Here are some project titles for the Takeoff EDU group:
With an Arduino, automatically optimize and control the power factor, reactive power, and threshold for both linear and nonlinear loads:
The intention of this program is to detail the aspects of an AC system, which is a power quality topic that is so popular. Rapid impressing on their account of the problem is a reason for growing regret as a result of the increasing use of inductive loads and electronics (linear and nonlinear loads). Unfortunately, we are running into a phase of ineffectiveness with the electricity, which takes place on a daily basis. power factor, which is called the inductive load and is used in the system. Thus, there is an urgent call, as the matter is tame. to prevent this loss of power, which in turn results in a less economical power factor and reactive power, and therefore the reliability of the whole system is deteriorated. challenges in security and expensive spending.
The process of creating and executing a smart home automation system:
The smart home system proposed to be created within the scope of the course work "Designing and Implementing a Smart Home Automation System" is targeted to make an area the most favorite place of residents that are aware of making the environment smarter and more sustainable by means of smart technologies.
. The system gets into the essence of the IoT idea implemented for the customer to gain access to appliances, control, and other goods even in remote places. Now that the users will have the ability to toggle the devices on or off, resulting in both comfort and control, they will be improving their energy efficiency as well.
Developing a Renewable Energy Power Generation System:
The Renewable Energy Power Generation System Design, Implementation, and Assessment" project involves the elaboration of a specialized energy-saving source (solar, wind, or hydropower) that generates electrical energy. Through this effort, power independence from non-renewable sources is accomplished, and the sustainability of the environment is enhanced in the plan for diverse undertakings.
Analysis and Optimization of Power Distribution Networks:
Analyses and Optimization of Power Distribution Networks include evaluation of grid accountability, reliability, and performance. Using mathematical modeling, simulation, and data analysis, this project strives to identify bottlenecks, improve effective load balancing, and deploy the best possible infrastructure in order to support grid stability, reduce energy losses, and cope with the current continuously growing demand.
Integrating IoT Technology in Electrical Grid Monitoring:
The main components of grid monitoring with IoT focus on improving the monitoring aspects of grids with the objective of integrating Internet of Things (IoT) devices. This project seeks to design a holistic framework on which the process of real-time data collection, analysis, and management can be easily done, which will in turn lead to proactive maintenance of the power network distribution and quick fault detection in malfunctions and optimize the efficiency of overall power distribution.
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