WELCOME TO DEPARTMENT OF CHEMICAL ENGINEERING
Department Info
WELCOME TO DEPARTMENT OF CHEMICAL ENGINEERING
Degree course offered |
B.E. (Chemical) |
Course Duration |
4 years |
Approved by |
AICTE, New Delhi |
Affiliated to |
University of Pune |
Year of Establishnment |
2012 |
Intake |
60 |
Chemical Engineering is the branch of engineering that applies the physical sciences (e.g., chemistry and physics) and /or life sciences (e.g., biology, microbiology and biogeochemistry) together with mathematics and economics to processes that convert raw materials or chemicals into more useful or valuable forms. The main task of 'Chemical Engineers' is to develop economic ways of using materials and energy. A chemical engineer applies the skills of chemistry and engineering to fundamental problems in not just chemical, petrochemical, biochemical and materials processing industries, but also, pharmaceuticals, medical devices and drug delivery systems, semiconductor manufacturing, nanoscale technology, renewable energy, environmental control and many many more.
Today, the field of chemical engineering is a diverse one, covering areas from biotechnology and nanotechnology to mineral processing. A chemical engineer may be involved in industry or university research where they are tasked in designing and performing experiments to create new and better ways of production, controlling pollution, conserving resources and making these processes safer. They may be involved in designing and constructing plants as a project engineer. In this field, the chemical engineer uses their knowledge in selecting plant equipment and the optimum method of production to minimize costs and increase profitability. After its construction, they may help in upgrading its equipment. They may also be involved in its daily operations.
Vision
To impart quality education to produce Competent Chemical Engineers.
Mission
1. To create an effective atmosphere for academic excellence.
2. Impart quality education in basic and applied areas of Chemical Engineering.
3. Enable students to explore knowledge through creative learning by industry institute collaboration.
4. Inculcate values of leadership, teamwork and ethics.
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
- Graduates will be able to apply basics of science and chemical engineering for a successful career in chemical and allied engineering fields.
- Graduates will be able to effectively contribute to the multidisciplinary teams to undertake social, technical and engineering challenges.
- Graduates will be able to implement modern engineering tools for sustainable developments with integrity and ethical values.
CO
Department of Chemical Engineering |
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SE SEM-II 2018-19 |
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Subject: |
Chemistry-II |
Subject Code: |
209347 |
CO1 |
Able to identify different molecules and their structures, reactivity & properties. |
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CO2 |
Able to analyze & classify transition metals and coordination compounds |
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CO3 |
Able to demonstrate knowledge of adsorption and catalysis |
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CO4 |
Able to demonstrate knowledge of Analytical & Industrial chemistry |
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Subject: |
Heat Transfer |
Subject Code: |
209348 |
CO1 |
Able to demonstrate the basic concepts of conduction, radiation and convection heat transfer |
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CO2 |
Able to analyze experiments to interpret data |
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CO3 |
Able to demonstrate the concept of conservation of energy and its application to problems involving conduction, radiation and/or convection heat transfer |
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CO4 |
Able to identify, formulate and solve engineering problems |
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Subject: |
Principal of Design |
Subject Code: |
209349 |
CO1 |
Able to formulate and analyze stresses and strains in machine elements and structures subjected to various loads. |
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CO2 |
Able to apply multidimensional static failure criteria in the analysis and design of mechanical components |
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CO3 |
Able to analyze and design power transmission shafts carrying various elements with geometrical features. |
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CO4 |
Able to analyze and design structural joints like riveted and welded joints. |
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CO5 |
Able to design internal pressure vessels and external pressure vessels. |
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Subject: |
Chemical Engineering Thermodynamics-I |
Subject Code: |
209350 |
CO1 |
Able to apply the basic thermodynamics terminology and scope, thermodynamics laws and their applicability and limitations. |
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CO2 |
Able to evaluate an appropriate equation of state for representing the P-V-T behaviour of gases and/or liquids and the concept of sensible heat effects |
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CO3 |
Able to apply the second law of thermodynamics, various thermodynamics cycles and to identify thermodynamics properties of Fluids, types of thermodynamic diagram and availability. |
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CO4 |
Able to apply the working principle and performance of refrigerators and heat pumps |
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Subject: |
Mechanical Operations |
Subject Code: |
209351 |
CO1 |
Able to identify suitable type of screening and size reduction equipment for different particle sizes |
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CO2 |
Able to identify suitable type of thickeners and clarifiers for separation of suspended solid particles from liquid for example applications in Wastewater treatment plants |
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CO3 |
Able to apply fluidization and beneficiation techniques in Chemical Industries. |
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CO4 |
Able to identify a suitable type of agitator for mixing and agitation and to estimate power consumption in mixing and agitation. |
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CO5 |
Able to identify a suitable type of filter for filtration of slurry or a suspension. |
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CO6 |
Able to identify a suitable type of conveyor for transportation of different types of materials. |
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TE SEM-II 2018-19 |
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Subject: |
Chemical Reaction Engineering-I |
Subject Code: |
309348 |
CO1 |
Able to develop rate laws for homogenous reactions |
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CO2 |
Able to design an ideal reactors for single and complex reaction |
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CO3 |
Able to develop skills choose the right reactor |
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CO4 |
Able to compute residence time distribution to find the deviation from ideal behavior. |
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Subject: |
Transport Phenomena |
Subject Code: |
309349 |
CO1 |
Able to apply shell balance for conservation of momentum, apply Newton’s law of viscosity in balance and obtain velocity distribution in laminar flow. |
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CO2 |
Able to apply shell balance for conservation of energy, apply Fourier’s law of heat conduction in balance and obtain temperature distribution in solids and in laminar flow. |
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CO3 |
Able to apply shell balance for conservation of mass, apply Flick’s law of diffusion in balance and obtain concentration distribution in solids and in laminar flow. |
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CO4 |
Able to modify and solve the appropriate equation of change to obtain desired profiles for velocity, temperature and concentration. |
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CO5 |
Able to modify and solve the appropriate macroscopic balance of conservation of momentum, energy and mass |
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CO6 |
Able to identify and apply analogies among momentum, heat and mass transfer |
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Subject: |
Chemical Engineering Design I |
Subject Code: |
309350 |
CO1 |
Able to design Tall vertical vessel. |
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CO2 |
Able to design evaporator |
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CO3 |
Able to design double pipe heat exchanger |
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CO4 |
Able to design reboilers |
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Subject: |
Mass Transfer II |
Subject Code: |
309351 |
CO1 |
Able to demonstrate fundamentals of some major mass transfer operations. |
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CO2 |
Able to develop the design processes. |
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CO3 |
Able to apply design principles for mass transfer devices. |
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CO4 |
Able to discriminate between various mass transfer systems. |
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CO5 |
Able to construct foundation for process intensification. |
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Subject: |
Process Instrumentation and Control |
Subject Code: |
309352 |
CO1 |
Able to recognize the knowledge of field instrumentations |
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CO2 |
Able to demonstrate dynamic modeling and system behavior study |
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CO3 |
Able to design of controllers |
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CO4 |
Able to apply control systems in processes |
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BE SEM-II 2018-19 |
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Subject: |
Process Modelling and Simulation |
Subject Code: |
409349 |
CO1 |
Able to demonstrate the important physical phenomena from the problem statement. |
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CO2 |
Able to develop model equations for the given system |
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CO3 |
Able to demonstrate the model solving ability for various processes/unit operations. |
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CO4 |
Able to demonstrate the ability to use a process simulation |
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Subject: |
Process Engineering Costing and Plant Design |
Subject Code: |
409350 |
CO1 |
Able to demonstrate the concepts of process design and project management |
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CO2 |
Able to formulate feasible and optimum flow-sheet |
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CO3 |
Able to compute the capital investment, total product costs, and profitability |
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CO4 |
Able to design equipments based on economics and process considerations |
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CO5 |
Able to understand optimization of processes equipment’s and scheduling methods. |
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Subject: |
Energy Conservation In Chemical Process Industries (Elective III) |
Subject Code: |
409351 (1) |
CO1 |
To impart knowledge in the domain of energy conservation |
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CO2 |
To bring out Energy Conservation Potential and Business opportunities across Process Industries |
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CO3 |
Acquaintance with conservation of energy and its management, energy planning, and energy economics. |
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CO4 |
To inculcate knowledge and skills about assessing the energy efficiency of an entity/ establishment |
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Subject: |
Chemical Process Safety (Elective III) |
Subject Code: |
409351 (2) |
CO1 |
Able to analyze importance of safety as compare to production |
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CO2 |
Able to demonstrate various rules and regulation |
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CO3 |
Able to demonstrate safety codes used in chemical industries |
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CO4 |
Able to analyze data related to chemical and physical hazards |
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CO5 |
Able to determine various precautions taken by chemical industries |
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Subject: |
Nanotechnology (Elective IV) |
Subject Code: |
409352 (2) |
CO1 |
Able to understand the properties of nano-materials and their applications |
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CO2 |
Able to apply chemical engineering principles to nano-particles production and scale-up |
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CO3 |
Able to solve the quantum confinement equations |
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CO4 |
Able to characterize nano-materials |
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Subject: |
Petrochemical Engineering (Elective IV) |
Subject Code: |
409352 (4) |
CO1 |
Able to recall the history of petrochemical Industry, its feed stock and Indian scenario |
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CO2 |
Able to explain different production and separation processes for lighter olefins and aromatics |
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CO3 |
Able to describe different production methods for second generation petrochemicals |
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CO4 |
Able to demonstrate various processes and norms of a petrochemical Industry |
Department of Chemical Engineering |
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SE Sem-I 2018-19 |
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Subject: |
Engineering Mathematics -III |
Subject Code: |
207004 |
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CO1 |
Solve higher order linear differential equations and apply to modelling and analyzing chemical transformation, heat and mass transfer systems. |
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CO2 |
Apply Fourier Transform techniques to solve boundary value problems arising in science and engineering e.g. Conduction of Heat, wave Propagation. |
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CO3 |
Apply Laplace Transform techniques to solve differential and integral equations involved in chemical engineering related applications. |
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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. |
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CO5 |
Evaluate integrals of vector field functions over curves, surfaces and domains in two- and three-dimensional space |
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CO6 |
Solve various partial differential equations such as wave equation, one and two dimensional heat flow equations. |
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Subject: |
Chemistry-I |
Subject Code: |
209341 |
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CO1 |
Able to differentiate reactivity of different compounds & will prepare different compounds involving suitable mechanism. |
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CO2 |
Able to apply different methods of instrumental method of chemical analysis |
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CO3 |
Able to prepare different types of solutions & measure the rates of reactions |
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CO4 |
Able to prepare different heterocyclic compounds by well known reaction mechanism |
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Subject: |
Fluid Mechcanics |
Subject Code: |
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209342 |
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CO1 |
Able to demonstrate basic concepts of fluid mechanics and their applications in Chemical Engineering |
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CO2 |
Able to describe fluid statics and its applications related to pressure measuring devices in chemical industry |
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CO3 |
Able to analyze basic equations of fluid flow and their applications to determine fluid flow rate by different devices |
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CO4 |
Able to formulate the mathematical equations for flow and their applications to determine the fluid flow rate by different devices |
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CO5 |
Able to develop relationships among process or system variables using dimensional analysis |
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CO6 |
Able to demonstrate applications of different valves and pumps for transportation of fluid through pipelines |
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Subject: |
Engineering Materials |
Subject Code: |
209343 |
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CO1 |
Able to determine the mechanical properties of materials. |
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CO2 |
Able to select the material for given application. |
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CO3 |
Able to differentiate types of materials with their alloys. |
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CO4 |
Able to tell different types & applications of different engineering materials |
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Subject: |
Process Calculation |
Subject Code: |
209344 |
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CO1 |
Able to calculate the composition of the materials |
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CO2 |
Able to apply the various laws governing solid, liquid and gas phases |
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CO3 |
Able to relate material balance for various unit operations or processes in chemical engineering |
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CO4 |
Able to estimate the energy requirement for various unit operations or processes in chemical engineering |
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Subject: |
Introduction to Chemical Engineering |
Subject Code: |
209345 |
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CO1 |
Able to illustrate the scope of chemical engineering |
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CO2 |
Able to demonstrate the basic concept of chemical processes |
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CO3 |
Able to identify the unit operations. |
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CO4 |
Able to demonstrate basic concepts, process instrumentation and safety in chemical industry |
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Subject: |
Soft Skills |
Subject Code: |
209346 |
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CO1 |
Able to communicate, interact and present his ideas to the other professionals. |
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CO2 |
Able to demonstrate the importance, role and contents of soft skills through instructions, knowledge acquisition, demonstration and practice. |
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CO3 |
Able to develop self-motivation, raised aspirations and belief in one’s own abilities, defining and committing to achieving one’s goals. |
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CO4 |
Able to assess the requirements of a task, identifying the strengths within the team, utilizing the diverse skills of the group to achieve the set objective. |
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TE SEM-I 2018-19 |
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Subject: |
Chemical Engineering Mathematics |
Subject Code: |
309341 |
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CO1 |
Able to evaluate an error analysis for various numerical methods and evaluate appropriate numerical methods to solve linear algebraic equation and transcendental equations. |
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CO2 |
Able to apply regression analysis and interpolation and to evaluate the statistical data analysis and numerical integration. |
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CO3 |
Able to evaluate different numerical methods to solve ordinary differential equation, finite difference methods and appropriate numerical methods to calculate a definite integral and to evaluate a derivative at a value. |
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CO4 |
Able to apply the basic concept of optimization and formulation with the application of optimization based on various methods. |
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Subject: |
Mass Transfer-I |
Subject Code: |
309342 |
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CO1 |
Able to define diffusion and types of mass transfer. |
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CO2 |
Able to demonstrate various mass transfer processes. |
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CO3 |
Able to compute HTU, NTU. |
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CO4 |
Able to identify proper equipment for mass transfer operation. |
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CO5 |
Able to design dryer. |
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Subject: |
Industrial Organization and Management |
Subject Code: |
309343 |
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CO1 |
Able to interpret the concepts of management and organizational structure |
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CO2 |
Ability to determine the human resource requirements for chemical industry |
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CO3 |
Ability to compute the purchase and storage requirements for the chemical process industry |
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CO4 |
Able to demonstrate the economic and operations management concepts useful in export and import management. |
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Subject: |
Chemical Process Technology |
Subject Code: |
309344 |
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CO1 |
Able to identify symbolic representation and application of unit operations used in chemical industry |
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CO2 |
Able to demonstrate manufacturing process of various inorganic and organic compounds. |
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CO3 |
Able to analyse and solve major engineering problems in process during production with material and energy balance |
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CO4 |
Able to work on trouble shooting during production with recycle operation |
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Subject: |
Chemical Engineering Thermodynamics-II |
Subject Code: |
309345 |
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CO1 |
Able to describe the laws of thermodynamics and thermodynamic relations |
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CO2 |
Able to demonstrate the applications of thermodynamics in chemical processes |
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CO3 |
Able to associate solution thermodynamics and phase equilibrium and to generate VLE data |
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CO4 |
Able to compute the consistency of experimental VLE data; to calculate bubble and dew points |
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CO5 |
Able to evaluate equilibrium conversion for homogeneous and heterogeneous reactions |
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Subject: |
Computer Aided Chemical Engineering (CACHE) I |
Subject Code: |
309346 |
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CO1 |
Able to explain, employ and apply mathematical concepts and constructs eigen values, eigen vectors, real roots and data fitting using chemical software |
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CO2 |
Able to apply basic programming concepts for programming for numerical integration methods by using any chemical software |
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CO3 |
Able to explain, employ and apply mathematical concepts and constructs regression analysis. |
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CO4 |
Able to apply basic programming concepts for programming for fuzzy logic applications and application of support vector machines |
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BE SEM-I 2018-19 |
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Subject: |
Process Dynamics and Control |
Subject Code: |
409341 |
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CO1 |
Able to demonstrate the importance of process control in process operation and the role of process control engineers. |
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CO2 |
Able to identify the instrumentation needed to implement process control. |
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CO3 |
Able to formulate mathematical models of chemical processes that are used for designing controllers. |
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CO4 |
Able to design and tune feedback controllers on real systems as well as simulated systems. |
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CO5 |
Able to judge the stability and performance of feedback loops using laplace and frequency domain techniques. |
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Subject: |
Chemical Reaction Engineering II |
Subject Code: |
409342 |
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CO1 |
Able to develop rate equation for heterogeneous reactions (both catalytic and non-catalytic) |
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CO2 |
Able to design reactor for heterogeneous reactions |
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CO3 |
Able to develop the catalyst, mechanism and their poisoning |
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CO4 |
Able to differentiate among the physical properties of catalyst like surface area, void volume etc. |
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CO5 |
Able to demonstrate different experimental methods for finding rate of solid catalyzed reactions. |
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Subject: |
Chemical Engineering Design II |
Subject Code: |
409343 |
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CO1 |
Able to design binary system for distillation column |
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CO2 |
Able to estimate packed bed height |
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CO3 |
Able to estimate pressure drop in Newtonian and Non –Newtonian for fluid |
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CO4 |
Able to design Seamless, ERW pipes, pipe fittings, flanges, and fasteners. |
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CO5 |
Able to design utility for plant water, steam, vapours. |
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CO6 |
Able to learn about HAZOP and maintenance of plant. |
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Subject: |
Computer Aided Chemical Engineering (CACHE) II |
Subject Code: |
409347 |
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CO1 |
Able to develop a computer program for plotting P-x-y and T-x-y diagram. |
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CO2 |
Able to formulate simulation using simple and rigorous methods |
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CO3 |
Able to develop a computer program for design of reactor. |
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CO4 |
Able to develop a computer program for design of heat exchangers. |
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Subject: |
Petroleum Refining (Elective 1) |
Subject Code: |
409344(4) |
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CO1 |
Able to demonstrate the petroleum refinery worldwide. |
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CO2 |
Able to develop knowledge of different refining processes |
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CO3 |
Able to illustrate the suitable refining technology for maximizing the gasoline yield |
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CO4 |
Able to develop knowledge of safety and pollution control in the refining industries |
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Subject: |
Chemical Process Synthesis (Elective 2) |
Subject Code: |
409345(1) |
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CO1 |
Able to apply concept of development of a new chemical process and effective industrial utilization of reactors and separators. |
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CO2 |
Able to apply different distillation sequencing in the chemical process plants. |
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CO3 |
Able to apply different heat exchange networking and utilities in the chemical process plants. |
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CO4 |
Able to demonstrate insight about different considerations of health and safety parameters and able to do hazard analysis |
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Subject: |
Piping Design & Engineering |
Subject Code: |
409345(3) |
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CO1 |
An ability to identify Types of Fluid and Type of Flow. |
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CO2 |
Able to Suggest Material for Piping, Gasket |
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CO3 |
Able to Calculate Pipe Sizing. And Critical Thickness of Insulation |
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CO4 |
Should able to Select Types of Vale |
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CO5 |
Should able to Draw P & I Diagrams, Process flow diagrams |
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SE sem-II 2017-18 |
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Subject: |
Chemistry-II |
Subject Code: |
209347 |
||||||||||||
CO1 |
Able to identify different molecules and their structures, reactivity & properties. |
||||||||||||||
CO2 |
Able to analyze & classify transition metals and coordination compounds |
||||||||||||||
CO3 |
Able to demonstrate knowledge of adsorption and catalysis |
||||||||||||||
CO4 |
Able to demonstrate knowledge of Analytical & Industrial chemistry |
||||||||||||||
Subject: |
Heat Transfer |
Subject Code: |
209348 |
||||||||||||
CO1 |
Able to demonstrate the basic concepts of conduction, radiation and convection heat transfer |
||||||||||||||
CO2 |
Able to analyze experiments to interpret data |
||||||||||||||
CO3 |
Able to demonstrate the concept of conservation of energy and its application to problems involving conduction, radiation and/or convection heat transfer |
||||||||||||||
CO4 |
Able to identify, formulate and solve engineering problems |
||||||||||||||
Subject: |
Principal of Design |
Subject Code: |
209349 |
||||||||||||
CO1 |
Able to formulate and analyze stresses and strains in machine elements and structures subjected to various loads. |
||||||||||||||
CO2 |
Able to apply multidimensional static failure criteria in the analysis and design of mechanical components |
||||||||||||||
CO3 |
Able to analyze and design power transmission shafts carrying various elements with geometrical features. |
||||||||||||||
CO4 |
Able to analyze and design structural joints like riveted and welded joints. |
||||||||||||||
CO5 |
Able to design internal pressure vessels and external pressure vessels. |
||||||||||||||
Subject: |
Chemical Engineering Thermodynamics-I |
Subject Code: |
209350 |
||||||||||||
CO1 |
Able to apply the basic thermodynamics terminology and scope, thermodynamics laws and their applicability and limitations. |
||||||||||||||
CO2 |
Able to evaluate an appropriate equation of state for representing the P-V-T behaviour of gases and/or liquids and the concept of sensible heat effects |
||||||||||||||
CO3 |
Able to apply the second law of thermodynamics, various thermodynamics cycles and to identify thermodynamics properties of Fluids, types of thermodynamic diagram and availability. |
||||||||||||||
CO4 |
Able to apply the working principle and performance of refrigerators and heat pumps |
||||||||||||||
Subject: |
Mechanical Operations |
Subject Code: |
209351 |
||||||||||||
CO1 |
Able to identify suitable type of screening and size reduction equipment for different particle sizes |
||||||||||||||
CO2 |
Able to identify suitable type of thickeners and clarifiers for separation of suspended solid particles from liquid for example applications in Wastewater treatment plants |
||||||||||||||
CO3 |
Able to apply fluidization and beneficiation techniques in Chemical Industries. |
||||||||||||||
CO4 |
Able to identify a suitable type of agitator for mixing and agitation and to estimate power consumption in mixing and agitation. |
||||||||||||||
CO5 |
Able to identify a suitable type of filter for filtration of slurry or a suspension. |
||||||||||||||
CO6 |
Able to identify a suitable type of conveyor for transportation of different types of materials. |
||||||||||||||
TE SEM-II 2017-18 |
|||||||||||||||
Subject: |
Chemical Reaction Engineering-I |
Subject Code: |
309348 |
||||||||||||
CO1 |
Able to develop rate laws for homogenous reactions |
||||||||||||||
CO2 |
Able to design an ideal reactors for single and complex reaction |
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CO3 |
Able to develop skills choose the right reactor |
||||||||||||||
CO4 |
Able to compute residence time distribution to find the deviation from ideal behavior. |
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Subject: |
Transport Phenomena |
Subject Code: |
309349 |
||||||||||||
CO1 |
Able to apply shell balance for conservation of momentum, apply Newton’s law of viscosity in balance and obtain velocity distribution in laminar flow. |
||||||||||||||
CO2 |
Able to apply shell balance for conservation of energy, apply Fourier’s law of heat conduction in balance and obtain temperature distribution in solids and in laminar flow. |
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CO3 |
Able to apply shell balance for conservation of mass, apply Flick’s law of diffusion in balance and obtain concentration distribution in solids and in laminar flow. |
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CO4 |
Able to modify and solve the appropriate equation of change to obtain desired profiles for velocity, temperature and concentration. |
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CO5 |
Able to modify and solve the appropriate macroscopic balance of conservation of momentum, energy and mass |
||||||||||||||
CO6 |
Able to identify and apply analogies among momentum, heat and mass transfer |
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Subject: |
Chemical Engineering Design I |
Subject Code: |
309350 |
||||||||||||
CO1 |
Able to design Tall vertical vessel. |
||||||||||||||
CO2 |
Able to design evaporator |
||||||||||||||
CO3 |
Able to design double pipe heat exchanger |
||||||||||||||
CO4 |
Able to design reboilers |
||||||||||||||
Subject: |
Mass Transfer II |
Subject Code: |
309351 |
||||||||||||
CO1 |
Able to demonstrate fundamentals of some major mass transfer operations. |
||||||||||||||
CO2 |
Able to develop the design processes. |
||||||||||||||
CO3 |
Able to apply design principles for mass transfer devices. |
||||||||||||||
CO4 |
Able to discriminate between various mass transfer systems. |
||||||||||||||
CO5 |
Able to construct foundation for process intensification. |
||||||||||||||
Subject: |
Process Instrumentation and Control |
Subject Code: |
309352 |
||||||||||||
CO1 |
Able to recognize the knowledge of field instrumentations |
||||||||||||||
CO2 |
Able to demonstrate dynamic modeling and system behavior study |
||||||||||||||
CO3 |
Able to design of controllers |
||||||||||||||
CO4 |
Able to apply control systems in processes |
||||||||||||||
BE SEM-II 2017-18 |
|||||||||||||||
Subject: |
Process Modelling and Simulation |
Subject Code: |
409349 |
||||||||||||
CO1 |
Able to demonstrate the important physical phenomena from the problem statement. |
||||||||||||||
CO2 |
Able to develop model equations for the given system |
||||||||||||||
CO3 |
Able to demonstrate the model solving ability for various processes/unit operations. |
||||||||||||||
CO4 |
Able to demonstrate the ability to use a process simulation |
||||||||||||||
Subject: |
Process Engineering Costing and Plant Design |
Subject Code: |
409350 |
||||||||||||
CO1 |
Able to demonstrate the concepts of process design and project management |
||||||||||||||
CO2 |
Able to formulate feasible and optimum flow-sheet |
||||||||||||||
CO3 |
Able to compute the capital investment, total product costs, and profitability |
||||||||||||||
CO4 |
Able to design equipments based on economics and process considerations |
||||||||||||||
CO5 |
Able to understand optimization of processes equipment’s and scheduling methods. |
||||||||||||||
Subject: |
Chemical Process Safety (Elective III) |
Subject Code: |
409351 (2) |
||||||||||||
CO1 |
Able to analyze importance of safety as compare to production |
||||||||||||||
CO2 |
Able to demonstrate various rules and regulation |
||||||||||||||
CO3 |
Able to demonstrate safety codes used in chemical industries |
||||||||||||||
CO4 |
Able to analyze data related to chemical and physical hazards |
||||||||||||||
CO5 |
Able to determine various precautions taken by chemical industries |
||||||||||||||
Subject: |
Petrochemical Engineering (Elective IV) |
Subject Code: |
409352 (4) |
||||||||||||
CO1 |
Able to recall the history of petrochemical Industry, its feed stock and Indian scenario |
||||||||||||||
CO2 |
Able to explain different production and separation processes for lighter olefins and aromatics |
||||||||||||||
CO3 |
Able to describe different production methods for second generation petrochemicals |
||||||||||||||
CO4 |
Able to demonstrate various processes and norms of a petrochemical Industry |
MOU
List of MOU for the Academic Year 2019-20
Sr.No |
Name of Industry |
Date of Commencement |
1. |
Flowrhex Pvt Ltd |
24/06/2019 |
2. |
Plastic Omnium auto Exteriors Pvt Ltd |
18/06/2019 |
3. |
ARKChem System Pvt Ltd |
17/06/2019 |
4. |
Equinox, Pune |
14/06/2019 |
5. |
Unico Agro Chemicals and Fertilizer |
21/06/2019 |
6. |
Prismane Consulting Pvt Ltd |
22/06/2019 |
7. |
Shachi Engineering Pvt Ltd |
3/10/2019 |
8. |
FluiDimesnsions, Pune |
25/02/2019 |
9. |
Rastriya Chemical And Fertilizer Thal |
1/4/2019 |
10. |
Chemsys Process Engineering Pvt |
31/07/2018 |
11. |
Rastriya Chemical And Fertilizer Chembur, Trombay |
16/08/2018 |
12. |
Ajinkyatara Sahakari Sakhar Karkhana Ltd., Shendre, Maharashtra |
25/08/2018 |
List of MOU for the Academic Year 2018-19
- Rastriya Chemical and Fertilizer Chembur, Trombay
- Rastriya Chemical and Fertilizer, Thal, Alibag
- Chemsys Process Engineering Pvt. Ltd., Pune
- Unico Agro Chemicals and Fertilizer (UACF), Sangli
- Ajinkyatara Sahakari Sakhar Karkhana Ltd., Shendre, Maharashtra
- Engineering Cluster, Pune
- SCS Renewable Energy Private Limited, Baramati
- Pune Hygienic Food Products, Pune
- MKW Bio-Systems, Pune
- Equinox Softwares System
- Fluidimensions
- Archem
- Prismane Consulting
- Flowrhex Proburgeon Pvt Ltd
- Plastic Omnium Pvt Ltd
Our Distinguished Alumni
Our distinguished Alumni:
Name: Pratik Niranjan Lokhande
Department:Chemical Engineering
Year of Passing: 2016
Designation: Research Fellow
Organisation: University of Bristol
Contact No.: 8928005212
Email: This email address is being protected from spambots. You need JavaScript enabled to view it.
Name: Sahil Vidyasagar Sheti
Department:Chemical Engineering
Year of Passing: 2016
Designation: Research Fellow
Organisation: Chalmers Universaity of Technology
Contact No.: 9769759741
Email: This email address is being protected from spambots. You need JavaScript enabled to view it.
Name: Prabhudesai Vallabh Sudhir
Department:Chemical Engineering
Year of Passing: 2017
Designation: Research Fellow
Organisation: BITS Pillani Goa Campus
Contact No.: 7276155759
Email: This email address is being protected from spambots. You need JavaScript enabled to view it.
