Top Engineering College in Pune, India - DYPIEMR

Department Info


WELCOME TO DEPARTMENT OF MECHANICAL ENGINEERING

Degree course offered

B. E. (Mechanical)

Course Duration

4 years

Approved by

AICTE, New Delhi

Affiliated to

Savitribai Phule Pune University

Year of Establishment

2012

Intake

120

The department of Mechanical engineering being one of the oldest and the finest departments of the college is having learned and experienced faculty, who with their rich experience in academic and industry are able to enlighten the students about the latest trends and practical aspects of engineering.

The department has very good academic excellence and has continuously produced the finest set of vibrant and proactive engineers.

The department offers four years Degree course in Mechanical Engineering, the syllabus of which has been recently upgraded to meet the industries need for up-to-date technical knowledge, managerial skills, and exposure to Quality management and computers. The department has excellent facilities for the students to enhance their skills in various fields of mechanical engineering. Our engineers are waiting for an opportunity to prove their mettle at work place that is equipped with their hard earned degrees.


MISSION & VISION

Vision

 To be among the top institutions producing competent mechanical engineers

Mission

1) To impart quality education and to enhance students’ skills to make them ready for their professional careers.
2) To provide an education that builds within students a solid foundation in mechanical engineering principles with creativity and innovation.
3) To develop linkages with other educational institutes and industries.
4) To encourage students to become entrepreneurs and inculcate professional ethical practices by providing them with necessary inputs.



PO


PO'S

PO1: Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals for the solution of complex problems in mechanical engineering

PO2: Problem analysis: Identify, formulate, research literature, and analyze complex mechanical engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.

PO03: Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs of mechanical engineering with appropriate consideration for public health and safety, and cultural, societal

PO4: 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 conclusion for mechanical engineering problems.

PO5: Modern tool usage: 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

PO6: The engineer and society: 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.

PO7: 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.

PO8: Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.

PO9 Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.

PO10: Communication: Communicate effectively on complex engineering activities with the engineering community and with t h e 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.

PO11: Project management and finance: Demonstrate knowledge and understanding of t h e 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.

PO12: 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 changes.

PEO


PEO'S

1.Graduates will design, analyses and develop engineering solutions that meet the needs of various industries.

2.Graduates will continue their education in engineering an interdisciplinary areas to emerge as experts, educators, entrepreneurs and researchers in their chosen fields.

3.Graduates will work effectively as a part of teams on multidisciplinary projects.

4.Graduates will exhibit strong leadership, inter-personal and communication skills with concern for society and environment.


PSO


PSO'S

Mechanical engineering graduates will be able to

PSO1: Graduates will be able to design and analyse mechanical systems.

PSO2: Graduate will be able to use the CAD/CAM/CAE software effectively in the design, analysis and manufacturing of mechanical components and systems.


CO



 

Department of Mechanical Engineering

 

SE sem-I 

Subject:

Material Science

Subject Code:

202044

CO1

Students will be able to identify crystal structure and analyze different lattice parameters.

CO2

Students will be able to relate crystal structure and imperfections in crystals with mechanical behaviour of materials.

CO3

Student will be able to understand and determine mechanical properties using destructive and non-destructive testing of materials.

CO4

Student will be able to understand metal corrosion and surface modification methods.

CO5

Students will be able to understand powder Metallurgy process and its application.

Subject:

Manufacturing Process I

Subject Code:

202041

CO1

Implement their knowledge in foundry practices like pattern making, mold making, Core making and Inspection of defects & for different forming processes i.e. Rolling, Forging, Extrusion and Drawing Processes

CO2

Implement their knowledge for different types of plastics which plastic processing is to be used.

CO3

Apply the knowledge of welding and joining processes for different kind of applications and in design consideration for sheet metal working

CO4

Apply the knowledge of lathe machine for various machining operations.

Subject:

M-III

Subject Code:

 

207002

CO1

Solve higher order linear differential equations and apply to modeling and analyzing  mass spring systems.

CO2

Apply Laplace Transform and Fourier Transform techniques to solve differential  equations involved in vibration Theory, Heat transfer and related engineering  applications.

CO3

Apply Statistical methods like correlation, regression analysis in analyzing,  interpreting experimental data and probability theory in testing and quality control.

CO4

Calculate the basic concepts in vector algebra, the gradient of scalar valued functions and curl, divergence of vector valued functions and explain their physical meaning in terms of fluid flow.

CO5

Evaluate integrals of vector field functions over curves, surfaces and domains in two- and three-dimensional space

CO6

Solve various partial differential equations such as wave equation, one and two dimensional heat flow equations.

Subject:

Thermodynamics

Subject Code:

 

202043

CO1

Apply various laws of thermodynamics to various systems and processes

CO2

Apply the concept of Entropy, calculate heat, work and other important thermodynamic properties for various ideal gas processes

CO3

Estimate performance of various Thermodynamic gas power cycles and gas refrigeration cycle and availability in each case

CO4

Estimate the condition of steam and performance of vapour power cycle and vapour compression cycle

CO5

Estimate Stoichiometric air required for combustion, performance of steam generators and natural draught requirements in boiler plants

CO6

Use Psychrometric charts and estimate various essential properties related to Psychrometry and processes

Subject:

Strength of Materials

Subject Code:

202044

CO1

An ability to apply knowledge of mathematics, science, for engineering applications

CO2

An ability to design and conduct experiments, as well as to analyze and interpret data

CO3

An ability to analyze different stress and failure of component

CO4

An ability to analyze different load conditions on beam and column

TE SEM-I 

Subject:

HEAT TRANSFER

Subject Code:

 

302042

CO1

Analyze the various modes of heat transfer and implement the basic heat conduction equations for steady one dimensional thermal system.

CO2

Implement transient heat conduction and analyze the performance of fins

CO3

Formulate and analyze a thermal system in convection and radiation mode of heat transfer

CO4

Analyze heat exchanger performance by using various methods

Subject:

TURBO MACHINES

Subject Code:

203044

CO1

To understand Impulse-Momentum and thermodynamic principles and their applications for various Turbo Machines such as Impulse & Reaction Turbines, Centrifugal Pumps & Compressors.

CO2

To select a suitable Turbo Machine for real life applications.

CO3

To design different Turbo Machines

CO4

To apply velocity triangle analysis for design and performance evaluation of various Turbo Machines.

Subject:

Metrology and Quality control

Subject Code:

302045

CO1

Apply knowledge of various tools and techniques used to determine geometry and dimensions of components in engineering applications

CO2

Design gauges, calibrate the mechanical component to meet desired needs in engineering field

CO3

Conduct investigation of complex problems to perform experiments, as well as to analyze and interpret data

CO4

Use Quality Control Techniques and its applications in engineering and management field to work in a team

Subject:

Theory of Machine II

Subject Code:

302048

CO1

Calculate Gear Parameters and force analysis of gears

CO2

Draw cam profile diagram and to calculate cam jump speed

CO3

synthesize four bar and slider crank mechanism by graphical and analytical method

CO4

Calculate gyroscopic couple and to demonstrate working principle of Gyroscope

Subject:

Design of Machine Elements I

Subject Code:

 

302041

CO1

To calculate stresses in mechanical component and find failure modes of mechanical  elements.

CO2

Design mechanical elements for fluctuating loads.

CO3

To analyze and design power transmission shafts based on ASME code and failure  theories.

CO4

To determine the dimensions of structural joints.

BE SEM-I 

Subject:

Hydraulics and Pneumatics

Subject Code:

402041

CO1

Explain symbols used in fluid power circuits and apply governing laws to given system.

CO2

Identify basic elements used in building Hydraulic circuits, their operational features and uses.

CO3

Explain principle of operation of Pneumatic control circuits and select actuators and control components for given applications.

CO4

Explain design and analyze industrial applications of hydraulic and pneumatic system.

Subject:

Operation Research

Subject Code:

402045 B

CO1

Define the optimal need & resources, to save time and cost for various organizations

CO2

Apply the mathematical formulations for optimizing and analyzing the material  resources and human resources.

CO3

Formulate the cost effective strategies for processes and service requirements

CO4

Apply knowledge to engineering project such as break even analysis, payback period, replacement analysis etc

Subject:

Automobile Engineering

Subject Code:

402045 A

CO1

To compare and select the proper automotive system for the vehicle.

CO2

To analyse the performance of the vehicle.

CO3

To diagnose the faults of automobile vehicles

CO4

To apply the knowledge of EVs, HEVs and solar vehicles

Subject:

Energy Audit and Management

Subject Code:

402045 C

CO1

Compare energy scenario of India and World and Carry out Energy Audit of the Residence / Institute/ Organization.

CO2

Evaluate the project using financial techniques.

CO3

Identify and evaluate energy conservation opportunities in Thermal Utilities and Electrical Utilities.

CO4

Identify the feasibility of Cogeneration and WHR.

Subject:

HVAC & R

Subject Code:

402044C

CO1

Determine the performance parameters of trans-critical & ejector refrigeration systems and Estimate thermal performance of compressor, evaporator, condenser and cooling tower.

CO2

Describe refrigerant piping design, capacity & safety controls and balancing of vapour compressor system.

CO3

Describe IAQ, ventilation and air distribution system and Estimate heat transmission through building walls using CLTD and decrement factor &time lag methods with energy-efficient and cost-effective measures for building envelope.

CO4

Explain working of types of desiccant, evaporative, thermal storage, radiant cooling, clean room and heat pump air-conditioning systems.

Subject:

CAD/CAM & Automation

Subject Code:

402042

CO1

Describe the mathematical basis in the technique of representation of 2D geometric entities for geometric transformations and use analytical & synthetic curves, surfaces and solids in geometric modeling.

CO2

Discretize simple mechanical elements like beam & trusses and apply the boundary condition to check sustainability for applied Loads by analytical and using analysis software.

CO3

Write CNC part program for Turning and Milling operations and generate tool path using CAM software.

CO4

Understand and apply various advanced manufacturing techniques for developing engineering products.

CO5

Understand different automation strategies & robot systems and their applications in manufacturing industries.

Subject:

Dynamics of Machinery

Subject Code:

402043

CO1

To calculate the natural frequencies and free vibration response of undamped and damped single-degree-of-freedom systems

CO2

To determine the forced vibration response of single-degree-of-freedom systems

CO3

To determine the natural frequencies and mode shapes of two-degree-of-freedom systems

CO4

To determine the unbalance in rotating and reciprocating machinery and suggest corrective measures for balancing them

CO5

To understand the basics of vibration measurement and control, to measure vibrations and carry out modal analysis

CO6

To study the basics of noise measurement and to measure it

Subject:

Finite Element Analysis

Subject Code:

402050

CO1

Derive and use 1-D and 2-D element stiffness matrices and load vectors from various methods to sol for displacements and stresses.

CO2

Apply mechanics of materials and machine design topics to provide preliminary results used for testing the reasonableness of finite element results.

CO3

Explain the inner workings of a finite element code for linear stress, displacement, temperature and modal analysis.

CO4

Interpret the results of finite element analyses and make an assessment of the results in terms of modeling (physics assumptions) errors, discretization (mesh density and refinement toward convergence) errors, and numerical (round-off) errors.

SE Sem-II 

Subject:

Engineering Metallurgy

Subject Code:

202049

CO1

Students will be able to identify and estimate different parameters of system such as phases, variables,
 component, grains, grain boundary and degree of freedom.

CO2

Students will be able to prepare, observe and analyze microstructure of steel and cast iron using optical
 metallurgical microscope.

CO3

Students will be able to analyze effect of heat treatment on properties of steels.

CO4

Student will be able to select appropriate materials for various applications.

Subject:

Theory Of Machine I

Subject Code:

202048

CO1

Identify Mechanism in real life applications.

CO2

Compare moment of inertia of rigid bodies by analytical and experimental methods.

CO3

Solve problems for static and dynamic force analysis of simple mechanical elements.

CO4

Analyze velocity and acceleration by kinematic analysis of simple mechanisms.

CO5

Compare moment of inertia of rigid bodies by analytical and experimental methods.

CO6

Analyze velocity and acceleration of mechanisms involving Coriolis component of acceleration and Klein’s construction.

Subject:

Fluid Mechanics

Subject Code:

202045

CO1

Remember and apply various properties and laws of fluid mechanics in solving the problems.

CO2

Analyze the type of fluid flow and evaluate different kinematic parameters of the fluid motion.

CO3

Apply Bernoulli’s equation for problems in fluid flow

CO4

Evaluate type of flow based on Reynold's No. & to draw velocity profile for the same.

CO5

Analyze & calculate major and minor losses of flow through the pipe & to do dimensional analysis by using Bukinghum's Π- Theorem

CO6

Apply and analyze velocity boundary layer to find parameters like boundary layer thickness, momentum thickness, energy thickness & to calculate Drag & Lift forces on emmersed bodies.

Subject:

Applied Thermodynamics

Subject Code:

202050

CO1

Explain the basic components of IC engine and its working.

CO2

Compare Air standard, Fuel Air and Actual cycle, and make out various losses in real cycles

CO3

Explain the basic phases of combustion of SI and CI engines and knocking phenomenon.

CO4

Explain the fuel feed system, starting system, ignition system, and turbo-charging.

CO5

Carry out Testing of I. C. Engines and analyze its performance.

CO6

Calculate the performance of compressors

Subject:

Electrical And Electronics Engineering

Subject Code:

203152

CO1

Develop the capability to identify and select DC motor and its speed control mehod for given industrial application.

CO2

Select and identify suitable induction motor with speed control method in given application.

CO3

Select Special electrical motors for appropriate application based on their characteristics.

CO4

Program Arduino IDE using conditional statements

CO5

Develop the concept of ATmega 328P.

CO6

Interfacing sensors with Arduino IDE.

TE SEM-II 

Subject:

Mechatronics

Subject Code:

302050

CO1

Identify of key elements of mechatronics system and its representation in terms of a block diagram

CO2

Evaluate the transfer function using block diagram reduction.

CO3

Understand the concept of signal processing and interfacing systems such as ADC, DAC, digital I/O.

CO4

Develop PLC ladder programming and implement it to the real life system.

CO5

Time and Frequency domain analysis of the mechatronics system.

CO6

Implement PID control for Mechatronics systems.

Subject:

Numerical Methods and Optimization

Subject Code:

302047

CO1

Describe errors in Numerical methods and estimate root of the equation.

CO2

Apply appropriate method to devise solution of Simultaneous Equations.

CO3

Generate solution for real life problem using optimization techniques.

CO4

Evaluate differential equation and integral functions to develop solution of engineering problems.

CO5

Formulate mathematical relation and compute intermediate value using given data set.

CO6

Prepare flowcharts for Numerical methods.

Subject:

Design of Machine Elements II

Subject Code:

302048

CO1

Determine stresses in gears using the Lewis equation or Buckingham’s equations.

CO2

Calculate the life of ball or roller bearing and Select bearings from manufacturer’s  catalogue.

CO3

Determine specifications of belts and selection of flat and V belt from manufacturer’s  catalogue.

Subject:

Refrigeration and Air Conditioning

Subject Code:

302049

CO1

Illustrate the fundamental principles and applications of refrigeration and air conditioning Systems.

CO2

Calculate cooling capacity and coefficient of performance of vapor compression refrigeration systems and vapor absorption systems.

CO3

Calculate cooling load for air conditioning systems used for various applications.

CO4

Design air conditioning ducts using velocity method, equal friction method or static regain method

Subject:

Manufacturing Process-II

Subject Code:

302051

CO1

Student should be able to identify various process parameters and their effect on processes.

CO2

Student should be able to apply the knowledge of various machining processes.

CO3

Student should be able to apply the knowledge of various Finishing processes .

CO4

Student should be able to figure out application of modern machining techniques

CO5

Student should be able to apply the knowledge of programming in modernization of machining

CO6

Students should get the knowledge of Jigs and Fixtures for variety of operations

BE SEM-II 

Subject:

Energy Engineering

Subject Code:

402047

CO1

Describe the power generation scenario, the layout components of thermal power plant and analyze the improved Rankin cycle, Cogeneration cycle.

CO2

Optimization of Energy Conversion plant with respect to the available resources

CO3

Scope of alternative erection of optimized, suitable plant at the location depending upon geographical conditions

CO4

Realize the details of diesel power plant, gas power plant and analyze gas turbine power cycle.

CO5

Emphasize the fundaments of non-conventional power plants

CO6

Describe the different power plant electrical instruments and basic principles of economics of power generation

Subject:

Mechanical System Design

Subject Code:

402048

CO1

Design Machine Tool Gear Box

CO2

Learn optimum design principles and apply it to mechanical components

CO3

Design Material Handling Systems with stating appropriate specification

CO4

Design Pressure Vessels

CO5

Design IC Engine Components

CO6

Understand Optimum design and apply it to system level projects from concept to product point of view

Subject:

Solar and wind energy

Subject Code:

402050B

CO1

Design of solar food drier for domestic purpose referring existing system

CO2

Design of parabolic dish solar cooker for domestic purpose referring existing system

CO3

Design of solar photovoltaic system for domestic purpose referring existing system

CO4

Design miniature wind mill for domestic purpose referring existing system

CO5

To understand fundamentals of solar and Wind Energy



ICT


Yantriki: The power of Machines
         by Asst. Prof. P. Tripathi :  
For competitive exams as well as university level exams in mechanical engineering.

Website: learn NMO
         by Asst. Prof. Keval Nikam : For material on NMO, RAC, EUM, HT and Training & Placement.

Watch and Learn - Open Source Software Scilab
         by Asst. Prof. Keval Nikam 

Blog : Notes on Mechanical Courses      
         by Asst. Prof. A. Adwant 

 Kahoot Quizzes on Basic Mechanical Engineering
         by Asst. Prof. Sidharth Shete

Kahoot Quizzes on Manufacturing Process I
         by Asst. Prof. Y. Jangle

    





Testimonials



Testimonials

Vineet Kadam (3D PLM, Pune) (ME 2012-2016)

Our world is a global village where education plays a very crucial and wide role in every person’s life. It was the same for me also when I finished my school education. I was determined to join engineering but was confused which college to join. That was the moment when I got to know about Dr. D.Y. Patil Institute of Engineering, Management and Research. I went to the college; saw it for myself and when I saw the facilities in the college I was impressed by the infrastructure. The way all the staff members and management approached me and my parents I was assured that I was in safe hands. All these four years I was trained in my specific subjects by the most efficient faculty members for which I am extremely grateful. Now with all the knowledge that I was provided with by the faculty members I have been placed in 3D PLM, one of the most reputed organizations. I would like to thank and extend my sincere gratitude to the Management, Head of the department and all the Faculty members at this juncture. I feel extremely honored and proud to be a part of this prestigious institution.

 

 


Arshdeep Bhanot (ME 2012-2016) (Captain – INDIAN ARMY)

Studying at DYPIEMR was one of the best decisions I have made. It is unforgettable. I have grown up as an individual as well as learnt to interact and talk to people from different backgrounds. I enjoyed the caring and friendly environment, great facilities, and the variety of services offered. The standards of a new institute started at a very high level, which always made me feel well supported.  Fabulous and rewarding is how I would describe my four years at DYPIEMR. Their strong academic programs, readily accessible faculty, and a variety of student resources created an excellent learning environment for me to gain practical skills and most important the confidence to develop officer like qualities which have made me who I am today!

The department of Mechanical Engineering played a vital role in imparting quality education and practical knowledge to me that helped and enabled me in opening a wide variety of career paths. The wonderful faculty and upcoming state of the art laboratories during my time at DYPIEMR along with the capable lab staff have greatly helped me in reaching new heights in my chosen career path too.

I wish the institute, my Engineering dept and all its faculty the very best and hope to see it touch greater heights. 

 

           

 

 
Mayuresh Ambekar (ME 2012-2016) (Entrepreneur-Carbon chrome customs)

My time at DYPIEMR was an experience I will cherish forever. I am very proud to have studied in this reputed Institute. My college has given me a wonderful life with good career as an entrepreneur.  With the constant motivation and support by the entire faculty I was able to start my own business and provide services across the country. Friendly attitude of the staff and their willingness to always offer a helping hand has made me feel a part of the DYPIEMR family and I shall always be grateful to the Management, Hod, faculty and all the friends for their constant guidance.




Suhel Shaikh (ME 2013-2017) (Flextronics, Hinjewadi)  

I am extremely grateful to the management and staff for their unstinting efforts to ensure a bright and prosperous future for us. During my days of study I found the college the best place to gain knowledge and experience. All the staff members, be it the teaching or the non teaching, were always ready to help in every way possible. I am happy to be a part of the DYPIEMR family and would surely recommend it to everyone whoever is planning to make their future with this wonderful Institution.





Shrikant Taras (ME 2013-2017) (Tata Motors, Pune)

Dr. D.Y. Patil Institute of Engineering, Management and Research has given an excellent technical education for all of us. The faculty is highly qualified and talented as well and provides full practical session related to the field. DYPIEMR supported and motivated us not only for technical activities but also for extra-curricular and co-curricular activities. Our college provides sport and cultural activities each year to develop our talents in extra-curricular activities. I will be always grateful to the Institute for giving me a precious circle of friends which are more than a family to me. I wish the Institute achieves the pinnacle of success in the coming years.

 

 
Devyani Patil (ME2013-2017) (General Electric Ltd.)

My ove