Adam Muhammad Fadli
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.
CLASS SUMMARY 07/03/2023
Desalination is a process that removes mineral components from saline water(water containing a high concentration of dissolved salt). More generally, desalination refers to removing salts and minerals from a target substance. Saltwater (especially seawater) is desalinated to produce water suitable for humans to drink it. The way to make it ideal for humans is to filter it, one of the new innovations that have been discovered is using a graphene filter.
graphene is beneficial not just for desalination but also for utilizing carbon capture to address another environmental issue (CCU). The goal of CCU is to collect carbon dioxide (CO2) emissions from a variety of sources and transform them into beneficial goods like fuels, chemicals, or minerals. Biomass is a substance obtained from recently lived organisms and utilized in the production of bioenergy.
Because biomass is organic, it is composed of materials derived from living things like plants and animals. Plants, wood, and garbage are the most typical biomass resources utilized as energy sources. We refer to these as biomass feedstocks. A non-renewable energy source is also possible for biomass energy. an example of biomass is Biochar, what is actually biochar? In a regulated process known as pyrolysis, organic waste from forestry and agricultural operations is burned to produce biochar, a material that resembles charcoal. While it resembles regular charcoal in appearance, biochar is created using a particular method to reduce contamination and properly retain carbon.
-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-
-Comparing the efficiency of EV Car and EV Truck-
ECS 02 Personal Project Synopsis -https://youtu.be/61B-s7l3emk-
1. Synopsis The title will be called "Comparing the efficiency of EV Car and EV Truck". 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 data that is provided by their manufacturer. There will be a difference in efficiency due to the powertrain and weights. for the process to be done we need to determine:
It's worth noting that the efficiency of an electric vehicle can vary depending on several factors, such as driving conditions (e.g., speed, terrain), temperature, and battery age and health. Therefore, it's essential to conduct multiple tests under different conditions to get an accurate estimate of
The calculation of efficiency for EV cars and EV trucks can be different due to their different powertrain and weight. Here's a general process to calculate the difference in efficiency between an EV car and an EV truck:
1)Determine the energy consumption: To calculate the efficiency of an EV, you need to determine the amount of energy that the vehicle consumes to travel a certain distance. This can be done by measuring the battery capacity, the distance traveled, and the battery state of charge before and after the trip.
2)Calculate the energy efficiency: Once you have determined the energy consumption for both the EV car and truck, you can calculate their energy efficiency. Energy efficiency is calculated by dividing the distance traveled by the energy consumed. For example, if an EV car travels 100 miles using 30 kWh of energy, its energy efficiency is 100/30 = 3.33 miles per kWh.
3)Compare the efficiency: After calculating the energy efficiency for both the EV car and truck, you can compare their values. The vehicle with the higher energy efficiency is more efficient in using energy to travel a certain distance. This means it can travel farther on the same amount of energy compared to the other vehicle.
For the formula we can use: -Energy consumption : Energy used (kWh) / Distance traveled (miles or km) -Energy Efficiency: Distance traveled (miles or km) / Energy used (kWh) -Battery Capacity: Battery voltage (V) x Battery capacity (Ah) / 1000 -Range; Battery capacity (kWh) x Energy efficiency (miles/kWh or km/kWh)
Project Progress
Today me and some of my friends started doing the project by cutting the aluminum 1100 into plates, in the video, it can be seen the tools that we are using and the aluminum plate. For the video it can be seen from the link below: https://youtu.be/f5LR6YwSMK4
05/04/2023
Last Wednesday we went to Rasendriya's house to do the project, here is some understanding that I got during the project progress: Definition: Electrolysis is the process of using electricity to split water into hydrogen and oxygen. This reaction takes place in a unit called an electrolyzer. here is the result that I got from doing it
From the 3 experiments, the result that I got were 145, 140, and 110 from 3 different current and voltage
after that, we try it using OpenModelica the parameter that I got consisted of, input of the mass flow rate, fuel density, and the other parameter.
the