B.Tech Civil Engineering
The B.Tech in Civil Engineering programme at MIT-WPU offers a comprehensive education with the foundational principles of civil engineering with modern smart technologies, preparing students to build innovative infrastructures. The curriculum is meticulously designed to incorporate a blend of physical infrastructure assets, construction processes, and digital technologies, enhancing students' skills in effective infrastructure management. Key smart technologies integrated into the programme include actuators, data transmission, sensors, the Internet of Things (IoT), data visualisation, big data analytics, blockchain, Artificial Intelligence and Machine Learning (AI & ML), data science, dimensional building modelling and simulation, and drone technology. The programme offers a variety of B.Tech specialisations, so students can focus on areas such as Structural, Environmental, Highway Engineering, and Construction Management.
The course includes core subjects, electives, and capstone projects. In the initial semesters, students are introduced to subjects such as Integral Calculus, Basic Electrical and Electronics Engineering, and Engineering Mechanics, alongside practical courses like Surveying Field Practices. The curriculum emphasises Research, Innovation, Design, and Entrepreneurship for a holistic educational approach.
At MIT-WPU, we believe in a practical learning approach. Capstone projects and problem-based learning are integral throughout the programme, fostering practical skills and innovative thinking. Students engage in Project-Based Learning sessions, where they apply theoretical knowledge to real-world problems to enhance their problem-solving abilities. There are also subjects like Design Thinking, Project Management, and advanced software training in Civil Engineering, ensuring that graduates are adept at using modern tools and techniques.
Graduates of the B.Tech in Civil Engineering at MIT-WPU are well-prepared to lead in the field of civil engineering. The programme's diverse curriculum, practical learning approach, and focus on innovation and sustainability prepare students to become leaders in the field of civil engineering, capable of constructing the infrastructures of tomorrow.
- Geotechnical and Foundation Engineering
- Structural Analysis & Design Materials
- Water Resources, Remote Sensing & GIS
- Infrastructure Construction Engineering & Management
- Environmental Engineering
- Transportation Engineering
Applications Open for 2025
B.Tech Civil Engineering
Information on Scholarship 2025 will be updated shortly. Please check back soon.
For all B.Tech programmes the candidate should have appeared in JEE 2025 / MHT-CET 2025 / PERA 2025 / MHT-CET-B* 2025 / NEET* 2025. [*Applicable only for Bioengineering and Food Engineering program] conducted by the Competent Authority
AND
Minimum 50% aggregate in PCM/PCB* or Physics & Mathematics with any Technical Vocational Subject. Physics, Mathematics & English are Compulsory subjects with Chemistry/Biotechnology* or Biology*/Technical Vocational Courses in 10+2/Class 12th or equivalent examination [*Applicable only for Bioengineering and Food engineering program] (at least 45% marks, in case of Reserved category candidate belonging to Maharashtra State only)
OR
Minimum 60% marks in Diploma in Engineering & Technology in an appropriate branch from Government approved technical board.
The selection process for B.Tech Programmes is based on JEE 2025/ MHT-CET 2025/ PERA 2025/ MHT-CET-B* 2025/ NEET* 2025 score and a Statement of Purpose (500 words) written by the student for those candidates who meet the Eligibility criteria. [*Applicable only for Bioengineering and Food Engineering programmes]
- Well-rounded education with a balance of theory, practical training, and ethical practices.
- Partnerships with notable organizations like Pune Construction Engineering Research Foundation (PCERF), Builders Association of India (BAI), KL Structures USA, and more.
- Engage in research projects on seismic response assessment, sustainable construction practices, and end-of-life use of solar panel waste.
- Collaboration with Burton and South Derbyshire College (BSDC) in the UK fosters global research and academic exchange.
- State-of-the-art labs with advanced facilities enable practical learning in surveying, transportation, concrete technology, structural dynamics, environmental engineering, geotechnics, tunnel engineering, and loT.
- Departmental clubs and activities offer a range of co-curricular activities and initiatives like workshops, lectures, industry visits, and the annual NIRMITEE symposium.
- Integrating smart technologies throughout the curriculum is a distinctive feature of the programme. By understanding and applying AI & ML, big data analytics, and other advanced technologies, students are equipped to drive the future of infrastructure development. The emphasis on data science, IoT, and blockchain further ensures that graduates can contribute to creating intelligent, sustainable, and efficient infrastructures.
- Identify, formulate, and solve complex engineering problems using engineering, science, and mathematics principles.
- Apply engineering design to develop solutions that meet specified needs, considering public health, safety, welfare, and global, cultural, social, environmental, and economic factors.
- Communicate effectively with diverse audiences.
- Recognize ethical and professional responsibilities in engineering, considering global, economic, environmental, and societal impacts.
- Collaborate effectively in teams, providing leadership and fostering a collaborative environment to achieve objectives.
- Conduct experiments, analyze data, and draw conclusions using engineering judgment
- Continuously acquire and apply new knowledge using effective learning strategies.
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