{"id":21093,"date":"2022-06-23T10:22:45","date_gmt":"2022-06-23T17:22:45","guid":{"rendered":"https:\/\/brainfiller.com\/?p=21093"},"modified":"2025-11-19T09:40:47","modified_gmt":"2025-11-19T16:40:47","slug":"how-to-perform-an-arc-flash-study-part-4-arc-duration-and-time-current-curves","status":"publish","type":"post","link":"https:\/\/brainfiller.com\/es\/electrical-safety-codes-and-standards\/how-to-perform-an-arc-flash-study-part-4-arc-duration-and-time-current-curves\/","title":{"rendered":"C\u00f3mo realizar un estudio de arco el\u00e9ctrico: parte 5 C\u00e1lculos de la energ\u00eda incidente y de los l\u00edmites del arco el\u00e9ctrico"},"content":{"rendered":"
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La parte final de esta serie examina los c\u00e1lculos de la energ\u00eda incidente y los l\u00edmites de arco el\u00e9ctrico para el ejemplo de tablero de distribuci\u00f3n de 480 V utilizado en esta serie. La norma IEEE 1584 (Gu\u00eda IEEE para realizar c\u00e1lculos de riesgo de arco el\u00e9ctrico) define la energ\u00eda incidente como \u201cla cantidad de energ\u00eda t\u00e9rmica impresa sobre una superficie, a cierta distancia de la fuente, generada durante un evento de arco el\u00e9ctrico\u201d. Se puede utilizar para determinar la clasificaci\u00f3n de arco de la ropa y el equipo de protecci\u00f3n como parte de una evaluaci\u00f3n de riesgo de arco el\u00e9ctrico.<\/p>

Dos variables importantes son la corriente de falla de arco y la duraci\u00f3n del arco. La corriente de falla de arco se abord\u00f3 en la parte 2. La duraci\u00f3n del arco define la exposici\u00f3n total evaluando la caracter\u00edstica de corriente de tiempo del dispositivo de protecci\u00f3n que se espera que funcione y elimine el arco el\u00e9ctrico. La parte 4 concluy\u00f3 que el dispositivo para este ejemplo funcionar\u00e1 en 1 ciclo el\u00e9ctrico, o 0,167 segundos.<\/p>

Distancia de trabajo<\/h2>

La norma IEEE 1584 define la distancia de trabajo como la distancia entre la fuente de arco potencial y la cara y el pecho del trabajador. La energ\u00eda incidente var\u00eda exponencialmente con la inversa de la distancia: cuanto mayor es la distancia, menor es la energ\u00eda incidente y viceversa. La norma IEEE 1584 enumera distancias de trabajo \u201ct\u00edpicas\u201d de 18 pulgadas para equipos de bajo voltaje, como paneles y centros de control de motores, 24 pulgadas para tableros de distribuci\u00f3n de bajo voltaje y 36 pulgadas para equipos de medio voltaje. Sin embargo, tambi\u00e9n se debe considerar la tarea espec\u00edfica al definir esta distancia. Para el ejemplo del tablero de distribuci\u00f3n de 480 V, se utilizan 18 pulgadas.<\/p>

Configuraci\u00f3n de electrodos<\/h2>

Otra variable importante es la configuraci\u00f3n de los electrodos. La primera edici\u00f3n de IEEE 1584 se bas\u00f3 en dos configuraciones de electrodos: denominadas configuraci\u00f3n de caja (recinto) y configuraci\u00f3n abierta (al aire). En cada caso, los electrodos estaban orientados verticalmente, lo que equivale hoy a conductores\/electrodos verticales dentro de una caja\/recinto met\u00e1lico (VCB) y conductores\/electrodos verticales al aire libre (VOA). Con base en investigaciones posteriores, se determin\u00f3 que la energ\u00eda incidente puede verse muy afectada por otras orientaciones de los electrodos e influir en la trayectoria del arco. Para un recinto, esto condujo a la introducci\u00f3n de conductores\/electrodos verticales terminados en una barrera aislante dentro de una caja\/recinto met\u00e1lico (VCBB) y conductores\/electrodos horizontales dentro de una caja\/recinto met\u00e1lico (HCB). HOA es para aire libre.<\/p>

La Tabla 1 ofrece una comparaci\u00f3n de la energ\u00eda incidente y el l\u00edmite del arco el\u00e9ctrico en funci\u00f3n de las configuraciones VCB, VCBB y HCB. La energ\u00eda incidente aumenta con VCBB y aumenta m\u00e1s con HCB. Para tableros de distribuci\u00f3n como este ejemplo, se utiliza normalmente VCB, as\u00ed como VCBB si el alimentador termina en un disyuntor, posiblemente comport\u00e1ndose como VCBB. Se debe evitar la tentaci\u00f3n de utilizar HCB en el peor de los casos, a menos que sea una configuraci\u00f3n realista. Probablemente no se utilizar\u00eda a menos que un conductor o barra colectora estuviera dirigida hacia el trabajador.<\/p>

Tama\u00f1o del recinto<\/h2>

Cuando se produce un arco el\u00e9ctrico, el recinto tiene un efecto de concentraci\u00f3n de la energ\u00eda incidente. Las ecuaciones IEEE 1584 para los c\u00e1lculos de la energ\u00eda incidente y del l\u00edmite del arco el\u00e9ctrico se basan en una abertura de recinto normalizada de 20 x 20 pulgadas. Si la abertura del recinto es m\u00e1s grande, la energ\u00eda estar\u00e1 menos concentrada, lo que dar\u00e1 como resultado menos energ\u00eda por unidad de \u00e1rea. La Tabla 2 compara la energ\u00eda incidente calculada utilizando la configuraci\u00f3n VCB y una distancia de trabajo de 18 pulgadas con diferentes tama\u00f1os de recinto que van desde 20 x 20 pulgadas hasta 36 x 36 pulgadas.<\/p>

L\u00edmite de arco el\u00e9ctrico<\/h2>

La norma IEEE 1584 define el l\u00edmite del arco el\u00e9ctrico como \u201cla distancia desde una posible fuente de arco en la que la energ\u00eda incidente se calcula en 1,2 cal\/cm2\u201d. Este es el valor de la energ\u00eda incidente en el que se requiere ropa resistente al arco y equipo de protecci\u00f3n asociado. Las tablas 1, 2 y 3 tambi\u00e9n incluyen el l\u00edmite del arco el\u00e9ctrico para ilustrar el efecto de la configuraci\u00f3n del electrodo, el tama\u00f1o del gabinete y la duraci\u00f3n del arco en el l\u00edmite.<\/p>

Duraci\u00f3n<\/h2>

Los resultados del c\u00e1lculo de la parte 5 indican que la energ\u00eda incidente es baja y, en algunos casos, inferior a 1,2 cal\/cm2. Esto se debe al tiempo de despeje muy r\u00e1pido de 1 ciclo. La duraci\u00f3n suele considerarse la variable m\u00e1s cr\u00edtica y, si la duraci\u00f3n aumenta, la energ\u00eda incidente aumenta proporcionalmente. La tabla 3 ilustra el efecto que pueden tener las duraciones de arco m\u00e1s prolongadas.<\/p>

Los estudios de arco el\u00e9ctrico pueden ser complejos y requieren decisiones importantes en cuanto a las variables utilizadas. Cada una de ellas debe considerarse cuidadosamente porque todas pueden afectar significativamente los resultados.<\/p>

Este art\u00edculo se public\u00f3 originalmente en la edici\u00f3n de mayo de 2022 de la revista Electrical Contractor.<\/p>\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t<\/div>","protected":false},"excerpt":{"rendered":"

How to Perform an Arc Flash Study \u2013 Part 5 Incident Energy and Arc Flash Boundary Calculations: The final part of this series examines incident energy and arc flash boundary calculations for the 480V panelboard example used in this series. 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