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Master the Technology to Transform Agriculture

Join a future-focused B.Tech Agricultural Engineering program and sow the seeds for a brilliant future

B.Tech Agricultural Engineering at TITE, BhubaneswarHeading Decoration

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60Students
Intake Capacity

Agricultural Engineering is a branch of engineering that applies technology and scientific principles to improve farming practices, food production, and resource management. At TITE, the course is designed to give you a strong foundation in areas such as farm machinery, irrigation systems, soil science, and agricultural processing. Along with classroom learning, you will gain hands-on experience through labs and field-based training, helping you understand how engineering solutions are applied in real agricultural environments.

With the rise of sustainable farming, automation, and agri-tech innovations, the demand for skilled agricultural engineers is steadily increasing. A career in agricultural engineering is more highly rewarding today than it ever was.

Programme Name: B.Tech in Agricultural Engineering

Duration: 4 years
Vision and Mission
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OURVISION

To develop skilled and creative graduates of Agricultural Engineering who can promote sustainable farming methods, develop food production technology, and support the prosperity of the world's farming community.
Our Mission Icon

OURMISSION

Our mission is to encourage the use of advanced technology in sustainable food production by providing farmers with effective solutions through mechanized food processing and precision agriculture. We aim to incorporate cutting-edge technologies into agriculture while giving graduates the know-how to create and execute effective crop management, irrigation, and resource conservation systems. Furthermore, we equip students with the leadership and problem-solving skills necessary to work with farmers, business leaders, and researchers to solve global agricultural issues and enhance the welfare of communities.

Advanced Agricultural Engineering Labs for Practical ExposureHeading Decoration

Join one of the best B.Tech, M.Tech and MBA colleges in Odisha and build a future powered by innovation, AI, and real-world skills.

Fluid Mechanics and Open Channel Hydraulics Lab

Fluid Mechanics and Open Channel Hydraulics Lab

Focuses on the behaviour of water flow in pipes and channels, helping students understand irrigation systems and water distribution efficiency.

Field Operation and Maintenance of Tractors Lab

Field Operation and Maintenance of Tractors Lab

Soil Science and Agronomy Field Lab

Soil Science and Agronomy Field Lab

Farm Machinery and Equipment Lab

Farm Machinery and Equipment Lab

Agricultural Process Engineering Lab

Agricultural Process Engineering Lab

btech/agri

Join TITE. Cultivate skills for a rewarding career in agriculture and allied sectors.

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Why Choose TITE for B.Tech in Agricultural Engineering?Heading Decoration

Industry-Relevant Curriculum

Industry-Relevant Curriculum

Covers core areas like irrigation, farm machinery, and agri-processing aligned with current agricultural practices.

Hands-On Lab & Field Training

Hands-On Lab & Field Training

Extensive practical exposure through specialised labs and real-field applications.

Focus on Sustainable Agriculture

Focus on Sustainable Agriculture

Training in water conservation, renewable energy use, and eco-friendly farming techniques.

Career Pathways in Agri-Tech & Government Sectors

Career Pathways in Agri-Tech & Government Sectors

Prepares students for roles in public sector organisations, agribusiness firms, and research institutions.

Modern Infrastructure & Learning Support

Modern Infrastructure & Learning Support

Access to well-equipped labs, smart classrooms, and technical resources that support applied learning.

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The Future Is TITE-MadeHeading Decoration

AI is reshaping industries. At TITE, we teach you to use it to shape your career—with guaranteed placements.

Bibhudutt Behera

Bibhudutt Behera

Senior Associate — Technology & Transformation (2019–2023, CSE)

DELOITTE
Mayakh Ghosh
Agnibh Sinha

TITE didn't just give me a degree — it gave me direction. The faculty pushed us to think beyond textbooks, and the exposure to real-world tools prepared me for the demands of a company like Deloitte. Every challenge I face at work today, I can trace back to a lesson I learned on that campus.

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Message from the head of departmentHeading Decoration

Head of Department

Prof. Biswajita Bhanja

Head of the Department
Agricultural Engineering

It is my privilege to welcome you to the Department of Agricultural Engineering at TITE. Our department is committed to developing skilled professionals, innovators, and leaders who can contribute to the advancement of agriculture through science, engineering, and technology.

Agricultural Engineering is a multidisciplinary field that integrates engineering principles with agricultural sciences to enhance productivity, sustainability, and resource efficiency in farming and allied sectors. The discipline encompasses diverse areas such as Farm Machinery and Power Engineering, Soil and Water Conservation Engineering, Irrigation and Drainage Engineering, Agricultural Processing and Food Engineering, Renewable Energy Systems, Precision Agriculture, Protected Cultivation, Post-Harvest Technology, Artificial Intelligence in Agriculture, Internet of Things (IoT), Automation, and Smart Farming Technologies.

These areas play a vital role in addressing global challenges related to food security, climate change, water management, energy conservation, and sustainable agricultural development. Agricultural engineers contribute significantly to the design and development of modern farm machinery, efficient irrigation systems, food processing technologies, renewable energy solutions, and digital agriculture platforms that improve the livelihoods of farming communities.

At TITE, we strive to prepare our students for the rapidly evolving agricultural sector by combining strong academic foundations with practical training, field exposure, research, and industry interaction. Our curriculum emphasizes innovation, entrepreneurship, and problem-solving skills, enabling graduates to meet the challenges of modern agriculture and agribusiness.

The department provides a vibrant learning environment supported by well-equipped laboratories, modern infrastructure, experimental farms, and experienced faculty members dedicated to teaching, research, and extension activities. Our faculty and students actively engage in research on precision farming, climate-smart agriculture, water resource management, agricultural mechanization, renewable energy applications, post-harvest technology, and sustainable agricultural systems.

We believe that the future of agriculture lies in the intelligent integration of engineering and technology with traditional farming practices. Through continuous learning, innovation, and collaboration, we aim to contribute to the transformation of agriculture and rural development.

I warmly invite aspiring students, researchers, industry partners, and stakeholders to explore the opportunities offered by the Department of Agricultural Engineering at TITE. Together, let us work towards building a sustainable, productive, and technologically advanced agricultural future.

Outcome-Based Education FrameworkHeading Decoration

Program Outcomes (POs)

  • PO1 – Engineering Knowledge

    Graduates will be able to apply the knowledge of mathematics, science, engineering fundamentals, and engineering specialization to solve complex engineering problems.

  • PO2 – Problem Analysis

    Graduates will possess the ability to identify, formulate, review research literature, and analyze complex engineering problems using principles of mathematics, natural sciences, and engineering sciences to arrive at well-founded conclusions.

  • PO3 – Design and Development of Solutions

    Graduates will be capable of designing solutions for complex engineering problems, including the design of system components or processes that meet specified needs while considering public health, safety, cultural, societal, and environmental factors.

  • PO4 – Investigation of Complex Problems

    Graduates will be adept at conducting investigations using research-based knowledge and methods, including experiment design, data analysis, and synthesis, to derive valid conclusions.

  • PO5 – Modern Tool Usage

    Graduates will be skilled in selecting and applying appropriate modern engineering and IT tools and techniques for complex engineering tasks, with a clear understanding of their limitations.

  • PO6 – The Engineer and Society

    Graduates will be able to assess societal, health, safety, legal, and cultural issues informed by contextual knowledge, and understand their responsibilities as professional engineers.

  • PO7 – Environment and Sustainability

    Graduates will understand the impact of engineering solutions in societal and environmental contexts and demonstrate a commitment to sustainable development.

  • PO8 – Ethics

    Graduates will uphold ethical principles and commit to professional ethics, responsibilities, and norms of engineering practice.

  • PO9 – Individual and Team Work

    Graduates will be effective team members and leaders, capable of working independently or collaboratively in diverse and multidisciplinary teams.

  • PO10 – Communication

    Graduates will be able to communicate effectively on complex engineering activities with peers, the engineering community, and society at large, through clear reports, documentation, presentations, and instructions.

  • PO11 – Project Management and Finance

    Graduates will demonstrate knowledge of engineering and management principles and apply them to manage projects effectively as individuals and team leaders in multidisciplinary environments.

  • PO12 – Life-Long Learning

    Graduates will recognize the need for lifelong learning and be equipped to independently acquire and apply new knowledge and skills in the context of technological advancements.

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Frequently Asked QuestionsHeading Decoration

What is the scope of B Tech in Agricultural Engineering?

To maximize food and fiber production, a B.Tech in Agricultural Engineering combines science, technology, and engineering. Precision agriculture, irrigation, food processing, and farm machinery design are among the career options. Graduates can find a variety of positions in government agencies, large agribusinesses, and cutting-edge agri-tech firms.

What is the difference between BSc Agriculture and B Tech agriculture?

Crop production, soil management, and plant sciences are the main topics of the B.Sc. Agriculture program. B.Tech Agriculture, on the other hand, applies engineering ideas to food processing, irrigation systems, and farm machines. Select a B.Tech for professions in technology and engineering, and a B.Sc. for positions in biology and research.

Which job is best in agriculture engineering?

The "best" job in agricultural engineering will depend on your professional objectives, however positions like Precision Irrigation Engineer, Agri-Tech Software Engineer, and Agricultural Research Scientist are highly sought-after, profitable, and influential. These jobs offer excellent compensation, solid job stability, and the opportunity to combine cutting-edge technology with environmentally friendly farming practices.

What is the future of Agriculture Engineering?

Climate-resilient, intelligent farming is becoming the focus of agricultural engineering. Engineers are creating autonomous machinery, sensor-based precision irrigation, and vertical farming systems driven by IoT, AI, and robotics to feed the world's expanding population sustainably in the face of resource depletion and climate change.

What are the government jobs after B.Tech agriculture from TITE?

For both engineering-specific and management-focused government positions, graduates with a B.Tech in Agriculture (or Agricultural Engineering) are in great demand. Agricultural engineers, agriculture field officers (AFOs) in public banks, scientists at ICAR, and administrative positions in state agriculture departments are among the most popular professional options.