Difference between revisions of "Adam Muhammad Fadli"
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1. Supply chain: One possible connection between these factories is that they could all be part of the same supply chain. For example, the sugar cane factory might supply sugar to the automotive factory, which uses it to make ethanol for fuel. The oil and gas factory might also supply fuel to the automotive factory, and could potentially use some of the ethanol as a blend component for gasoline. Additionally, the oil and gas factory might supply diesel or other fuels to power the sugar cane factory's machinery. | 1. Supply chain: One possible connection between these factories is that they could all be part of the same supply chain. For example, the sugar cane factory might supply sugar to the automotive factory, which uses it to make ethanol for fuel. The oil and gas factory might also supply fuel to the automotive factory, and could potentially use some of the ethanol as a blend component for gasoline. Additionally, the oil and gas factory might supply diesel or other fuels to power the sugar cane factory's machinery. | ||
| − | 2. Energy consumption: Another possible connection is that all of these factories are likely to be large consumers of energy. The sugar cane factory needs energy to power its machinery and to process the sugar cane into sugar or ethanol. The automotive factory needs fuel to power its assembly lines and other operations. The oil and gas factory needs the energy to extract, refine, and transport oil and gas. Depending on the location and energy sources available, these factories might also be connected in terms of their electricity or heat supply. | + | 2. Energy consumption: Another possible connection is that all of these factories are likely to be large consumers of energy. The sugar cane factory needs the energy to power its machinery and to process the sugar cane into sugar or ethanol. The automotive factory needs fuel to power its assembly lines and other operations. The oil and gas factory needs the energy to extract, refine, and transport oil and gas. Depending on the location and energy sources available, these factories might also be connected in terms of their electricity or heat supply. |
3. Environmental impacts: A third possible connection is that all of these factories have the potential to have significant environmental impacts. The sugar cane factory might generate waste products that need to be disposed of or might contribute to deforestation if it relies on clearing land for new plantations. The automotive factory might generate air or water pollution from its manufacturing processes, or contribute to greenhouse gas emissions through its use of fossil fuels. Of course, the oil and gas factory is directly involved in extracting and processing fossil fuels, which have a wide range of environmental impacts. | 3. Environmental impacts: A third possible connection is that all of these factories have the potential to have significant environmental impacts. The sugar cane factory might generate waste products that need to be disposed of or might contribute to deforestation if it relies on clearing land for new plantations. The automotive factory might generate air or water pollution from its manufacturing processes, or contribute to greenhouse gas emissions through its use of fossil fuels. Of course, the oil and gas factory is directly involved in extracting and processing fossil fuels, which have a wide range of environmental impacts. | ||
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== -Class Review- 24/02/2023 == | == -Class Review- 24/02/2023 == | ||
| − | In yesterday's class, we learned to use OpenModelica to make a simulation for Internal Combustion Engine,We learned from Mr. Tanwir | + | In yesterday's class, we learned to use OpenModelica to make a simulation for Internal Combustion Engine, We learned from Mr. Tanwir about the process of using OpenModelica. For the parameter, we use Thermosyspro as its guidance. But before we must download the library that is given in the OpenModelica library. The model is already pre-installed in the OpenModelica library. |
== -Introspection- == | == -Introspection- == | ||
| − | For Class | + | For the Class on 24 February, my friends and I are late to join Mr.Dai. I am really sorry for being late and will not repeat the same mistake again. |
== -Personal Project Progress- == | == -Personal Project Progress- == | ||
| − | == -Calculating the efficiency that is | + | == -Calculating the efficiency that is produced by mixing tools- == |
1. Synopsis | 1. Synopsis | ||
| − | The title will be called "Calculating the efficiency that is | + | The title will be called "Calculating the efficiency that is produced by mixing tools". For the hands-on Project, I would like to do the topic of "electric energy to a mechanic energy". For the project, I will use mixing tools such as a mixer, blender, chopper and etc. |
for the process to be done we need to determine: | for the process to be done we need to determine: | ||
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2) Efficiency: This is a measure of how much of the electrical energy input is converted into mechanical energy output. It is expressed as a percentage or decimal fraction. | 2) Efficiency: This is a measure of how much of the electrical energy input is converted into mechanical energy output. It is expressed as a percentage or decimal fraction. | ||
| − | from that we can analyze mixing equipment, you must ensure accurate measurement of the speed and impeller diameter. Changing the speed of an existing mixer may be difficult and expensive. Modifying or replacing an impeller may be easier and less costly. However, an impeller modification, especially if it adds weight, may cause mechanical problems that require evaluation before changes are made. | + | from that we can analyze mixing equipment, you must ensure accurate measurement of the speed and impeller diameter. Changing the speed of an existing mixer may be difficult and expensive. Modifying or replacing an impeller may be easier and less costly. However, an impeller modification, especially if it adds weight, may cause mechanical problems that require evaluation before changes are made. After we find the necessary equation than we can calculate the formula |
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Revision as of 22:07, 27 February 2023
Contents
-Get To Know Me-
My name is Adam Muhammad Fadli with student ID 2006517745. You can call me Adam. I am 19 years old, I was born on 19 April 2003 in Jakarta, and am currently in my sixth semester at the University Of Indonesia.
My hobbies are playing basketball and games, I think the hobbies help my social skill.
Thank you for taking the time to read it.
-Chat session with CHATGPT-
Adam: Relation between sugar cane factory, automotive factory, and oil and gas factory? CHATGPT: There are several possible ways in which a sugar cane factory, an automotive factory, and an oil and gas factory could be related, depending on the specific context and circumstances. Here are a few examples:
1. Supply chain: One possible connection between these factories is that they could all be part of the same supply chain. For example, the sugar cane factory might supply sugar to the automotive factory, which uses it to make ethanol for fuel. The oil and gas factory might also supply fuel to the automotive factory, and could potentially use some of the ethanol as a blend component for gasoline. Additionally, the oil and gas factory might supply diesel or other fuels to power the sugar cane factory's machinery.
2. Energy consumption: Another possible connection is that all of these factories are likely to be large consumers of energy. The sugar cane factory needs the energy to power its machinery and to process the sugar cane into sugar or ethanol. The automotive factory needs fuel to power its assembly lines and other operations. The oil and gas factory needs the energy to extract, refine, and transport oil and gas. Depending on the location and energy sources available, these factories might also be connected in terms of their electricity or heat supply.
3. Environmental impacts: A third possible connection is that all of these factories have the potential to have significant environmental impacts. The sugar cane factory might generate waste products that need to be disposed of or might contribute to deforestation if it relies on clearing land for new plantations. The automotive factory might generate air or water pollution from its manufacturing processes, or contribute to greenhouse gas emissions through its use of fossil fuels. Of course, the oil and gas factory is directly involved in extracting and processing fossil fuels, which have a wide range of environmental impacts.
Overall, the specific relationship between these factories will depend on a variety of factors, such as their location, ownership structure, and the products they produce. However, it's clear that there are many potential connections and interdependencies between these different types of factories, and that they could have significant impacts on each other and on the wider economy and environment.
-Class Review- 24/02/2023
In yesterday's class, we learned to use OpenModelica to make a simulation for Internal Combustion Engine, We learned from Mr. Tanwir about the process of using OpenModelica. For the parameter, we use Thermosyspro as its guidance. But before we must download the library that is given in the OpenModelica library. The model is already pre-installed in the OpenModelica library.
-Introspection-
For the Class on 24 February, my friends and I are late to join Mr.Dai. I am really sorry for being late and will not repeat the same mistake again.
-Personal Project Progress-
-Calculating the efficiency that is produced by mixing tools-
1. Synopsis The title will be called "Calculating the efficiency that is produced by mixing tools". For the hands-on Project, I would like to do the topic of "electric energy to a mechanic energy". For the project, I will use mixing tools such as a mixer, blender, chopper and etc. for the process to be done we need to determine:
1) Electrical power input: This is the amount of electrical power that is being supplied to the food mixing tool. It is typically measured in watts (W). 2) Efficiency: This is a measure of how much of the electrical energy input is converted into mechanical energy output. It is expressed as a percentage or decimal fraction.
from that we can analyze mixing equipment, you must ensure accurate measurement of the speed and impeller diameter. Changing the speed of an existing mixer may be difficult and expensive. Modifying or replacing an impeller may be easier and less costly. However, an impeller modification, especially if it adds weight, may cause mechanical problems that require evaluation before changes are made. After we find the necessary equation than we can calculate the formula
