User:Irfan Zidny
Irfan Zidny
Assalamualaikum wr. wb. Hi Everyone My name is Irfan Zidny, but you can call me Zidny. Currently I am a student at the University of Indonesia, majoring in Mechanical Engineering.
My Biodata:
Name: Irfan Zidny
DOB: November 27 2002
NPM: 2006488051
Major: Mechanical Engineering
The purpose of this page is in order to post and educate myself in regards to many topics that i aim to learn during my Energy Conversion 2 Class, lead by Pak DAI. Insyallah, this page can help me organize and ease me in my education, proving it useful!
Thank you and see you in my other posts.
Chat GPT
What are the relationship between sugarcane factory, car battery, and liquid fuel?
Depending on the context, there are several possible connections among sugarcane factories, car batteries, and liquid fuel:
Sugarcane factories and liquid fuel: Sugarcane is a popular source of biofuel, particularly ethanol, which can be made from the plant's sugars. Ethanol can be produced as a byproduct or as the primary product at sugarcane factories and utilized as a liquid fuel for various purposes, including transportation.
Car batteries and liquid fuel: Car batteries are utilized to power up the engine and electronic systems in a vehicle, while liquid fuel like gasoline or diesel is used to drive the car's internal combustion engine.
Sugarcane factories and car batteries: Although there is no direct relationship between sugarcane factories and car batteries, producing sugarcane requires a significant amount of electricity that can be supplied by batteries or other energy storage systems. Additionally, car battery production may necessitate raw materials like lithium, cobalt, or nickel that are obtained from areas where sugarcane is grown.
Overall, even though there may not be an apparent connection among all three items, they are critical elements of the modern industrial economy and may be intertwined in various ways.
Personal Project: How Hybrid-cars can reduce carbon emission?
Mr. DAI and Prof. Adi gave us a personal assignment so that we could learn more about the Energy Conversion System 2 topic. Three choices for topics were presented: pyrolysis, electric vehicles, and IC engines. Later on, Open Modelica software will be used for this undertaking.
I chose my topic of choice to be, Internal Combustion Engine (ICE). Or more specifically, Hybrid technology implemented in ICE vehicles
The majority of people are conscious that hybrid electric vehicles use less fuel than regular gas-powered cars. But not everyone is conscious of the technical justifications for it. Regenerative braking, in which the electric motor applies resistance to the drivetrain and the energy from the wheels functions as a generator to help turn the motor, is the only explanation that is frequently given. The benefits of a hybrid configuration helping to address internal combustion engines' intrinsic drawbacks are less frequently mentioned, though (ICEs)
With that, I found interest in learning more regarding Hybrid-vehicle technologies, and how it can help in fuel economy, and in turn too help reduce carbon emissions. Also, whether or not its technology is feasible to be applied in mass. I too, will study just how big of a difference in carbon emission Hybrid cars have to a standard ICE car, and explain the reason why if it happens to be a large margin.