Prof.S.Subba Rao , HOD-Chemical Engineering Faculty of Chemical Engineering Out Going Batch 16-17 ChemFlare2K17 Environmental Challenges and Strategies Workshop ChemFlare2K15 Industrial Visit 2015 Govada Sugar Factory Visit 2015 Guest Lecture Research Lab

  • About Department
  • Vision and Mission
  • POs, PEOs, & PSOs
  • Courses Offered:

    • B.Tech Chemical Engineering
    • M.Tech Bio-Technology

    The Department of Biotechnology was started in the year 2002-03 and subsequently with the Department of Chemical Engineering was started during the academic year 2012-2013. The B.Tech Chemical Engineering programme which is affiliated to Andhra University was approved by the AICTE with an annual intake of 60 students. M.Tech Biotechnology programme which is affiliated to Andhra University with intake of 18 students is run by the department. It is supported by qualified and experienced faculty as per AICTE norms.


    To attain global recognition in research and training students for meeting the challenging needs of Chemical & Environmental Engineering practices


    • Providing high quality undergraduate education to cater the needs of industry.

    • To train young and budding engineers with basic fundamentals of chemical engineering principles, expose them to industry related problems and mould them as competent engineers to choose their career path either in industry or research in multidisciplinary fields.

    • Nurturing industry-academia relationship for mutual benefit and growth.


    1 To prepare students with adequate academic knowledge in basic sciences like Mathematics, Physics and Chemistry while giving more emphasis on subjects in Chemical Engineering, so as to enable them to meet the needs of Chemical and its related industries and to excel in post graduation programmes.
    2 To provide academic training in the fundamentals of Chemical Engineering and application its knowledge to interdisciplinary fields like Biotechnology and Nanotechnology. The major thrust is towards the integration of the theoretical knowledge of Chemical Engineering with the hands-on experience such that graduates will be competent to solve problems in industry and society.
    3 To train students in the advanced and interdisciplinary fields of Chemical Engineering and also to provide hands-on experience in obtaining relevant data for the design of equipment and parameters needed for the manufacture of Chemicals, Pharmaceutical and Biotechnology products.
    4 To provide entrepreneurship skills, to motivate them to professional and ethical issues, to encourage them to carry out interdisciplinary projects in the field of Biotechnology, Nanotechnology and Environmental pollution control and also to enhance creative ability for solving Chemical Engineering tasks concerned with broader social context.
    5 The programme provides facilities conducive to make measurements on and interpret data from living systems, addressing the problems associated with the interaction between living and non living materials and systems. A learning environment is created that would impart creativity and design by integrating knowledge from engineering and technology with the aim of developing both theoretical and experimental skills that are needed for a successful career in Chemical Engineering related industry.



    TTo develop fundamental knowledge of various unit operations and processes by making use of the concepts of mathematics, Basic and Engineering sciences.

    2 To identify, formulate, analyze and design the problems related to the Chemical Engineering background.
    3 To endure their professional practice in Chemical Engineering to accomplish the contemporary needs of Chemical and related industries.


    1 The graduates are expected to have necessary background in basic sciences including mathematics, physics and chemistry and Chemical Engineering core subjects particularly fluid mechanics, heat transfer, mass transfer, chemical technology, chemical reaction engineering, transport phenomena, chemical process equipment and design, process dynamics and conrol and process modeling.
    2 Graduates will be confident to identify the Chemical Engineering problems and will be able to formulate in terms of mathematical modeling and simulation and eventually will solve industrial problems.
    3 Graduates will demonstrate the ability not only to design and conduct experiments in Chemical Engineering laboratories but also interpret and analyze resulting data that will be useful for chemical equipment design.
    4 Graduates will have the ability to analyze the problems and give solutions related to Chemical Engineering industry.
    5 Graduates are competent to carry out interdisciplinary research in bioprocess, biomedical instrumentation, nanotechnology, industrial pollution control etc.
    6 Graduates will gain skills to use modern engineering tools, including softwares like C-Language, Mathematica, Aspen, Fluent and MATLAB for the design, modeling and analysis studies.
    7 Graduates will be conscious about the impact of Chemical Engineering for solving issues concerned with the society like the need for tackling contemporary issues like global warming and pollution control.
    8 Graduates are expected to have understanding of professional and ethical responsibility.
    9 Graduates will have effective communication skill in both verbal as well as written and will have the spirit of team work.
    10 Graduates will be convinced for the need of self education and life-long learning process in order to keep abreast with the ongoing rapid developments in the field of chemical engineering.
    11 Graduates will have motivation to participate and succeed in competitive exams like GATE, CAT, GRE etc.,