Summary of SISTEMAS DE PUESTA A TIERRA Y SU IMPORTANCIA EN LOS SISTEMAS ELÉCTRICOS DE POTENCIA

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00:00:00 - 01:00:00

This video discusses the importance of systems for placing land and their impact on electric power systems. It covers the topics of operability and protection, as well as worker safety. One of the main points made is that systems for placing land are not only important for electrical systems, but for power distribution and safety as well.

  • 00:00:00 In this video, the engineer Rodolfo Soto Carrasco presents the importance of systems to put earth in electrical power systems. He discusses the different phases of electrical power systems, starting with generation. He also addresses the importance of having an effective and efficient system to put earth in power systems, as well as the different perspectives that system designers can have on the subject. Finally, he invites the audience to participate in his upcoming lectures.
  • 00:05:00 This video discusses the importance of systems for landing and power generation, and their connections to the electric systems in power. It presents a simplified diagram of an electric circuit, and discusses the different types of connection that can be found in electric systems. It also discusses the importance of system voltage, and how it can affect the performance of electric systems.
  • 00:10:00 In this video, systems engineer Carlos Alberto López explains the importance of earth-based power systems in power generation systems. Among the systems installations we discuss are neutralization through an impedance, load connection in delta, and distribution systems using connection in delta. Delta connection is particularly useful in systems with no neutral point and can't be landed directly. It has been in use in Mexico's renewable energy systems for a few years now, when power generation from solar and wind installations began to be incorporated into the national grid. Currently, plants generating renewable energy sources in Mexico use transformers for zigzag voltage VALE or WEST. Connection in delta is also used in systems with two no-neutral points, and it has the particular characteristic that this type of connection doesn't have a neutral point, so it can't be landed. I'll explain later why this type of equipment became necessary in power systems. Current conditions of operation for each connection type are shown in the first column of the following diagram: on the left, the voltage and current characteristics of a collected star connected circuit in an asterisk; in the middle, the same circuit's fuctional diagram when equipped with a zigzag transformer; and on the right, the functional diagram of a connection in delta
  • 00:15:00 This video discusses the importance of systems for putting land on Earth and their role in electric power systems. It discusses the negative and zero sequence and how it can be used to extract the current flow in a sequence 0 circuit. This flow is known as the circuit's "return" current and is meant to return to the power source. This current can be monofasic, basic earth, or trifasic earth, and can even be traveling through transformers. When we have an electrical presence of sequence 0, this current is what seeks to conserve energy and close the circuit with the power source. When we design a substation, design a power line, or design any infrastructure that is connected to the national electric system, we must pay attention to the circuit's "return" current and, more specifically, its magnitude and time of detection. If we neglect to do so, we can end up damaging our equipment, and even cause a fire. The protection of sequence 0 is important for all electrical systems, and we must have a good detection of all currents in this sequence. However, we must also pay attention to the circuit's "return" current and protect our equipment with appropriate protection circuits. In the end, this is an example of a protection circuit for
  • 00:20:00 This video discusses the importance of systems for putting power onto the ground, and their impact on electric systems. Part of the system is the use of power supplies, which can be affected by external factors, such as faulty wiring. Sobretensioning is another important issue to consider, as it can cause electric current to flow in the wrong direction, leading to a circuit breaker or electric shock. Systems for putting power onto the ground are important, as they can be damaged by weather or accidents.
  • 00:25:00 The video discusses the importance of systems for putting power onto the ground and their impact on electrical systems. It covers the topics of operability and protection, as well as worker safety. One of the main points made is that systems for putting power onto the ground are not only important for electrical systems, but for power distribution and safety as well.
  • 00:30:00 This video discusses the importance of systems for putting electricity onto the earth and their system-level importance in power systems. It talks about two types of tension: tension of contact and tension of passage. The first is the most important tension in a system for putting electricity onto the earth, as it prevents damage from occurring. The second is important in order to prevent an undesired current from flowing through the system. This video also discusses the importance of conducting materials in a system for putting electricity onto the earth, and the use of copper in particular. Knowing the electrical properties of the ground and the system's interaction with it is necessary for designing a system for putting electricity onto the earth. Before designing a system, it is important to know the ground's resistivity and other specific conditions of the project.
  • 00:35:00 In this video, engineer Rodolfo Soto explains how systems for transferring power from the earth to electrical systems can be important. He discusses the importance of land surveying and design before proceeding to construction, and then tests the system with resistance measurements and power flow simulations. Finally, he discusses the importance of fall protection in electrical systems and provides a lesson on how to calculate circuit breaker ratings.
  • 00:40:00 The video discusses the importance of power systems using systems earth, and the different systems available. It mentions that, in order to design a power system that is both reliable and efficient, it is important to consider the adverse conditions that system will be subjected to. In this case, a regular power transformer is typically taken to higher currents when conducting studies of circuit breakers, as the current level on the high side is lower when the voltage level is higher. This higher current is due to copper wires having a low resistance, and the presence of higher circuit breaker current levels leads to the system running at higher voltage levels. Another consideration when designing a power system is the system's resistance, which should be very low in order to minimize contact and passage currents. Copper is often used for its low resistance properties, and as the number of circuits increases, the resistance decreases. Ultimately, if the system is designed to have a low resistance, it may be better to use a copper-based alloy instead. Finally, one question posed is about the use of galvanized steel in power systems, such as in systems operated by Dell and HP. Some people believe that galvanized steel is a better material for power systems due to its low resistance. I am not familiar with either
  • 00:45:00 The video discusses the importance of systems for placing land and their impact on electric power systems. It shows a graph of sound waves, and it seems that the graph is more accurate than the method of drawing ground by layers. This is because it helps us to model the terrain. It also helps us to design better systems because we can use it to propose or give depth of treatment to our design within the process of designing electrical systems. This is a point that can be helpful in knowing exactly how much resistance the ground has to electricity with the given resistance of the ground. Therefore, the use of layers in modeling helps us to know the depth of burial with what resistance of the ground we are interacting with. In my opinion, the modeling by layers helps us more in designing electrical systems. Many thanks to all of you for joining us here. The Vice President of Energy for America, Mr. Emilio Lozano, was recently in town and he asked the following question: "Can you do simulations of putting the earth to bed without doing any commercial testing with any electrical equipment manufacturers?" I think it is a different algorithm than the one that establishes the standard 80. It is triple the 80 of the standard. It manages a three-dimensional model for ground burial that is symm
  • 00:50:00 In this video, Janet Camarillo from the San Diego Department of Public Works discusses the importance of systems for placing power on the ground and how they can be used in electrical systems with power output. She also provides information on Mexican electrical standards for power distribution and power supply, and how an electrical engineer might inspect an electrical system for compliance. Finally, she discusses the best method for installing an electrical system, based on the terrain and the level of circuit interference.
  • 00:55:00 The author discusses the importance of systems for power generation, and how systems for power generation should be connected to each other to ensure that they are working optimally. One system for power generation that should be connected to another system is if they are nearby. The author also discusses the importance of having records of visits to the system, and how to quickly diagnose an issue with the system. Finally, the author discusses the importance of the layout of the system for power generation depending on the terrain and the type of power system.

01:00:00 - 01:00:00

This video discusses the importance of land systems in electricity systems, and how they can be more easily supported when placed independently. It then goes on to talk about the use of different land systems for solar power systems, and how the high currents associated with conversion can create circuit-breakers in some installations. The main focus of the video, however, is on the use of copper wiring in power systems, as it has the best physical properties for such systems. Finally, the presenter encourages viewers to continue watching their upcoming webinars on energy topics, and to stay connected on social media.

  • 01:00:00 The video discusses the importance of land systems in electricity systems, and how they can be more easily supported when placed independently. It then goes on to talk about the use of different land systems for solar power systems, and how the high currents associated with conversion can create circuit-breakers in some installations. The main focus of the video, however, is on the use of copper wiring in power systems, as it has the best physical properties for such systems. Finally, the presenter encourages viewers to continue watching their upcoming webinars on energy topics, and to stay connected on social media.

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