电力系统结构对消防系统供电可靠性的影响

O. Shapovalov, I. Kravets
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To control the operation of fire protection systems, 12-24V DC is used. This requires the use of additional transducers in fire control systems to form the voltage of the corresponding form. \nSimultaneous exhaustion of tens and hundreds of settlements, as evidenced by the reports of the DNS of Ukraine and other operational services, affects the provision of fire protection of objects and the safety of people [5]. Taking into account the unpredictability of the occurrence of events, it is necessary to apply methods of providing backup power supply independent of power supply and climatic conditions of operation of fire protection systems. \nThe purpose of the work is to propose the optimal way of forming the supply voltage and adjusting its parameters for the backup power of electric consumers of automatic fire protection systems powered by an autonomous power supply, which consists of a unit of battery and autonomous voltage inverters. Such a backup power scheme allows simultaneous control and regulation of the voltage, frequency, and the ability to determine the parameters of the autonomous source elements. \nIn the process of reviewing and assessing the reliability of power supply of electric consumers of automatic fire protection systems, previously noted ways to increase the reliability of the operation of automatic fire protection systems by reserving power supply from autonomous sources with the use of accumulator batteries and autocompressor voltage inverters were taken into account. 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引用次数: 0

摘要

乌克兰领土上发生的大量自然和人为紧急情况,不仅造成建筑物、构筑物、城市和整个地区遭到毁林,而且要求为不依赖于某些地区或城市和物体的电力供应的电力来源提供消防系统。无论控制方式如何,自动消防系统的元件都是参与单一工艺过程的元件(通知人们危险,喂食,供水,除烟等)。所有消防系统(SPPZ),作为主要电源使用共同电网(220 / 380V交流)。在这种不变的形式下,电能被馈送给供电执行元件(水泵、风机等异步执行器)。控制消防系统的运行,使用12-24V直流。这需要在火控系统中使用额外的传感器来形成相应形式的电压。乌克兰DNS和其他业务服务的报告证明,数十个和数百个定居点同时耗尽,影响了对物体的消防保护和人员安全[5]。考虑到事件发生的不可预测性,有必要采用不依赖于消防系统供电和运行气候条件的备用电源方法。本文的工作目的是提出由电池单元和自主电压逆变器组成的自主电源供电的自动消防系统用电用户备用电源的电压形成和参数调整的最佳方法。这种备用电源方案允许同时控制和调节电压、频率,并能够确定自主源元件的参数。在审查和评估自动消防系统用电用户供电可靠性的过程中,考虑到前面提到的通过使用蓄电池和自动压缩机电压逆变器从自主源保留供电来提高自动消防系统运行可靠性的方法。为了比较,从所有已知的消防系统电工中,使用最常见和最强大的电气消费者-异步电动机。用概率方法计算了具有自主电压逆变器的发电机组和蓄电池组成的内部消防供水系统的备用电源系统的功能,并考虑了电力线路意外断开的性质,证明了所提出的K2AIN-AD和2K2AIN-AD保留方案都提高了消防功能系统的可靠性。类似项目数量的增加改善了电力供应的质量特性,但对可靠性产生了负面影响,尽管与双变变电站的备用相比略有下降。
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INFLUENCE OF THE ELECTRIC POWER SYSTEM STRUCTURE ON THE RELIABILITY OF ELECTRICAL SUPPLY OF FIRE PROTECTION SYSTEMS
A large number of natural and man-made emergencies occurring on the territory of Ukraine, and not only that cause deforestation of buildings, structures, objects and cities and whole districts, require the provision of fire protection systems for sources of electricity that are independent of Electricity supply of certain areas or cities and objects. Regardless of the control mode, elements of automatic fire protection systems are elements that take part in a single technological process (notifying people of danger, feeding, water, removing smoke, etc.). All systems of fire protection (SPPZ), as the main power source use a common grid (220 / 380V AC). In this unchanged form, the electric power is fed to supply power executive elements (asynchronous actuators of water pumps, fans, etc.). To control the operation of fire protection systems, 12-24V DC is used. This requires the use of additional transducers in fire control systems to form the voltage of the corresponding form. Simultaneous exhaustion of tens and hundreds of settlements, as evidenced by the reports of the DNS of Ukraine and other operational services, affects the provision of fire protection of objects and the safety of people [5]. Taking into account the unpredictability of the occurrence of events, it is necessary to apply methods of providing backup power supply independent of power supply and climatic conditions of operation of fire protection systems. The purpose of the work is to propose the optimal way of forming the supply voltage and adjusting its parameters for the backup power of electric consumers of automatic fire protection systems powered by an autonomous power supply, which consists of a unit of battery and autonomous voltage inverters. Such a backup power scheme allows simultaneous control and regulation of the voltage, frequency, and the ability to determine the parameters of the autonomous source elements. In the process of reviewing and assessing the reliability of power supply of electric consumers of automatic fire protection systems, previously noted ways to increase the reliability of the operation of automatic fire protection systems by reserving power supply from autonomous sources with the use of accumulator batteries and autocompressor voltage inverters were taken into account. For comparison, from all known electricians of fire protection systems, the most common and most powerful electric consumer is used - an asynchronous motor. The probabilistic method for calculating the functioning of the backup power supply system for an internal fire-fighting water supply system using generator sets and accumulator batteries with autonomous inverters of voltage, taking into account the accidental nature of the disconnection of power lines, proved that the proposed reservation scheme, both with K2AIN-AD and with 2K2AIN-AD increases the reliability of functioning systems for fire protection. An increase in the number of similar items led to an improvement in the quality characteristics of the power supply, but had a negative impact on reliability, albeit slightly compared to the backup from the two-transformer substation.
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