lab is to improve the Ability of the student to function effectively in teams to accomplish a common goal of enhancing their technical skills and to learn and practice latest technologies by undertaking research and industrial projects.

Lab Outcomes

  • This culminates with the successful completion of a year-long project drawn from the industry or research field;applying the concepts learnt throughout the graduation. the project is periodically reviewed by the mentors and the assigned instructor.

Automobile Engg. Lab

About Lab

To make the student understand about the various components of petrol engine and diesel engine by dismantling and assembling the parts like carburettor, alternator, water pump etc. and we have the multi cylinder diesel and petrol engines for easy learning.
To make the student understand about the various electrical components of an automobile and the wiring circuits and to test the starter motor, ignition system, batteries etc.
Study on engine components like:
Fuel systems
Ignition systems - Transmission systems - Steering systems
Suspension and braking systems
Layout of electrical wiring - Light and heavy vehicles

Lab Outcomes

  • Describe, explain and demonstrate the various aspects of automobile components and system which include engine components, fuel and ignition systems, transmission systems and steering systems, suspension and braking systems and electrical and electronics system.