Difference between revisions of "Alvian Choiri Apriliansyah"

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Prof then explains the data network generations (2G, 3G, 4G, 5G) & emphasize the importance of frequency (wave) in ever changing/improvements in technologies (even faster data) which has been realized since Nikola Tesla developed his inventions
 
Prof then explains the data network generations (2G, 3G, 4G, 5G) & emphasize the importance of frequency (wave) in ever changing/improvements in technologies (even faster data) which has been realized since Nikola Tesla developed his inventions
  
Next, Professor DAI explains the principle of energy, in which "Energy can't be created, nor destroyed" explained numerically by equation (dE/dt = Q + W) in the system (can either releasing works & heat or receiving work & heat), which he said is a root for all more complex equations/derivations
+
Next, Professor DAI explains the principle of energy, in which "Energy can't be created, nor destroyed" explained numerically by equation (dE/dt = Q + W) in the system (can either releasing works & heat, or receiving work & heat), which he said is a root for all more complex equations/derivations
 +
 
 +
E = Energy, t = time, W = work, Q = heat

Revision as of 14:34, 28 February 2023

My name is Alvian Choiri Apriliansyah (2006517751), a Universitas Indonesia student from Mechanical Engineering (2020 batch, International class). Currently I'm in 6th semester, studying Energy Conversion System 2 classes amongst others


Week 1 ECS 02 ChatGPT conversation

What's the relations between sugar factory, electric vehicles, and fossil fuels?

In short, ChatGPT explains that sugar factories can produce biofuels, either for vehicles or powerplant. It also explained the reductions in fossil fuels through the electricity for electric vehicles, but it noted the EVs impact depends on powerplant source as most still uses fossils

I then read some research paper & news article about ethanol, and I asked some intriguing question: But I found the recent research from University of Wisconsin a year ago, concluded that ethanol actually produce 24% more GHG than gasoline because of land usage from producing corn

It admit the results of those research paper, saying that the increase of land usage results in more GHG (Green House Gases), but then it stated that it's still under a debate as not all papers have the same conclusion

Week 2 Friday

In this time, I learned about IC (Internal Combustion) engine modelling via OpenModelica. The teacher put out a step-by-step on

1. The OpenModelica version,

2. OMEdit IC engine model (with equations) already pre-installed

3. Explanation about the components (input: fuel & air, cooling: air/water, output: flue gas (carbon dioxide, carbon monoxide, etc.))

4. Adding sinks to each of those 4 components, with additional pressure loss component for cooling section

Week 3 Tuesday

Professor Adi explains to us the pyrolisis by (literally) burning a piece of paper. I then explains to him (which he affirms) the difference with internal combustion engine that instead of using liquid fuel it uses solid fuel, example: woods, coals, etc. But of course, both processes involves a fire triangle (oxidizer, fuel, and ignition source) and produces energy & heat (exoterm).

One of the interesting application of pyrolisis is converting plastic waste into useful fuel, which unfortunately still less implemented in Indonesia (explained by Prof) due to lack of knowledge within the public about the process & benefits involved in conversion (breaking down of C-H bond in plastic into liquid fuel). Our friends from 2019 batch explains their activities in exchange period (Denmark, South Korea) when they learned how garbage separation works in other countries (either by machine, or by the public awareness/rewards themselves)

Prof then explains the data network generations (2G, 3G, 4G, 5G) & emphasize the importance of frequency (wave) in ever changing/improvements in technologies (even faster data) which has been realized since Nikola Tesla developed his inventions

Next, Professor DAI explains the principle of energy, in which "Energy can't be created, nor destroyed" explained numerically by equation (dE/dt = Q + W) in the system (can either releasing works & heat, or receiving work & heat), which he said is a root for all more complex equations/derivations

E = Energy, t = time, W = work, Q = heat