Civil Engineering is one of the oldest of the engineering disciplines, extending across many technical specialties. Civil Engineers plan, design, and supervise the construction of facilities essential to modern life like space satellites and launching facilities, offshore structures, bridges, buildings, tunnels, highways, transit systems, dams, airports, harbors, water supply system and wastewater treatment plants. Civil engineers are responsible for planning and designing a project, constructing the project to the required scale, and maintenance of the project. They require not only a high standard of engineering knowledge but also supervisory and administrative skills. The Civil Engineering department at Techno India University has a fine blend of experienced and dynamic faculty. The civil engineering students are well aware of civil engineering construction materials through newly developed industry supported laboratories. They are also encouraged to organize and participate in various curricular and co-curricular activities. With its excellent infrastructure, state of the art laboratories and computing facilities the department has bcen providing unlimited opportunity to the students for enhancing their potential & abilities.
Step 1: Make online Application at http://www.technoindiauniversity.ac.in
Step 2: Complete application form with every detail. Submit your Registered mail- id and mobile number to receive our confirmation
Step 3: Acknowledgement of application through sms and email.
Step 4: Confirmation of appearing in examination will be sent via email or sms after filling up form. A unique application id will be generated. Candidate is required to appear for entrance examination with the id.
Step 5: Final Admission and Registration with payment of requisite fces.
Our current application areas include the study of advanced concrete technology and construction materials in civil engineering practice. Students are introduced to the properties and behavior of concrete, including mix design concepts, durability considerations, and the use of admixtures. The curriculum also covers special types of concrete and their applications in construction. Emphasis is placed on understanding theoretical concepts, standard design practices, and relevant codal provisions. This enables students to make informed decisions regarding material selection and application in practical engineering scenarios.
Our current application areas include the analysis and design of soil and foundation systems that support safe and stable infrastructure. Geotechnical engineering focuses on understanding soil behavior, bearing capacity, settlement characteristics, and slope stability to ensure that structures are securely anchored to the ground. Students are trained in fundamental soil mechanics concepts and their applications. The department emphasizes foundation design, retaining structures, ground improvement techniques, and landslide mitigation. This prepares students to address subsurface challenges in
Our current application areas include the principles and practices of surveying and geomatics for civil engineering applications. Students are introduced to fundamental techniques of land surveying, including chain surveying, leveling, traversing, and contouring. The curriculum covers the use of modern surveying instruments such as theodolites, levels, and total stations for measurement and mapping purposes. In addition, students are exposed to advanced geomatics concepts including Geographic Information Systems (GIS) and remote sensing for spatial data analysis and interpretation. Emphasis is placed on data collection, mapping, and analysis for applications in planning, design, and management of civil engineering projects. This enables students to understand both conventional and modern approaches to spatial data handling in engineering practice.
Our current application areas include the assessment, maintenance, and rehabilitation of existing and aging structures using established engineering practices. The focus is on condition assessment through visual inspection, standard non-destructive testing methods such as rebound hammer and ultrasonic pulse velocity tests, and evaluation of material deterioration. Students are trained to identify common causes of structural distress, assess load-carrying capacity, and design appropriate repair and strengthening measures. Emphasis is placed on practical rehabilitation techniques, use of suitable repair materials, and adherence to relevant codes and guidelines. This approach ensures safety, serviceability, and extended lifespan of structures.
Our current application areas include the analysis and design of structures to withstand seismic forces and other natural hazards, supported by the study of structural dynamics. Students are trained in fundamental concepts such as vibration analysis, dynamic response of structures, and seismic design principles in accordance with relevant codal provisions. The curriculum also covers disaster preparedness and planning, focusing on risk assessment, mitigation strategies, and response planning for natural hazards. Emphasis is placed on safe design practices and evaluation of structural performance under dynamic loading. This enables students to contribute to safer and more resilient infrastructure development.
Our current application areas include the application of conventional construction practices and project management principles in civil engineering works. The focus is on understanding construction methods, site execution processes, and sequencing of activities involved in building and infrastructure projects. Students are trained in project planning, scheduling, cost estimation, and basic resource management using standard techniques and tools. Emphasis is placed on quality control, safety practices, and adherence to relevant codes and specifications. This prepares students to effectively manage construction activities and ensure timely project completion.
Our current application areas include the planning, design, and analysis of transportation systems with a focus on metro engineering and multimodal integration. This includes traffic engineering, pavement design, and transportation planning, along with the study of metro systems. Students are introduced to alignment design, station planning, track components, and operational aspects of metro systems. Emphasis is also placed on integrating multiple modes of transport for efficient urban mobility
Our current application areas include the management of water resources and environmental systems. This involves the design of water supply systems, wastewater treatment, stormwater management, and flood control measures. Students are introduced to hydrological principles and sustainable drainage concepts. Emphasis is placed on addressing water-related challenges and environmental protection.
Our current application areas include the study and management of rivers, coasts, and hydraulic systems. This involves the design of canals, dams, coastal protection structures, and erosion control measures. Students apply fluid mechanics and hydraulic principles to problems such as flooding, sediment transport, and shoreline stability.
Our current application areas include the planning and development of sustainable infrastructure systems suited to growing urban and semi-urban environments. The focus is on functional design of infrastructure, efficient use of materials, and adherence to engineering standards. Students are trained to ensure safety, serviceability, and durability in infrastructure development while considering environmental aspects.
Our current application areas include an introductory understanding of Artificial Intelligence (AI) and Machine Learning (ML) concepts and their relevance to civil engineering. Students are exposed to basic principles such as data handling and simple algorithms, along with potential applications in engineering. The focus is on awareness of emerging technologies rather than advanced implementation.