Osdi Osbert Billi

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Revision as of 23:36, 6 March 2021 by Osdi (talk | contribs) (= 6/03/2021 Saturday)
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Biodata

OSBERT.jpg

Name: Osdi Osbert Billi

NPM: 1806228026

Place and date of birth: Medan, 13th may 2000

Hobby: Watching movies

I am a student in the University of Indonesia majoring in Mechanical engineering. This is the 6th semester, and upon graduation, I hope that I could achieve my dreams to become an engineer. In this KKI program, I hope to experience new technologies that inspires.



23/02/2021 Tuesday

Today, I am good.

Today I learnt about social justice. In my opinion, justice should be unbiased, whether is for the better or worse. It should also be unbiased to a person's prestige or background. However, there are always people with defective traits or incapability. Hence, engineers should find ways to uphold social justice by designing equipment, appliances, or tools to help.

Energy can be explained as something invisible. every object has energy, but it can change as it does work. energy has the capability to do work. F=ma, which means that an action has a reaction. Derivative of work is a change of work from one state to the other and can be expressed in the equation U = Q + W, which are:

U= Change in internal energy

Q= Heat added to system

W= work (- work done by system, + work done to system)

This means that every object, system, etc. has energy that can be lost or gained.

24/02/2021 Wednesday

This is a diagram of a combined cycle power plant that have been labeled

Screenshot (365).png


As the class ended, we are tasked in understanding OpenModelica simulator. In order to do that, we will have to watch tutorials of it.

28/02/2021 Sunday

The tutorials I found in youtube are as bellow.

Openmodelica is a modeling language of systems containing mechanical, electrical, electronic, hydraulic, thermal, control, electric power or process-oriented subcomponents, developed by the non-profit Modelica Association. Although the languages are similar to programming languages, it focuses on a set of equations in explaining a system. In setting up a system, users won't necessarily start typing from scratch, but they can recycle subcomponents made in the libraries.

The interface consists of 4 pages on the bottom right tabs;

Welcome, where there are the the latest news and recent files windows

Modeling, where models are created

Plotting, in a graph

Debug, to correct mistakes or errors made in the models

The left corner are libraries which stores classes to build a model. The class consist of model, connectors, subcomponents, and functions. Each model have four representations; icon, diagram, text, and documentation views.

Icon
Diagram
Text
Documentation

Models contain variables, parameters, and equations. Models can be found in each specific library to be used instead of recreating

Connectors contain flow and stream. Differences in the values of potential variables across a component are what trigger components to react. Typical examples of variables, are temperature, voltage and pressure. Differences in these quantities typically lead to dynamic behavior in the system. Flow variables normally represent the flow of some conserved quantity like mass, momentum, energy, charge, etc. These flows are usually the result of some difference in the across variables across a component model. For example, current flowing through a resistor is in response to a voltage difference across the two sides of the resistor.

After completing a model, checking would be advised to show the number of equations an variables. The simulation will run if both have the same numbers.

2/03/2021 Tuesday

An example is a simple convection model

Diagram of convection

with the following text view of each model

Wall
Convection
Cooling
Ambient air



In this meeting, we talked about the definition of system. To me, a system consists of components and/or elements that interacts among each other to form a unified function. A system is described from its boundaries and environment. One type of system that we are trying to understand is the energy conversion system. Understanding the system will be by analyzing the Bernoulli principle which can equate pressure in place of energy. A current of fluid can't be measured in mass. Thus, an alternative is marking a reference point of position in the fluid . That point will be used in determining the energy within.

= 6/03/2021 Saturday

We are assigned to learn about the components and working principle of a gas turbine. A gas turbine is a combustion engine that generates its torsional speed from gas. By pressurizing air, the force acted by it turns the turbine. The energy produced could be used in the form of electrical or mechanical. The basic components are compressor, combustion chamber, and the turbine.

File:.png

Gas turbine diagram