Difference between revisions of "Ignatius Adrian"
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Using the reference from CCIT, we can then use the variables off of the reference. | Using the reference from CCIT, we can then use the variables off of the reference. | ||
+ | |||
+ | <b>Tuesday, 28 February 2023</b> | ||
+ | Today, Professor Adi explained to us regarding ICE, Pyrolysis, and EV. | ||
+ | We talked about how combustion occurs, how it requires oxygen and carbon, and as a byproduct CO2 and water is produced. | ||
+ | Pyrolysis is the process in which waste is burned and converted into biofuel. The waste which can be converted into biofuel are organic materials such as biomass. | ||
+ | Combustion and pyrolysis is based off the process that is the ignition of carbon. |
Revision as of 14:30, 28 February 2023
hi, welcome to my page.
Full name : Ignatius Adrian
Student Number : 2006606561
Tuesday, 21 February 2023
ChatGPT : If we use sugar cane to generate energy instead of petroleum and natural gas, then we would be reducing our dependence on fossil fuels, which would reduce greenhouse gas emissions. This would help to address climate change. Additionally, sugar cane is a renewable resource, so it can be grown in perpetuity, which is more sustainable than fossil fuels. Finally, by using sugar cane, we would be supporting local farmers and reducing reliance on foreign countries for energy resources. So sugar cane is the preferred choice for many reasons.
The relation between all three of these businesses is that they all use resources.
Oil and gas companies supply oil and gas to power the automotive factories.
The automotive factories produce cars that transport goods.
And sugar cane factories turn raw sugar cane into raw sugar, so that food companies can make food products and sell them everywhere.
The oil and gas companies use the automotive factories to transport resources. And the automotive factories deliver the resources to the sugar cane factories.
The automotive factories need the natural gas and gasoline of the oil and gas companies to create vehicles.
Friday, 24 February 2023. Today, we learned how to create an alternating engine (internal combustion engine) using OpenModelica. Before creating the model, we had to install the ThermosysPro library, only after that will we be able to create the model. After installing the library, we opened a new model file and proceeded to import the Alternating Engine model from the library we just downloaded.
After importing, we then added the Fuel Source PQ and Source PQ to the engine. The Fuel Source PQ is the fuel source, which is gasoline, and the source PQ is the air that is oxygen.
Fuel Source PQ is connected to the left side, which is the inlet of the internal combustion engine. Next, source PQ is connected to air inlet for water cooling and air inlet. Then, seek is connected to the right side of the engine that is the outlet.
Next, we add singular pressure loss between Source PQ and cooling inlet, and between cooling outlet and seek.
Using the reference from CCIT, we can then use the variables off of the reference.
Tuesday, 28 February 2023 Today, Professor Adi explained to us regarding ICE, Pyrolysis, and EV. We talked about how combustion occurs, how it requires oxygen and carbon, and as a byproduct CO2 and water is produced. Pyrolysis is the process in which waste is burned and converted into biofuel. The waste which can be converted into biofuel are organic materials such as biomass. Combustion and pyrolysis is based off the process that is the ignition of carbon.