Teaching
Engineering Education and Student Mentorship
Committed to excellence in engineering education through innovative teaching methods, hands-on learning experiences, and comprehensive student mentorship.
Teaching Philosophy
Fostering critical thinking, practical skills, and research excellence in engineering education
Innovative Learning
Emphasizing hands-on learning, real-world applications, and cutting-edge technologies to prepare students for modern engineering challenges.
Research Integration
Integrating current research findings and methodologies into coursework to provide students with exposure to latest developments in the field.
Student Mentorship
Providing comprehensive guidance and support for student research projects, career development, and academic excellence.
Core Courses
Undergraduate and graduate courses in engineering with focus on practical applications
Engineering Statics
Fundamental principles of statics including force systems, equilibrium, trusses, frames, and friction. Emphasis on problem-solving techniques and engineering applications.
Course Objectives:
- ✓ Understand force systems and equilibrium conditions
- ✓ Analyze trusses and frames
- ✓ Apply friction principles to engineering problems
- ✓ Develop problem-solving skills
Automotive Engineering
Comprehensive study of automotive systems including engine design, transmission systems, vehicle dynamics, and emerging technologies in automotive engineering.
Course Objectives:
- ✓ Understand automotive engine systems
- ✓ Analyze transmission and drivetrain systems
- ✓ Study vehicle dynamics and control
- ✓ Explore emerging automotive technologies
Energy Systems Engineering
Advanced course covering energy conversion systems, renewable energy technologies, energy efficiency, and sustainable energy solutions for modern applications.
Course Objectives:
- ✓ Analyze energy conversion systems
- ✓ Study renewable energy technologies
- ✓ Evaluate energy efficiency measures
- ✓ Design sustainable energy solutions
Advanced Thermodynamics
Advanced study of thermodynamic principles, power cycles, refrigeration systems, and their applications in modern engineering systems and energy conversion.
Course Objectives:
- ✓ Master advanced thermodynamic concepts
- ✓ Analyze power and refrigeration cycles
- ✓ Apply thermodynamics to energy systems
- ✓ Design efficient thermodynamic systems
Student Supervision
Guiding undergraduate and graduate students in research projects and thesis work
Undergraduate Theses
Supervised 10+ undergraduate theses on topics including renewable energy systems, energy efficiency, and sustainable engineering solutions in mechanical engineering.
Research Projects
Mentored students in research projects covering energy systems modeling, green hydrogen, and renewable energy integration in mechanical engineering.
Student Achievements
Students have presented research at conferences, published papers, and received recognition for their innovative engineering solutions.
Teaching Methods
Innovative approaches to engineering education and student engagement
Interactive Lectures
Engaging lectures with real-world examples, case studies, and interactive discussions to enhance student understanding and participation.
- ✓ Real-world case studies
- ✓ Interactive problem-solving
- ✓ Group discussions
- ✓ Multimedia presentations
Laboratory Work
Hands-on laboratory sessions with modern equipment and software to provide practical experience in engineering principles and applications.
- ✓ Modern laboratory equipment
- ✓ Simulation software
- ✓ Data analysis tools
- ✓ Safety protocols
Project-Based Learning
Comprehensive projects that integrate multiple engineering concepts and provide students with opportunities to apply knowledge in practical scenarios.
- ✓ Design projects
- ✓ Team collaborations
- ✓ Industry partnerships
- ✓ Presentation skills
Research Integration
Incorporating current research findings and methodologies into coursework to expose students to latest developments and research practices.
- ✓ Current research topics
- ✓ Research methodologies
- ✓ Literature review skills
- ✓ Publication practices
Office Hours & Contact
Available for student consultations, research guidance, and academic support
Office Hours
Monday - Friday: 9:00 AM - 5:00 PM
Location: Department of Environmental Engineering, QUEST
Office: Room 2622
Students are encouraged to schedule appointments for in-depth discussions about coursework, research projects, or career guidance.
Student Support
Comprehensive support for students including:
- ✓ Course material clarification
- ✓ Research project guidance
- ✓ Career counseling
- ✓ Academic planning
- ✓ Thesis supervision