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Live Industrial Course

Advanced Bioprocess Engineering

Mastering Complexity in Bioprocessing

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MODE
Online/ e-LMS
TYPE
Mentor Based
LEVEL
Moderate
DURATION
1 Month

Program Aim

The aim of the “Advanced Bioprocess Engineering” program is to equip students and professionals with cutting-edge knowledge and skills in bioprocessing, focusing on the development and optimization of biotechnological processes used in the production of pharmaceuticals, biofuels, and other bioproducts. This program is designed to address the growing demands of the biotechnology industry for sustainable and efficient production methods. Through a combination of theoretical instruction and practical laboratory experience, participants will learn to design, analyze, and implement complex biological systems and processes, enhancing their capability to drive innovation and improve productivity in biomanufacturing environments. The program also aims to foster a deeper understanding of the integration of biological sciences with engineering principles to solve real-world problems effectively.

About Program

The aim of the “Advanced Bioprocess Engineering” program is to equip students and professionals with cutting-edge knowledge and skills in bioprocessing, focusing on the development and optimization of biotechnological processes used in the production of pharmaceuticals, biofuels, and other bioproducts. This program is designed to address the growing demands of the biotechnology industry for sustainable and efficient production methods. Through a combination of theoretical instruction and practical laboratory experience, participants will learn to design, analyze, and implement complex biological systems and processes, enhancing their capability to drive innovation and improve productivity in biomanufacturing environments. The program also aims to foster a deeper understanding of the integration of biological sciences with engineering principles to solve real-world problems effectively.

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Program Objectives

  • Understand the core principles and applications of advanced bioprocess engineering.
  • Apply analytical and quantitative skills to solve complex bioprocessing problems.
  • Design and optimize bioprocesses using modern tools and approaches.
  • Prepare for leadership roles in the bioprocessing industry by understanding regulatory and economic aspects.

Program Structure

1.Bioprocess Engineering- Definition and its types
2.Bioreactors and Bioreactions
3.Barriers to exploitation of Biotechnology
4.Modern Applications of Bioprocess Technology
5.Project Report Submission/ Article Writing

Program Eligibility

  • Bachelor’s degree in Chemical Engineering, Biotechnology, or a related field.
  • Basic understanding of microbiology and chemical process engineering.
  • Professionals working in or aspiring to work in bioprocess industries.

Program Outcomes

By the end of this course, participants will be able to:

  • Design and analyze various types of bioreactors.
  • Implement scale-up and scale-down strategies for bioprocessing.
  • Navigate the regulatory landscape affecting bioprocess industries.
  • Utilize computational tools for process optimization and control.
  • Communicate technical information effectively to a variety of audiences.


Fee Structure

Standard Fee:           INR 29,998           USD 640

Discounted Fee:       INR 14999             USD 320

Certificate

Program Assesment

  1. Examinations and Quizzes: These may include multiple-choice questions, short answer questions, and problem-solving exercises to test theoretical knowledge and the application of engineering principles to bioprocessing challenges.
  2. Laboratory Reports: Participants are required to conduct experiments in laboratory settings and submit detailed reports. These reports assess their ability to practically apply classroom knowledge, follow scientific methods, analyze data, and draw relevant conclusions.
  3. Project Work: Engaging in individual or group projects allows participants to delve into specific areas of bioprocess engineering, such as process design, optimization, or scale-up. Projects are assessed based on innovation, application of engineering principles, execution, and the final presentation.
  4. Case Studies: Analyzing and solving case studies help evaluate participants’ ability to apply theoretical knowledge to real-world bioprocess scenarios, focusing on problem-solving and decision-making skills.
  5. Research Papers: Writing research papers on contemporary issues in bioprocess engineering assesses participants’ ability to conduct independent research, synthesize existing literature, and contribute new insights to the field.
  6. Oral Presentations: Participants may be required to present their projects, laboratory work, or research findings. Assessments focus on the ability to communicate complex ideas clearly and effectively to an audience.
  7. Peer Review: Engaging in peer review of classmates’ projects and presentations fosters critical thinking and provides feedback from multiple perspectives, enriching the learning experience.
  8. Final Thesis or Capstone Project: For some programs, a thesis or capstone project that involves significant research and application of bioprocess engineering principles may be required. This comprehensive assessment allows participants to demonstrate their mastery of the subject matter in depth.

Future Career Prospects

Participants can pursue careers in:

  • Biopharmaceuticals
  • Biofuels production
  • Food and beverage fermentation technology
  • Environmental biotechnology
  • Academic and industrial research

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