In this project, we designed a shell-and-tube heat exchanger based on design specifications outlined in the project details. The unit is used to cool a hot water stream using a cold water stream. The coolant was placed on the tube-side pass and the heatant on the shell-side pass.
This project was a design for a simple smart mirror product taken from the product design phase to the prototyping phase. Further iterations could be mass manufactured. I chose to build a simple smart mirror designed to incorporate attractive industrial design features as well as combine tight budget requirements.
This project contains my work toward Kaggle's 2017 Data Science Bowl Competition. Each entrant was tasked with developing an algorithm that can accurately determine when lesions in lungs are cancerous given a data set of thousands of high-resolution lung scans provided by the National Cancer Institute.
This project involved using Finite Element Analysis techniques of typical universal coil springs with the average load of a sedan sized car. This analysis focuses on comparing different materials with loading cases as well as failure analysis.
This project was my attempt to design a temperature regulation system using variable speed fans and temperature and humidity sensors. This system should self-regulate the temperature of the units it's installed in and provide feedback to the admin in case of maintenence.
This project is my solution to the second project of Udacity's Self-Driving Car Engineer Nanodegree Program which involved building and training a deep neural network to classify images from the German Traffic Sign Recognition Benchmark Dataset.