Projects done
Measurement of uneven-shaped unique parts is difficult and inaccurate with tangible measurement methods. Also, error-prone. Non-contact measurement techniques can solve many errors and down the cycle time of taking measurements with much trustable output. Designed and programmed a computer vision-based measurement system that detects physical objects under the camera takes continuous frames and processes them. These images are automatically evaluated by pixel-based measurement algorithm and data compared with CAD files.
Dec 2021 – Mar 2021
Modification of 3D printer machine to solve over-heating issue over long runs. The thermoelectric effect pumps heat from one side to another side by applying a power source. As a result, capable of creating a 40C temperature difference. Also integrated temperature control system to control over-cooling.
Nov 2021 – Dec 2021
The aim of the study is design tube and box heat exchanger with various pattern of tubes and examine the flow and temperature field at inlet and outlet point of tube and container using ANSYS programming tool. Three types of heat exchangers are planned in this examination with various structures of cylinders contains of 175 mm breadth and 1000 mm length shell measurement 175 mm. To expand the rate of heat exchange of heat exchanger advancement is done which tries to distinguish the best parameter combination of heat exchangers. The prefix parameter (tube width) is utilized as an info variable and the yield parameter is the most extreme temperature distinction of container and tube heat exchanger. Three types of models are design on the basis tubes varieties of heat exchanger and CFD analysis is completed in ANSYS FLUENT R2.
Jun 2021 – Oct 2021
The project deals with the prediction of vibrations because of the various machining variable. While machining, the faulty process deviates from the normal runs. This happens when selecting wrong machining variables with respect to the size of job/workpiece like feed, depth of cut, machine spindle speed. This machine learning implementation predicts the future process behavior of the lathe machine in terms of vibration values. So, the process can be normal and quiet.
Jun 2021 – Jul 2021
Aim to develop a fully functional IoT device for home automation and control. Sending data from various sensors, controlling relays (used for turn on/off appliances), making some constrained decisions (if/else stats, sleep functions, timers). Controlling home with google assistance.
Aug 2020 – Sep 2020
Aim to develop an autonomous black line following a mobile robot. Successfully designed and developed the prototype. Used Arduino UNO microcontroller board as the brain of the robot and programmed- debugged. Mainly used "Proximity infrared sensor Module Obstacle detector IR sensor for Arduino" for sensing the path for it. But then we decided to make our own analog sensor from LEDs and LDR sensors. Tested with both and successfully compiled our milestone to development. We were three in them (two students and professor Vinal Virani as mentor).
Feb 2020 – Mar 2020
Aim to design develop and demonstrate the working prototype of Wells turbine. The Wells turbine is a low-pressure air turbine that rotates continuously in one direction independent of the direction of the airflow. Its blades feature a symmetrical airfoil with its plane of symmetry in the plane of rotation and perpendicular to the air stream. Contents involved to complete the project- Introduction, working principles, blade and rotor selection, full definition and specification of all parts to be used,d detailed drawings of individual components, and assembly and bill of material. The project was with four teammates including me.
Feb 2016 – Apr 2016
Aim to design and develop fully functional "Four-way hacksaw machine" As per the name, it is the replacement of the conventional single-arm hacksaw machine. Because it is having four cutting blades instead of one per one motor. It is having four cutting arms on every four directions linked with a single rotating crank. Having the power to handle four cutting tasks at once. Contents involved to complete the project- Introduction, working principles, standard parts selection, full definition and specification of all parts to be used,d detailed drawings of individual components, and assembly and bill of material. The project was with four teammates including me.
