ความเชื่อถือได้ของระบบไฟฟ้าสำหรับอุ

Reliability of electric systems for large buildings, industry and increasingly important due to the transmission system or distribution system is more complicated, as well as a device in the system, it deteriorated according to usage. Therefore, the risk for the reliability of the electrical system caused by a power distribution device in the transmission interrupted or electrical failure occurs. In addition, the cause of the power failure, many such cases are caused by insufficient power capacity (Power Shortage) electrical system test (Testing Utility) electrical system maintenance (Preventive Maintenance Practice) to increase the size of the circuit in the transmission and distribution system (Uprating and Expanding the Transmission), etc. Power users will want to deal with the effects of such an event, so that manual operation or interruption of the production process of goods when a power failure occurs.Design of power system reliability is a good (Stability), reliability (Reliability) and reliable (Dependability) will also need to consider other factors, such as security (Safety), agility (Flexibility), very easy to operate and maintenance (Operation and Maintenance) will be economical (Economy).ระบบไฟฟ้าสำรองเป็นปัจจัยสำคัญที่จะช่วยให้ระบบไฟฟ้าให้มีความเสถียรภาพ มีความเชื่อถือได้ และสามารถใช้งานได้ตลอดเวลาที่ต้องการ แต่จะต้องใช้เงินลงทุนสูง ดังนั้นผู้ใช้ไฟฟ้าจะต้องพิจารณาเสียก่อนว่ากิจการของตนเอง จำเป็นต้องมีระบบไฟฟ้าที่มีระดับความมั่นคงเพียงใด และกิจกรรมการใช้ไฟฟ้าใดบ้างที่เป็นกิจกรรมที่สำคัญและไม่สามารถหยุดกระบวนการทำงานเป็นระยะเวลานานได้ The National Fire Protection Association (NFPA) ได้แบ่งระดับของความเชื่อถือได้ของระบบไฟฟ้า ตามความสำคัญของภาระไฟฟ้าออกเป็น 4 ระดับ คือ .1.Highest Level คือ ระบบไฟฟ้าฉุกเฉินเพื่อความปลอดภัยในชีวิต เช่น ระบบไฟแสงสว่าง ระบบระบายอากาศ ระบบป้องกันเพลิงไหม้ เป็นต้น

The reliability of the electrical system for the building industry and has become increasingly important due to the transmission or distribution system is much more complicated. Including deterioration in the system to use for a long time. So the risk in the reliability of the power system. Caused by equipment failure in the electrical distribution system. Or wind power system The cause of the power outage, there are many instances of the power is insufficient (Power Shortage) Electrical Testing (Utility Testing) maintenance of electrical systems (Preventive Maintenance Practice) to increase the transmission and extended range. The distribution system (Uprating and Expanding the Transmission) so power users will have to deal with the impact of such events on their own to ensure the operations or the production process is not disrupted when a power failure occurs
, the electrical system design good. CONSIDERATIONS Stability (Stability) reliability. (Reliability) and reliability. (Dependability) will also consider other factors such as safety (Safety) high mobility. (Flexibility), ease of operation and maintenance (Operation and Maintenance) and has to be economical (Economy) with
backup power systems are key factors that will help ensure a stable power system. Reliable And can be activated at any time. But it requires high investment. Therefore, consumers must be considered before that of their own affairs. Require a system that has undergone a steady one. And the use of electricity What are the key events and processes can not be stopped as long as The National Fire Protection Association (NFPA) has divided the level of reliability of the power system. According importance of load into four levels
. 1.Highest Level is for emergency power systems, life safety systems such as lighting. Ventilation systems Fire protection systems, etc.