1. Passive safety containment systems in the nuclear power plant
- Author
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Vidić, Igor and Šadek, Siniša
- Subjects
granično projektirani kvar ,nuclear power plant ,aerosol ,kisik ,demister ,wet scrubber ,passive activation ,katalizator ,containment ,pressure ,teške nesreće ,aerosolni filtar ,sodium thiosulfate ,separator vlage ,tlak ,passive autocatalytic recombiner ,eksplozija ,iodine ,TEHNIČKE ZNANOSTI. Elektrotehnika ,Nuclear power plant Krško ,faktor dekontaminacije ,tlačna posuda ,venting ,jod ,kučište ,rupture disk ,odzračivanje ,toplina ,aerosol filter ,pasivni sustavi za odzračivanje kontejnmenta ,decontamination factor ,pasivni autokatalitički rekombinator ,iodine filter ,rupture disc ,carbon monoxide ,severe accident ,ugljični monoksid ,natrijev tiosulfat ,housing ,vodik ,jodni filtar ,pasivno pokretanje ,tekuće sredstvo za pročišćavanje ,design basis accident ,nuklearna elektrana ,Nuklearna elektrana Krško ,TECHNICAL SCIENCES. Electrical Engineering ,hydrogen ,kontejnment ,passive containment venting systems ,explosion ,heat ,oxygen ,pressure vessel ,catalyst - Abstract
Porast tlaka za vrijeme teške nesreće predstavlja jedan od glavnih problema po pitanju sigurnosti nuklearne elektrane. Sustavi za odzračivanje kontejnmenta i kontolirano ispuštanje plinova kroz filtre ( eng.conteinment filter venting system CFVS) osmišljeni su upravo s ciljem rjšavanja tog gorućeg problema. U uvjetima teške nesreće najučinkovitijim su se pokazali pasivni sustavi (PCFV) koji za svoj rad ne trebaju električnu energiju, intervenciju operatera kao ni pomoćne sustave. Pokreću se samostalno, pucanjem rupture diska na određenom tlaku, a glavna zadaća uz snižavanje tlaka im je filtiranje zraka prije otpusta u atmosferu. Postoje različite metode filtracije, čija je premjerna zadaća eliminacija organskog i elementarnog joda te aerosola. Kako bi se osigurala iznimna efikasnost filtriranja, postupak se provodi u više koraka. Rapidan porast tlaka mogu izazvati eksplozije smjese plinova poput vodika i ugljičnog monoksida, pa je jedan od ključnih postupaka pri očuvanju integriteta kontejnmneta zadržavanje njihove koncentracije na niskoj razini. To se postiže pasivnim autokatalitičkim rekombinatorima (PAR) koji kemijskom reakcijom između vodika / ugljičnog monoksida i kisika oslobađaju toplinu uz nastanak vodene pare. Pressure increas during severe accidents is one of the major problems of nuclear power plant safety. Containment filter venting systems are designed in order to deal with such issue by reducng pressure build-up in containment. In severe accidents conditions, passive containment filtered venting systems (PCFV) have been shown as the most effective, while they have no need for electrical power, operator intervention or any other support system. They are activated independently by bursting rupture disc if containment pressure reachs certain set point and besides decreasing pressure their main goal is to filter contaminated venting gas flow before its release in the atmosphere. There are few different filter venting sytems whose main purpose is to retain radioactive aerosols and fission products such as iodine (both elemental and organic) from venting gas. In order to ensure exceptional filtration efficiency, the process is carried out in several steps. Rapid pressurization of containment can be also caused by explosions of gas mixtures such as hydrogen and carbon monoxide, so one of key procedures for preserving containment itegrity is to keep their concentration low. This is achieved by passive autocatalytic recombiner (PAR) which, by chemical reaction between hydrogen / carbon monoxide and oxygen release heat with formation of aerated watter.
- Published
- 2017