{"id":40651,"date":"2024-01-23T11:11:27","date_gmt":"2024-01-23T09:11:27","guid":{"rendered":"https:\/\/obera.fr\/non-classifiee\/cilat-jane-risite-me-te-fundit-ne-heqjen-e-pluhurit-dhe-filtrimin-e-shkarkimeve-industriale\/"},"modified":"2025-04-15T11:29:19","modified_gmt":"2025-04-15T09:29:19","slug":"quelles-innovations-actuelles-filtration-emissions-industrielles","status":"publish","type":"post","link":"https:\/\/obera.fr\/sq\/keshilla-jone-sq\/quelles-innovations-actuelles-filtration-emissions-industrielles\/","title":{"rendered":"Cilat jan\u00eb risit\u00eb aktuale n\u00eb heqjen e pluhurit dhe filtrimin e shkarkimeve industriale?"},"content":{"rendered":"\n

Inovacioni n\u00eb heqjen e pluhurit dhe filtrimin e emetimeve industriale fokusohet n\u00eb materialet e filtrimit dhe teknologjit\u00eb e kontrollit dhe mir\u00ebmbajtjes s\u00eb pajisjeve<\/strong> . Ai synon t\u00eb p\u00ebrmir\u00ebsoj\u00eb prakticitetin dhe efikasitetin e sistemeve t\u00eb grumbullimit t\u00eb pluhurit. <\/p>\n\n

\"dizajn<\/figure>\n\n

Tendencat aktuale n\u00eb inovacionin n\u00eb kolektor\u00ebt e pluhurit dhe filtrat e ajrit<\/h2>\n\n

Inovacionet n\u00eb mir\u00ebmbajtjen n\u00eb distanc\u00eb<\/strong> t\u00eb sistemeve t\u00eb heqjes s\u00eb pluhurit dhe pajisjeve t\u00eb filtrimit:<\/strong> <\/h3>\n\n

Integrimi i sensor\u00ebve dhe teknologjive t\u00eb “internetit t\u00eb gj\u00ebrave” synon t\u00eb siguroj\u00eb informacion n\u00eb koh\u00eb reale mbi sjelljen e sistemit t\u00eb grumbullimit t\u00eb pluhurit dhe t\u00eb ndaj\u00eb k\u00ebt\u00eb informacion midis prodhuesit dhe furnizuesit t\u00eb tij. P\u00ebr shembull, valixhet e modemit sigurojn\u00eb mir\u00ebmbajtjen n\u00eb distanc\u00eb t\u00eb kolektorit t\u00eb pluhurit.<\/strong> Objektivi \u00ebsht\u00eb q\u00eb t\u00eb jet\u00eb n\u00eb gjendje t\u00eb ndaj\u00eb n\u00eb koh\u00eb reale ose sipas k\u00ebrkes\u00ebs parametrat kryesor\u00eb t\u00eb funksionimit t\u00eb nj\u00eb instalimi thith\u00ebs midis operatorit dhe prodhuesit (ngjyrosja e delt\u00ebs P, konsumi i energjis\u00eb, historia e defekteve, numri i or\u00ebve t\u00eb funksionimit, funksionimi i n\u00ebn-komponent\u00ebve t\u00eb ndrysh\u00ebm, etj.). K\u00ebto zgjidhje b\u00ebjn\u00eb t\u00eb mundur monitorimin m\u00eb t\u00eb sakt\u00eb t\u00eb ecuris\u00eb s\u00eb nj\u00eb instalimi dhe rritjen e besueshm\u00ebris\u00eb s\u00eb tij<\/strong> , nd\u00ebrkoh\u00eb q\u00eb reduktojn\u00eb nevoj\u00ebn e teknik\u00ebve t\u00eb mir\u00ebmbajtjes p\u00ebr t\u00eb udh\u00ebtuar. <\/p>\n\n

Inovacionet n\u00eb kursimin e energjis\u00eb:<\/strong><\/h3>\n\n

Kontrolli i sakt\u00eb i zhbllokimit<\/strong> \u00ebsht\u00eb nj\u00eb shembull. Ajri i kompresuar \u00ebsht\u00eb nj\u00eb l\u00ebng me nj\u00eb kosto t\u00eb konsiderueshme. Kontrolli i sakt\u00eb ndihmon n\u00eb reduktimin e konsumit t\u00eb ajrit t\u00eb kompresuar. Zhbllokimi do t\u00eb filloj\u00eb pik\u00ebrisht kur nevojitet (koh\u00ebzgjatja e programuar ose ndryshimi i presionit). Kjo zvog\u00eblon numrin e operacioneve t\u00eb zhbllokimit dhe rrjedhimisht konsumin dhe konsumin e medias s\u00eb filtrit. P\u00ebr m\u00eb tep\u00ebr, pajisjet e reja t\u00eb grumbullimit t\u00eb pluhurit<\/strong> jan\u00eb projektuar p\u00ebr t\u00eb qen\u00eb efikase n\u00eb energji. K\u00ebshtu, zbatimi i grykave t\u00eb reja t\u00eb injektimit t\u00eb ajrit t\u00eb kompresuar venturi n\u00eb operacionet e zhbllokimit redukton konsumin e ajrit t\u00eb kompresuar me 20% deri n\u00eb 40%, p\u00ebr nj\u00eb efekt identik \u00e7bllokues.<\/strong> <\/p>\n\n

S\u00eb fundi, kontrollimi i sakt\u00eb i rrjedh\u00ebs s\u00eb thithjes lejon q\u00eb t\u00eb b\u00ebhen kursime t\u00eb konsiderueshme. N\u00eb fakt, fuqia e nj\u00eb ventilatori \u00ebsht\u00eb drejtp\u00ebrdrejt proporcionale me rrjedh\u00ebn e thithjes. Prandaj \u00ebsht\u00eb e r\u00ebnd\u00ebsishme q\u00eb t\u00eb mos i teproni normat e rrjedhjes s\u00eb thithjes. Zgjidhjet e tjera konsistojn\u00eb n\u00eb pajisjen e ventilatorit me nj\u00eb konvertues frekuence<\/strong> dhe rregullimin e shkall\u00ebs s\u00eb rrjedh\u00ebs sipas k\u00ebrkes\u00ebs s\u00eb thithjes. K\u00ebshtu, konverteri i frekuenc\u00ebs p\u00ebrshtat fuqin\u00eb e thithjes sipas nj\u00eb vendosjeje t\u00eb vakumit ose shpejt\u00ebsis\u00eb s\u00eb rrjedh\u00ebs ose edhe sipas numrit t\u00eb makinave q\u00eb do t\u00eb pastrohen. Duke vepruar n\u00eb shkall\u00ebn e rrjedh\u00ebs b\u00ebn t\u00eb mundur uljen e ndjeshme t\u00eb konsumit t\u00eb ventilatorit, por edhe t\u00eb konsumit t\u00eb ngrohjes kur ajri i thithur shkarkohet jasht\u00eb. <\/p>\n\n

Inovacionet n\u00eb teknologjit\u00eb e filtrimit <\/strong><\/h3>\n\n

Diversiteti i emetimeve t\u00eb grimcave<\/strong> nga nj\u00eb aktivitet plot\u00ebsohet nga nj\u00eb risi n\u00eb p\u00ebrdorim: filtrimi aditiv. Kjo p\u00ebrfshin serializimin n\u00eb nj\u00eb grumbullues pluhuri<\/a> t\u00eb nj\u00eb grupi mediash filtri t\u00eb specializuar p\u00ebr t\u00eb kapur t\u00eb gjith\u00eb pluhurin dhe VOC q\u00eb vijn\u00eb nga nj\u00eb proces industrial (shih: Dustomat 24, ePUR Box). K\u00ebshtu, ne i ofrojm\u00eb prodhuesit nj\u00eb zgjidhje t\u00eb personalizuar dhe p\u00ebrshtat\u00ebse. P\u00ebr shembull, puna me materiale t\u00eb p\u00ebrb\u00ebra<\/strong> , saldimi me lazer, apo edhe printimi 3D… gjenerojn\u00eb emetime t\u00eb natyr\u00ebs dhe struktur\u00ebs s\u00eb ndryshme: si pluhur, tym shum\u00eb t\u00eb im\u00ebt apo edhe komponime t\u00eb gazta (VOCs, aromat, etj.). <\/p>\n\n

Inovacioni n\u00eb materiale dhe dizajni i mediave filtri<\/strong> fokusohet n\u00eb nanoteknologji dhe biomimik. Ne po krijojm\u00eb nanomateriale t\u00eb specializuara n\u00eb filtrimin e nj\u00eb lloji molekule (CO 2<\/sub> CH 4<\/sub> ), ose p\u00ebrkundrazi, t\u00eb afta p\u00ebr t\u00eb kapur nj\u00eb shum\u00ebllojshm\u00ebri grimcash t\u00eb emetuara nga nj\u00eb proces industrial. <\/p>\n\n

P\u00ebrqendrohuni n\u00eb materialet inovative n\u00eb zbulimin, filtrimin dhe neutralizimin e grimcave t\u00eb ajrit<\/h2>\n\n
\"dizajn<\/figure>\n\n

Nanofabrikimi i nj\u00eb filtri nga proteinat e misrit<\/h3>\n\n

Zhvillimi i materialeve ekologjike paraqet nj\u00eb rrug\u00eb p\u00ebr inovacion<\/strong> . Kjo \u00ebsht\u00eb m\u00ebnyra se si nj\u00eb media filtri u krijua nga proteinat e misrit. Ky filt\u00ebr mund t\u00eb kap\u00eb 99,5% t\u00eb grimcave si filtrat aktual\u00eb HEPA, por edhe formaldehidin me nj\u00eb shkall\u00eb prej 87%. Kjo performanc\u00eb e fundit \u00ebsht\u00eb m\u00eb e lart\u00eb se ajo e filtrave t\u00eb specializuar n\u00eb k\u00ebt\u00eb lloj molekulash toksike. Mekanizmi i kapjes mb\u00ebshtetet n\u00eb aft\u00ebsin\u00eb e grupeve funksionale n\u00eb sip\u00ebrfaqen e protein\u00ebs p\u00ebr t\u00eb vepruar si tentakulat q\u00eb kapin molekulat. Kapja e nj\u00ebkohshme e molekulave t\u00eb ndryshme t\u00eb gazit<\/strong> parashikohet p\u00ebrmes rirregullimit t\u00eb aminoacideve t\u00eb protein\u00ebs. P\u00ebr m\u00eb tep\u00ebr, meqen\u00ebse proteina \u00ebsht\u00eb hidrofobike, filtri mund t\u00eb p\u00ebrdoret n\u00eb aj\u00ebr t\u00eb lag\u00ebsht. <\/p>\n\n

Neutralizimi i molekulave toksike<\/h3>\n\n

Nj\u00eb risi ka t\u00eb b\u00ebj\u00eb me nanofabrikimin e nj\u00eb fibre me shum\u00eb komponent\u00eb<\/strong> q\u00eb integron nj\u00eb agjent fotokatalitik n\u00eb struktur\u00ebn e fibr\u00ebs. Ai shkat\u00ebrron VOC, aromat dhe patogjen\u00ebt, duke shmangur l\u00ebshimin e ndot\u00ebsve dyt\u00ebsor\u00eb. Biomimika e struktur\u00ebs \u00ebsht\u00eb e ngjashme me at\u00eb t\u00eb diatomit p\u00ebr t\u00eb maksimizuar shk\u00ebmbimet midis ajrit dhe agjentit t\u00eb pastrimit. Kjo risi mund t\u00eb z\u00ebvend\u00ebsoj\u00eb filtrat e karbonit t\u00eb aktivizuar<\/strong> me mir\u00ebmbajtje t\u00eb reduktuar dhe energji m\u00eb t\u00eb ul\u00ebt t\u00eb filtrimit. Kjo risi \u00ebsht\u00eb patentuar nga kompania franceze Purenat. <\/p>\n\n

Nj\u00eb burim tjet\u00ebr inovacioni: trajtimi i sip\u00ebrfaqes s\u00eb p\u00eblhurave t\u00eb filtrit<\/strong> . Nj\u00eb shtres\u00eb e re p\u00ebrdor nj\u00eb pararend\u00ebs bakri p\u00ebr t\u00eb krijuar nj\u00eb struktur\u00eb metal-organike p\u00ebr\u00e7uese. Kjo i shnd\u00ebrron gazrat toksik\u00eb n\u00eb l\u00ebnd\u00eb neutrale: monoksidi i azotit shnd\u00ebrrohet n\u00eb nitrit dhe nitrat; dhe sulfid hidrogjeni n\u00eb sulfat bakri. Struktura metalo-organike e integruar n\u00eb pambuk ose poliest\u00ebr krijon nj\u00eb material reaktiv dhe t\u00eb rip\u00ebrdorsh\u00ebm<\/strong> . Trajtimi i sip\u00ebrfaqes lejon q\u00eb t\u00eb krijohen modele specifike dhe hap\u00ebsira nd\u00ebrmjet fijeve t\u00eb p\u00eblhur\u00ebs t\u00eb mbushen sakt\u00ebsisht. Ky material \u00ebsht\u00eb rezistent ndaj konsumit, grisjes dhe larjes standarde. Mund t\u00eb p\u00ebrdoret p\u00ebr filtra inteligjent\u00eb<\/strong> , sensor\u00eb mjedisor\u00eb, pajisje mbrojt\u00ebse personale. <\/p>\n\n

Inovacion n\u00eb kapjen dhe zbulimin e patogjen\u00ebve t\u00eb aerosolit.<\/h3>\n\n

Teknologjit\u00eb e reja anti-alergjike dhe anti-bakteriale jan\u00eb integruar n\u00eb materiale p\u00ebr t\u00eb siguruar nj\u00eb mjedis m\u00eb t\u00eb sh\u00ebndetsh\u00ebm<\/strong> . Disa element\u00eb t\u00eb nj\u00ebsive t\u00eb grumbullimit t\u00eb pluhurit mund t\u00eb b\u00ebhen prej tij n\u00eb t\u00eb ardhmen. <\/p>\n\n

Rreziqet e infeksionit n\u00eb mjediset spitalore ekzistojn\u00eb pavar\u00ebsisht procedurave rigoroze t\u00eb pastrimit dhe dezinfektimit<\/a> . P\u00ebr t\u00eb adresuar k\u00ebt\u00eb, nj\u00eb material plastik, akrilonitril butadien stiren (ose ABS), i p\u00ebrdorur gjer\u00ebsisht n\u00eb pajisjet spitalore (dhe mbulesat e automobilave ose pajisjeve sht\u00ebpiake, telefoni, IT, n\u00eb tela printimi 3D), u shkri me klorheksidin<\/strong> . Kjo rezultoi n\u00eb nj\u00eb material t\u00eb ri p\u00ebr trajtimin e sip\u00ebrfaqes, i aft\u00eb p\u00ebr t\u00eb vrar\u00eb bakteret n\u00eb 30 minuta. Kjo risi zgjidh disavantazhet e dezinfektuesve konvencional\u00eb<\/strong> , t\u00eb cil\u00ebt p\u00ebrhapen n\u00eb aj\u00ebr dhe ikin nga sip\u00ebrfaqet kur preken. \u00cbsht\u00eb planifikuar t\u00eb shtohet ky material i ri gjat\u00eb prodhimit t\u00eb plastik\u00ebs. <\/p>\n\n

N\u00eb t\u00eb nj\u00ebjt\u00ebn m\u00ebnyr\u00eb, nj\u00eb trajtim sip\u00ebrfaq\u00ebsor antimikrobik, antifungal dhe antiviral<\/strong> i bazuar n\u00eb klorheksidin diglukonat \u00ebsht\u00eb zhvilluar p\u00ebr t’u p\u00ebrshtatur me mediat filtruese n\u00eb treg. Kjo teknologji u testua n\u00eb trenat n\u00eb t\u00eb gjith\u00eb rrjetin hekurudhor britanik p\u00ebrpara se t\u00eb patentohet. <\/p>\n\n

S\u00eb fundi, nj\u00eb risi n\u00eb veshjen sip\u00ebrfaq\u00ebsore t\u00eb mediave filtri<\/strong> synon t\u00eb avancoj\u00eb marrjen e biosampioneve t\u00eb ajrit. Q\u00ebllimi \u00ebsht\u00eb zbulimi dhe identifikimi i natyr\u00ebs s\u00eb baktereve dhe viruseve sa m\u00eb shpejt q\u00eb t\u00eb jet\u00eb e mundur duke i kapur ato t\u00eb gjalla. Kusht i domosdosh\u00ebm p\u00ebr identifikimin e hersh\u00ebm t\u00eb nj\u00eb rreziku biologjik. Nd\u00ebrsa filtrat HEPA jan\u00eb efektiv\u00eb n\u00eb kapjen e patogjen\u00ebve, ato jan\u00eb joefektive n\u00eb mbajtjen e tyre gjall\u00eb. Inovacioni konsiston n\u00eb nj\u00eb membran\u00eb t\u00eb p\u00ebrb\u00ebr\u00eb<\/strong> me nj\u00eb shtres\u00eb t\u00eb l\u00ebngshme, e krijuar p\u00ebr t\u00eb ruajtur q\u00ebndrueshm\u00ebrin\u00eb e mostrave t\u00eb kapura bakteriale ose virale p\u00ebr ekzaminim laboratorik. <\/p>\n\n

Inovacion n\u00eb filtrimin n\u00eb burimin e emetimeve industriale t\u00eb CO2<\/sub> <\/h3>\n\n

Filtrimi i emetimeve t\u00eb dioksidit t\u00eb karbonit n\u00eb industri n\u00eb burim k\u00ebrkon p\u00ebrmir\u00ebsimin e materialeve t\u00eb ndarjes. <\/p>\n\n

Si-CHA \u00ebsht\u00eb nj\u00eb struktur\u00eb kristalore e bazuar n\u00eb silic\u00eb q\u00eb krijon nj\u00eb membran\u00eb poroze uniforme<\/strong> q\u00eb ndan dioksidin e karbonit nga metani ose molekula t\u00eb tjera m\u00eb t\u00eb m\u00ebdha. Zhvillimi i nj\u00eb metode p\u00ebr sintetizimin e nj\u00eb membrane t\u00eb past\u00ebr Si-CHA rrit performanc\u00ebn e ndarjes s\u00eb CO2<\/sub> duke konsumuar m\u00eb pak koh\u00eb dhe energji t\u00eb prodhimit. K\u00ebrkimet vazhdojn\u00eb p\u00ebr t\u00eb industrializuar k\u00ebt\u00eb proces. <\/p>\n\n

Nj\u00eb tjet\u00ebr risi p\u00ebrdor membranat e tregut<\/strong> p\u00ebr t\u00eb p\u00ebrmir\u00ebsuar selektivitetin e tyre ndaj CO2<\/sub> . Kjo teknologji nanofabrikimi rrit zinxhir\u00eb polimer\u00ebsh hidrofil\u00eb, t\u00eb p\u00ebrshkuesh\u00ebm nga CO2<\/sub> n\u00eb sip\u00ebrfaqen e membran\u00ebs. Kjo rrit selektivitetin e CO2<\/sub> t\u00eb nj\u00eb membrane n\u00eb treg me 150 her\u00eb. Membranat e modifikuara mbeten me kosto efektive, pavar\u00ebsisht kostos s\u00eb shtuar t\u00eb nanofabrikimit. E zhvilluar fillimisht p\u00ebr termocentralet<\/strong> , kjo teknologji e re e membran\u00ebs do t\u00eb optimizohet dhe diversifikohet me polimer\u00eb t\u00eb tjer\u00eb n\u00eb partneritet me prodhuesit p\u00ebr t\u00eb p\u00ebrmbushur nevojat e tyre specifike. <\/p>\n\n

Nj\u00eb risi tekstili p\u00ebr filtrimin e CO2<\/sub> nga termocentralet ka nj\u00eb shkall\u00eb kapjeje prej 80%. Ai p\u00ebrfshin enzim\u00ebn natyrale karbonike anhidraz\u00eb n\u00eb nj\u00eb p\u00eblhur\u00eb pambuku n\u00eb m\u00ebnyr\u00eb q\u00eb t\u00eb p\u00ebrshpejtoj\u00eb reagimin q\u00eb shnd\u00ebrron ujin dhe CO2<\/sub> n\u00eb bikarbonat<\/strong> . M\u00eb pas ajri kalon p\u00ebrmes filtrit me nj\u00eb shpejt\u00ebsi prej 4l\/min, ende larg 10 milion\u00eb litrave t\u00eb ajrit q\u00eb do t\u00eb trajtohet p\u00ebr nj\u00eb termocentral. Por meqen\u00ebse filtri prodhohet duke p\u00ebrdorur metoda tradicionale t\u00eb industris\u00eb tekstile, shkall\u00ebzimi industrial \u00ebsht\u00eb m\u00eb i leht\u00eb dhe do t\u00eb jet\u00eb objekt i hapit t\u00eb ardhsh\u00ebm. Testet e funksionimit t\u00eb filtrit pas cikleve t\u00eb larjes, tharjes dhe ruajtjes konfirmuan gjithashtu se performanca e filtrit ishte ruajtur. <\/p>\n\n

Nj\u00eb tjet\u00ebr rrug\u00eb novacioni \u00ebsht\u00eb printimi 3D i filtrave t\u00eb CO2<\/sub> , duke p\u00ebrdorur nj\u00eb hidrogel q\u00eb p\u00ebrmban enzim\u00ebn anhidraz\u00eb karbonik si material baz\u00eb. Kjo teknologji b\u00ebri t\u00eb mundur nxjerrjen e nj\u00eb teli 1D dhe nj\u00eb strukture 2D. Ai synon shkatht\u00ebsin\u00eb dhe p\u00ebrshpejtimin n\u00eb metod\u00ebn e projektimit t\u00eb filtrave t\u00eb CO2<\/sub> . Prodhimi i nj\u00eb filtri me diamet\u00ebr m\u00eb t\u00eb vog\u00ebl se 2 cm p\u00ebr eksperimentin ka dh\u00ebn\u00eb deri m\u00eb tani nj\u00eb shkall\u00eb kapjeje prej 24%; dhe pas 1000 or\u00ebsh funksionimi kjo norm\u00eb zvog\u00eblohet p\u00ebrgjysm\u00eb. P\u00ebr ta rritur at\u00eb, studiuesit po konsiderojn\u00eb grumbullimin e element\u00ebve modular\u00eb<\/strong> . Ky hulumtim \u00ebsht\u00eb vet\u00ebm n\u00eb fazat e hershme. <\/p>\n\n

Nj\u00eb tjet\u00ebr risi teknologjike p\u00ebr kapjen e CO2<\/sub> p\u00ebrfshin p\u00ebrdorimin e nj\u00eb filtri inovativ polimer q\u00eb p\u00ebrmban bak\u00ebr. Ky filt\u00ebr konverton CO2<\/sub> kryesisht n\u00eb bikarbonat natriumi<\/strong> . Ky material i ri hibrid \u00ebsht\u00eb nj\u00eb sorbent, i fort\u00eb mekanikisht dhe kimikisht i q\u00ebndruesh\u00ebm. Ai kap 3 her\u00eb m\u00eb shum\u00eb CO2<\/sub> sesa teknikat aktuale t\u00eb kapjes s\u00eb ajrit direkt. Cilado qoft\u00eb shkalla e p\u00ebrqendrimit t\u00eb CO2<\/sub> (niveli natyror n\u00eb industrial), kapja vazhdon derisa filtri t\u00eb jet\u00eb i ngopur. Pasi filtri \u00ebsht\u00eb i ngopur, nj\u00eb rrjedh\u00eb uji i kripur kalon p\u00ebrmes filtrit dhe e shnd\u00ebrron CO2<\/sub> n\u00eb bikarbonat natriumi. Ky i fundit mund t\u00eb shkarkohet n\u00eb det pa ndikim negativ. Teknikat ekzistuese mund t\u00eb p\u00ebrdoren gjithashtu p\u00ebr: thithjen e filtrit (rrjedh\u00ebn e ujit t\u00eb nxeht\u00eb ose avullit), rikuperimin, ngjeshjen dhe ruajtjen e CO2<\/sub> .<\/strong> <\/p>\n\n

Industrializimi i nanoteknologjive kund\u00ebr pluhurit n\u00eb trajtimin e sip\u00ebrfaqes<\/h3>\n\n

Teknologjit\u00eb kund\u00ebr pluhurit<\/strong> kan\u00eb ekzistuar p\u00ebr nj\u00eb koh\u00eb t\u00eb gjat\u00eb. Megjithat\u00eb, ata nuk shkuan p\u00ebrtej faz\u00ebs s\u00eb k\u00ebrkimit sepse transportueshm\u00ebria e tyre n\u00eb nj\u00eb shkall\u00eb industriale doli shum\u00eb e v\u00ebshtir\u00eb. Konceptet e reja t\u00eb prodhimit e kan\u00eb kap\u00ebrcyer k\u00ebt\u00eb penges\u00eb. Nano-wedging dhe nano-printing modernizojn\u00eb nj\u00eb teknik\u00eb t\u00eb printimit t\u00eb gazetave t\u00eb shekullit t\u00eb 19-<\/sup> t\u00eb<\/strong> . Ata depozitojn\u00eb struktura piramidale nanometrike q\u00eb parandalojn\u00eb ngjitjen e pluhurit. Kjo risi b\u00ebn t\u00eb mundur q\u00eb shum\u00eb lloje materialesh t\u00eb jen\u00eb rezistente ndaj pluhurit. Aplikimet e ardhshme n\u00eb pajisjet industriale tani jan\u00eb t\u00eb mundshme; ve\u00e7an\u00ebrisht n\u00eb sip\u00ebrfaqet e brendshme t\u00eb elementeve t\u00eb nj\u00eb sistemi grumbullimi t\u00eb pluhurit dhe n\u00eb sip\u00ebrfaqet e jashtme t\u00eb pajisjeve. <\/p>\n","protected":false},"excerpt":{"rendered":"

Inovacioni n\u00eb heqjen e pluhurit dhe filtrimin e emetimeve industriale fokusohet n\u00eb materialet e filtrimit dhe teknologjit\u00eb e kontrollit dhe mir\u00ebmbajtjes s\u00eb pajisjeve. Ai synon t\u00eb p\u00ebrmir\u00ebsoj\u00eb prakticitetin dhe efikasitetin e sistemeve t\u00eb grumbullimit t\u00eb pluhurit. <\/p>\n","protected":false},"author":4,"featured_media":82192,"comment_status":"open","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"_seopress_robots_primary_cat":"none","_seopress_titles_title":"Cilat jan\u00eb risit\u00eb aktuale n\u00eb heqjen e pluhurit?","_seopress_titles_desc":"Inovacioni n\u00eb heqjen e pluhurit dhe filtrimin e emetimeve industriale fokusohet n\u00eb materialet e filtrimit dhe teknologjit\u00eb e kontrollit dhe mir\u00ebmbajtjes s\u00eb pajisjeve. Ai synon t\u00eb p\u00ebrmir\u00ebsoj\u00eb prakticitetin dhe efikasitetin e sistemeve t\u00eb grumbullimit t\u00eb pluhurit. ","_seopress_robots_index":"","footnotes":""},"categories":[312],"tags":[116],"class_list":["post-40651","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-keshilla-jone-sq","tag-koka-e-vogel","generate-columns","tablet-grid-50","mobile-grid-100","grid-parent","grid-50","no-featured-image-padding","resize-featured-image"],"acf":[],"_links":{"self":[{"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/posts\/40651","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/users\/4"}],"replies":[{"embeddable":true,"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/comments?post=40651"}],"version-history":[{"count":3,"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/posts\/40651\/revisions"}],"predecessor-version":[{"id":82738,"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/posts\/40651\/revisions\/82738"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/media\/82192"}],"wp:attachment":[{"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/media?parent=40651"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/categories?post=40651"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/obera.fr\/sq\/wp-json\/wp\/v2\/tags?post=40651"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}