What You Will Gain

1. Introduction to Biotechnology Engineering

• Understand the core concepts and principles of biotechnology engineering.
• Identify key applications of biotechnology in various industries such as healthcare, agriculture, and environmental sustainability.
• Discuss the role of biotechnology in advancing technological innovations and solving global challenges.

2. Engineering Principles in Biotechnology

• Apply fundamental engineering principles to biotechnological processes and systems.
• Analyze the integration of engineering concepts in biotechnology projects, including bioprocessing and product development.
• Demonstrate knowledge of key technologies used in biotechnology engineering, such as genetic engineering and bio-manufacturing.

3. Health, Safety, and Ethical Considerations in Biotechnology Engineering

• Explain the importance of health and safety regulations in biotechnology environments.
• Assess ethical concerns in biotechnology research and applications, particularly with genetic engineering and environmental impacts.
• Apply safe laboratory practices and understand the ethical implications of working with biological systems and materials.

4. Biotechnology Applications in Healthcare and Industry

• Recognize and evaluate the applications of biotechnology in the healthcare sector, including drug development, diagnostics, and gene therapy.
• Identify biotechnology’s role in sustainable agriculture, food production, and environmental remediation.
• Explore biotechnological innovations that contribute to the pharmaceutical and biomedical industries.

5. Bioprocessing and Lab Techniques

• Understand the fundamental techniques used in biotechnology laboratories, such as cell culture, fermentation, and bioreactor operations.
• Gain practical skills in preparing and conducting experiments for bioprocessing applications.
• Interpret laboratory results and apply them to solve real-world biotechnological challenges.

6. Biotechnology Regulatory Frameworks and Standards

• Understand the key regulatory frameworks governing biotechnology, including health and safety laws and environmental regulations.
• Discuss the importance of maintaining compliance with industry standards, including Good Manufacturing Practices (GMP).
• Explore the role of regulatory bodies in overseeing biotechnological developments and applications.

7. Biotechnology Process Control and Optimization

• Analyze the biotechnological processes and apply principles of process control for optimization in industrial applications.
• Use tools to monitor and control parameters in biotechnological systems such as temperature, pH, and nutrient levels.
• Identify key performance indicators (KPIs) in biotechnological processes and implement solutions for improved efficiency.

8. Emerging Technologies in Biotechnology

• Investigate emerging trends and innovations in biotechnology, such as CRISPR gene editing, synthetic biology, and bioinformatics.
• Explore the potential impacts of these technologies on various industries, including healthcare, agriculture, and energy.
• Critically assess the future challenges and opportunities posed by cutting-edge biotechnological advancements.

9. Professional Practice in Biotechnology Engineering

• Demonstrate an understanding of the professional ethics and responsibilities of a biotechnology engineer.
• Develop effective communication skills to collaborate within multidisciplinary teams in biotechnological projects.
• Understand the career pathways within biotechnology engineering and develop skills for ongoing professional development.