Academic and Research
1. Analysis and Design of Transmission line Tower (220 kV): Parametric study.
Optimization of tangent type towers as around 70% to 80 % of towers used for transmission lines are of tangent type.
Cost optimization, as approximately 40% of the total cost of the project is incurred in the erection of the transmission tower.
Developed a compact tower geometry to optimize land area. (45 % saving in land area)
Obtained economical geometric configuration considering various parameters and design considerations.
In the 1960 s, Fuller introduced Tensegrity structures having astonishing appearance. Owing to their light weight and deployability, this form was mainly employed in building deployable space structures, controllable structures, tensegrity robots and few civil engineering structures like towers, large dome structures, stadium roofs, temporary structures and tents. Principally owing to its inherently high flexibility, tensegrity structures have been scarcely employed in civil engineering construction. Current work attempts to design 220 kV Transmission Tower using tensegrity form. Geometry, loading and design details of this tower in traditional form are available in the literature. In the current work, tensegrity form has been employed to replace traditional tower structure.
Project Guided at UG level (5)
Applications of Pre-Engineered Building for Cold Storage.
Impact of a covid-19 pandemic on surface water and need of assessment using an integrated approach of RS and GIS
Analysis and Design of Transmission line Tower (220 kV): Comparative study.
Integral Bridge and Conventional bridge design case study.
Environmental Impact assessment and Riverfront Development (Mula-Mutha river)
Software and Programming skills.
Python programming for analysis of structures.
MATLAB
STAAD-Pro
E-TABS
Rhino-Grasshopper
AutoCAD
Industrial Training (4).
Industrial Internship Training Program on ETABS and SAFE organized by structurex Pvt. Ltd
RHINO & GRASSHOPPER Software training, Lomos Achilabs. Bengaluru.
Steel Large Span Structures. (Udemy)
INSDAG, Training Course on “Design of Steel Structures."
Faculty Development Program (12).
Syllabus Drafting under Autonomous Structure (7).
1. Engineering Mechanics
2. Proficiency Course: STAAD-PRO: Fundamental
STAAD-PRO: Intermediate
3. MATLAB
4. Programming and Problem-solving Lab
5. Design of RC Bridges
6. Structural Dynamics
7. Finite Element Analysis (LAB)
Subjects Taught (9)
Engineering Mechanics.
Mechanics of structures.
Statistical Methods in Civil Engineering
Applications of Programming in Civil Engineering
STAAD-PRO
Structural Analysis.
Design of steel structures.
Design of R.C.C. structures.
Surveying.