The focus areas are the sustainable use and processing of natural resources and new materials, including their technical applications. In this studies, students acquire advanced knowledge in a specific area of chemical technology, biotechnology or material science and technology. 
Students will adopt a responsible, goal-oriented and systematic way of working, and develop skills to work as experts in their area of specialization. They will be able to express themselves clearly and unambiguously both orally and in writing and to tailor their communication to the target audience.

Nowadays, Large numbers of students are taking up research and associated higher studies. 
This course aims to introduce the important aspects of research to make students aware of the details associated with formal research and to help students overcome common misconceptions.
By going through this course, students are likely to be able to take up research activities in a more systematic and formal manner right from the beginning.

Large scale production is associated with the engineering problems such as fluid flow, heat and mass transfer, mixing and all types of unit operations. These chemicals are produced through chemical reactions in a vessel called “Chemical Reactor”. The economics of the entire plant depends on the design of reactor. The design of Chemical Reactors is based on some concepts.  Without understanding the concepts, the subject appears to be meaningless mathematical exercise
The Process Modeling and Simulation of Chemical engineering processes  is  a subject of major importance for the knowledge of unitary processes of transport and kinetics.
Basically it deals with three aspects, namely; Modeling of chemical engineering processes, parameter estimations and application of numerical methods for solution of models.
 In this course first chapter is devoted to introduction of the course and discusses the simulation and need of simulation.
 Subsequently it follows the parameter estimation, tools of simulation, development of models, classification of models, unit models of unit process, models of heat transfer equipment, separation processes and reactors, and application of numerical methods for solutions of models.
In this course, we will begin with the dynamic analysis of chemical engineering systems which will tell us how these systems behave.
 After knowing their behavior, we will move to controlling this behavior as per our choice with the help of a control system.
 Lastly, using advanced controller, we will see how this can be achieved in the most intelligent way.
Nowadays, Large numbers of students are taking up research and associated higher studies. 
This course aims to introduce the important aspects of research to make students aware of the details associated with formal research and to help students overcome common misconceptions.
By going through this course, students are likely to be able to take up research activities in a more systematic and formal manner right from the beginning.
Transport Phenomena deals with the transport of energy, mass and momentum in chemically reacting fluids. 
Principles are developed and illustrated for the rational design of engineering equipment. 
Emphasis will be placed on the use of fundamental laws, and a judicious blend of experimental, analytical and numerical methods to develop required understanding and necessary mathematical models for essential portions of engineering problems involving transport processes.