Difference between revisions of "Muhammad Gavin Arisatyawan"

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(Class Resume 28/2/2023)
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2. The differences between pyrolisis and ICE engine
 
2. The differences between pyrolisis and ICE engine
  
3. Giving an example of combustion in daily life
+
3. Giving an example of pyrolisis phenomena with burning a paper
 +
 
 +
4. The problem of waste treatment in Indonesia. It happen mostly because the people awareness to waste treatment in Indonesia is still low.
 +
 
 +
 +
I also ask to chat GPT whas is the explaination about the differences of pyrolisis and ICE Engine:
 +
 
 +
Pyrolysis and ICE (Internal Combustion Engine) are two different processes used in energy production. Here are the main differences between them:
 +
 
 +
1. Definition: Pyrolysis is a process of breaking down organic materials (such as wood, biomass, or plastics) at high temperatures in the absence of oxygen to produce a range of products, including bio-oil, biochar, and gases. ICE engines, on the other hand, are mechanical devices that convert the energy produced by burning a fuel (such as gasoline, diesel, or natural gas) into motion, which can be used to power vehicles, machinery, or generators.
 +
 
 +
2. Purpose: Pyrolysis is primarily used to produce biofuels and other renewable energy products from biomass, which can be used as an alternative to fossil fuels. ICE engines, on the other hand, are used in a wide range of applications, including transportation, power generation, and industrial processes.
 +
 
 +
3. Efficiency: Pyrolysis is generally considered to be a relatively inefficient process, as a significant amount of the energy produced by the organic material is lost as heat. ICE engines are more efficient, with some engines achieving efficiencies of up to 50%.
 +
Environmental Impact: Pyrolysis can have a positive environmental impact by providing a way to convert biomass waste into useful products, reducing the amount of waste sent to landfills and reducing greenhouse gas emissions. ICE engines, on the other hand, produce emissions that contribute to air pollution and climate change.
 +
 
 +
4. Scale: Pyrolysis is generally a small-scale process, used to produce biofuels for local use. ICE engines can be used on a small scale (e.g. in lawnmowers or generators) or on a large scale (e.g. in power plants or shipping vessels).
 +
In summary, pyrolysis and ICE engines are two different processes used for energy production, with different purposes, efficiencies, environmental impacts, and scales of use.

Revision as of 14:09, 28 February 2023


Corelation Between Sugar Factory, Automotive Industry,Oil and Gas Company

Assalamualaikum wr,wb

My name is Muhammad Gavin Arisatyawan from ECS 2 class, so i would like to conclude how is the correlation between sugar factory, automotive industry, oil and gas company. This summary is come from Chat GPT. Command: Correlation between sugar factory, automotive industry, oil and gas company

So basicly there is 3 points which is:

1.Sugar factories and the automotive industry:

One possible correlation between these industries is the use of sugar-based biofuels as an alternative to petroleum-based fuels. The automotive industry is a major consumer of liquid fuels, and some automakers are exploring the use of biofuels like ethanol, which can be produced from sugarcane. Sugar factories could play a role in producing biofuels and supplying them to the automotive industry, although this would depend on various factors such as government policies, market demand, and the availability of other feedstocks.

2.Sugar factories and oil and gas companies:

There may be some competition between sugar factories and oil and gas companies for land and resources, as both industries require large amounts of land and water. In some regions, oil and gas companies may also be involved in sugarcane cultivation and ethanol production, which could create some overlap between the two industries. Additionally, some oil and gas companies may be investing in renewable energy, including biofuels, which could create opportunities for collaboration with sugar factories.

3.Automotive industry and oil and gas companies:

The automotive industry is heavily dependent on oil and gas for transportation fuels, as well as for plastics and other materials. Therefore, changes in the oil and gas market, such as price fluctuations or supply disruptions, can have a significant impact on the automotive industry. In addition, the

two industries may collaborate on research and development of new technologies, such as electric vehicles or fuel cells, which could reduce the automotive industry's reliance on traditional fossil fuels.

From my perspective for this summary, while there may not be a direct correlation between sugar factories, the automotive industry, and oil and gas companies, there are some indirect relationships and potential collaborations between these industries.

Wassalamualaikum, wr wb


Class Resume 24/2/2023

Assalamualaikum wr wb

So from today classes, i get a few things: 1. Learning ICE Engine with open modelica

2. input from ICE engine: Fuel, udara

3. Output from ICE engine: flue gas

4. There is some paramaters to operate the ICE engine simulation in Open Modelica

5. Always stay consciouss, where ever we are


Synopsis

Topic : Gasification with Internal Combustion Engine Application

So basicly i would like to choose this topic is because currently im doing my Final Project in the Gasification Laboratory. And this topic will be a challange for me to do another research about the Internal Combustion Engine in Gasification. Biomass is considered to be one of the renewable energy sources with high potential to contribute to the world's energy need. The use of biomass can provide a more positive solution-a renewable source of energy services, including heat, electrical energy, and transportation fuels, which can reduce CO2 emissions, sulphur and heavy metals in the atmosphere, while potentially improving rural income and energy security through the substitution of coal, oil and natural gas.

The engine used in this gasifier is the Mitsubishi 4D31 Engine. It is a 1996 Colt Diesel 100 PS engine which has been modified by having 4 pistons which can operate using 2 fuels, namely synthetic gas and benzol for startup.From the gasification process, we can obtained a syngas which is used for generate the engine. So for this project i will see how was the syngas effiency to operating the engine.

Class Resume 28/2/2023

Assalamualaikum wr,wb

This is some of point what i get from today classes

1. The definition of pyrolisis and what the product of pyrolisis

2. The differences between pyrolisis and ICE engine

3. Giving an example of pyrolisis phenomena with burning a paper

4. The problem of waste treatment in Indonesia. It happen mostly because the people awareness to waste treatment in Indonesia is still low.


I also ask to chat GPT whas is the explaination about the differences of pyrolisis and ICE Engine:

Pyrolysis and ICE (Internal Combustion Engine) are two different processes used in energy production. Here are the main differences between them:

1. Definition: Pyrolysis is a process of breaking down organic materials (such as wood, biomass, or plastics) at high temperatures in the absence of oxygen to produce a range of products, including bio-oil, biochar, and gases. ICE engines, on the other hand, are mechanical devices that convert the energy produced by burning a fuel (such as gasoline, diesel, or natural gas) into motion, which can be used to power vehicles, machinery, or generators.

2. Purpose: Pyrolysis is primarily used to produce biofuels and other renewable energy products from biomass, which can be used as an alternative to fossil fuels. ICE engines, on the other hand, are used in a wide range of applications, including transportation, power generation, and industrial processes.

3. Efficiency: Pyrolysis is generally considered to be a relatively inefficient process, as a significant amount of the energy produced by the organic material is lost as heat. ICE engines are more efficient, with some engines achieving efficiencies of up to 50%. Environmental Impact: Pyrolysis can have a positive environmental impact by providing a way to convert biomass waste into useful products, reducing the amount of waste sent to landfills and reducing greenhouse gas emissions. ICE engines, on the other hand, produce emissions that contribute to air pollution and climate change.

4. Scale: Pyrolysis is generally a small-scale process, used to produce biofuels for local use. ICE engines can be used on a small scale (e.g. in lawnmowers or generators) or on a large scale (e.g. in power plants or shipping vessels). In summary, pyrolysis and ICE engines are two different processes used for energy production, with different purposes, efficiencies, environmental impacts, and scales of use.