ATEX: Blower technology and explosion protection AERZEN combines effective reactions with preventive measures As specialist in blower and compressor technology for conveying air and gaseous media, the AERZEN Ex-protection within different ATEX-zones is a part of day-to-day business. Combustible dust, spatial distribution, oxygen share, ignition source and the closed reservoir are components of a dust explosion and form the so-called explosion pentagon.Combustible materialIn ATEX relevant application ranges such as the chemical industry technologies of AERZEN are the right choice.Dust-air mixtures are explosive when the dust consists of combustible material. This includes besides timber, flour and cellulose cocoa, coffee, starch and inorganic substances such as the elements magnesium, aluminium and iron. These raw materials are typical when pneumatic conveying systems are used for which blowers or compressors made by AERZEN ensure the continuous supply of the production by the silo.Closed reservoirPneumatic conveying uses a piping system for the material flow. Here, in the sense of the explosion pentagon this concerns a closed reservoir, without which an explosion is not possible, and without which a pneumatically driven material flow would not work.Dust distributionThe process air generated by blowers or compressors conveys amongst other things fine dusts and powders through the piping system. Then, inside the piping, the conveying air is mixed with the product. The fine distribution increases the risk of a dust explosion as the combustible substance can ignite easily due to its large surface and the maximum availability of oxygen. OxygenIf a substance burns, this conceals an oxidation. In case of a fire, this proceeds slowly, in case of an explosion abruptly. Both of them have in common that oxygen is needed to generate a fire as well as an explosion. Therefore, explosives always carry their own oxidant. No matter whether timber or explosives: Both of them need activation energy fed in from the outside to be able to burn or explode.Ignition sourceWhat a match is for timber and a lit fuse for explosives is for pneumatic conveying mechanical friction, electrostatic charges or hot sparks. Frequently, they are sufficient as activation energy to detonate a dust-air mixture.Influence of the blower technology on the explosion pentagonConcerning pressure conveying of dust or combustible gases, the only way to intervene with the conception of the suitable blower or compressor technology is at the ignition source of the explosion pentagon. It must be excluded that an ignitable energy source is introduced into the conveying medium. Concerning assemblies with ATEX approval (2014/34/EU) AERZEN most effectively and elegantly integrated a spark arrester in the discharge side silencer. The highlight of this solution is that the spark arrester works simultaneously as effective silencer. Compared with silencers with dampening material, concerning reactive silencers a slotted piping system eliminates the noise by means of a time-delayed interference of sound curves (interference method). This patented functional principle on the one hand works free from wear with regard to the otherwise eroding, loosening filter fabric and on the other hand ensures that sparks peter out and extinguish across the long way through the silencer.Cause for sparksThe spark arrester within the AERZEN discharge silencers represents an effective measure to safely prevent the entry of activation energy into the material conveying flow. Potential risks in Ex-protection areas cannot be excluded even with a blower. If it comes to an input of sparks into the pressure pipe, as a rule, this results from a defect of the compressor stage. A too high bearing clearance, for example due to lack of maintenance, may be the reason why inside the rotary pistons do not rotate any longer with the defined air gap but hit together and generate sparks. In application ranges coming under the ATEX regulations, the spark arrester within the discharge silencers represents an effective measure to safely prevent the entry of activation energy into the material conveying flow. Thus, the silencer is among the reactive ATEX measures, as it is used when a damage has already occurred.While the above measures aim to guarantee the Ex-protection, particularly for pressure pipes, AERZEN considers also for vacuum conveying the ATEX requirements as integral part of a blower solution from one single source. Concerning vacuum conveying the penetration of the material into the blower must be excluded safely. For this, mainly filter inserts are used, creating a barrier between the material to be transported and the assembly, in this case providing the negative pressure. Furthermore, AERZEN developed their own zone separation filters, representing as so-called sentinel filter a further decoupling between the upstream process and the assembly. “If it comes to a filter fracture we can react accordingly quickly and shut down the assembly, before an explosive atmosphere can generate inside the compressor stage,” explains Fabian Pasimeni, product manager for blowers and rotary lobe compressors at AERZEN. If, however, as a result of a chain of unfortunate circumstances it comes to an explosion the effects on the environment can be reduced effectively by using special material for the construction of the compressor stage. Pasimeni: “If the ATEX requirements and the explosion risk are high, for the housing of the compressor stage we no longer use normal grey cast iron, but special spheroidal graphite cast iron.” Mainly in ATEX relevant application ranges AERZEN uses early warning systems to prevent serious and safety relevant damage from the start. Here, this concerns the active mechanisms of Condition Monitoring, with which potential damage can be detected reliably - mainly by means of vibrational monitoring. “We offer an expansion stage covering three levels,” says Pasimeni. The easiest way to monitor vibrations of a compressor stage are special measurement points installed near the bearing positions. With sensors as second expansion stage AERZEN takes a step towards continuous monitoring. The sensors installed at the sides of the compressor stage measure continuously and emit corresponding 4-20 mA signals which can be monitored and evaluated by the control system. If the AERZEN blower itself is installed in an ATEX zone, the sensors are supplied with a corresponding approval. “Meanwhile, our modular system of blower solutions is so nuanced that we are able to quote for different applications with varying ATEX requirements as standard,” states Pasimeni. Based on this extensive know-how AERZEN developed the third stage of real-time monitoring. With up to four sensors per compressor stage “we can look precisely into the inside and find out the condition of the corresponding bearing,” explains the product manager. This includes condition monitoring of internal rings, Pitting (local material damage) and touching of the rotor against the internal housing wall as a consequence of thermal deformations. If the assemblies themselves are installed in an ATEX zone, AERZEN serves this application with motors of different rating and further components with ATEX approval.
