Ashish Alfred
INNOVATE. CREATE. INSPIRE:
ASHISH ALFRED PORTFOLIO
Empowering Tomorrow's Progress Through Innovative Designs and Technology
CFD Simulation of air flow in a room
The objective of this project was to simulate and analyze the airflow within a room while considering various factors such as heat source. Utilized Revit and implement building information modelling to create the room geometry, moreover used Autodesk CFD for fluid simulation. The simulation results were validated against experimental measurements, demonstrating the accuracy and reliability of the computational model.
Source: Simscale
CFD Simulation of a drone rotor
This project focused on simulating and analyzing the velocity of a drone rotor to assess its behavior when encountering obstacles. Using SolidWorks, the geometry was accurately modeled, and Autodesk CFD was employed for fluid simulation. The simulation results were rigorously validated against experimental measurements, affirming the precision and dependability of the computational model.
Flexi CNC
This project focused on designing a versatile CNC system by integrating 3D printing capabilities with CNC functionality, using SolidWorks for design, ANSYS for validation, and Python for coding. The objective was to create a flexible machine capable of milling, engraving, and drilling tasks, while ensuring user-friendly operation.
CAD of architectural drawing
This project involved designing a bungalow in AutoCAD using engineering drawings as a reference.
Designing and Modelling of hexapod with robotic arm
The group project focused on designing a hexapod with a robotic arm in SolidWorks and conducting static structural analysis in ANSYS. Aimed at overcoming challenging terrains, created a versatile robot capable of navigating rough terrain with the hexapod's mobility and the robotic arm's manipulation capabilities. Through collaborative design efforts and structural validation, the project resulted in a robust and adaptable solution. This showcased effective teamwork and engineering innovation, highlighting the potential of the hexapod for real-world applications in demanding environments.
Modelling of an electric bike
The project focused on modeling an electric bike in SolidWorks and conducting static structural analysis in ANSYS to optimize its frame design. By experimenting with different materials virtually and evaluating their weight and structural properties, it was aimed to reduce weight while maintaining structural integrity. The result was a lightweight yet robust frame design, enhancing the bike's mileage and overall performance.