Graduation Project
Start Date : 22 Sep 2022-22 Jul 2023
The smart recirculating fish farm project aims to develop an innovative and sustainable aquaculture system that utilizes advanced technology and automation to improve fish growth, health, and production efficiency. The system incorporates a closed-loop recirculating water system that minimizes water usage and waste, and enables the recycling of nutrients for the benefit of the fish. The project also includes the implementation of a smart monitoring and control system that continuously monitors water quality parameters, fish behaviour, and feeding patterns, and adjusts environmental conditions and feeding regimes accordingly. The goal of the project is to create a cost-effective and environmentally friendly fish farming system that can contribute to the sustainable production of high-quality fish products and reduce the environmental impacts of traditional aquaculture practices.

Graduation Project
Start Date : 22 Sep 2022-22 Jul 2023
Today, designing safe and environmentally friendly workplaces and structures is a top priority. Due to this, many shopping centers meticulously plan their infrastructure to incorporate renewable energy sources, making them both economical and environmentally friendly. The primary goal of this project is to develop a mall's electrical infrastructure, which will include an EV charging station and a solar on-roof power station. These malls are increasingly popular, especially in densely populated areas where mall operators profit from shoppers "spending longer in the mall and shopping" while their cars are being charged.

Graduation Project
Start Date : 22 Jan 2022-22 Dec 2022
For this problem, a postulated solution is to design a low-cost mobile unit, designed for unstable terrain, and grid-power independent. A photovoltaic-powered unit is an acceptable alternative, since renewable energy, with dedication from electrical engineering communities and environmental concerns, is turning staple in modern electrical power engineering. The mobile unit prototype, to become feasible for further testing, needs to comply for some limits. By default, it can be assumed that the prototype must be low-cost, medium-sized, and can hold all the needed equipment. Since desalination is the modern standard for water treatment, a filtration system with reverse osmosis unit, small-scale treatment, and generic against most known water contaminants, is the ideal choice. The unit must also be under supervision for its electrical and water consumption, i.e. a monitoring system. The default user case will be assumed as a single user entity who owns only one unit, working in a remote location away from all power and online services.

Funded Project
Start Date : 01 Oct 2015-01 Oct 2015