Ngenxa yokunqongophala kombane, amaphondo amaninzi kwilizwe liphela akhuphe izaziso zomxhesho wombane ngokulandelelanayo, nto leyo ethe yavusa iingxoxo ezishushu. Phantsi kwemeko yonxunguphalo lwamandla, iye yazisa impembelelo enkulu kuphuhliso loqoqosho lwamashishini emigodi. Uhlaza kunye nekhabhoni ephantsi kuphela kwendlela yophuhliso oluzinzileyo. Njani? Ukusebenzisa ubuchwepheshe obuphezulu kunye nobuchwepheshe obutsha ukunika amandla amatsha kumashishini emveli, kunye nokuphumeza ulwazi logcino lwamandla kunye nokunciphisa ukukhutshwa komsebenzi wemihla ngemihla kunye nobomi yingxaki engxamisekileyo ekufuneka isonjululwe, kwaye ikwayimfuno engapheliyo yotshintsho lwezoqoqosho lwaseTshayina. .
Njengezinto ezisisiseko zokusebenza, iiminerali ezingezizo ezesinyithi zisetyenziswa kakhulu kumashishini afana nobuchwepheshe bolwazi, izixhobo eziphezulu, izinto ezintsha, amandla amatsha, ukonga amandla kunye nokukhuselwa kwendalo. Uphuhliso olukhawulezayo lweshishini lezimbiwa ezingezizo ezentsimbi lukhuthaze ngamandla uphuhliso lwemathiriyeli yesakhiwo ephucukileyo kunye nemathiriyeli esebenzayo. Kwaye uphuhliso olukhawulezayo lwethekhnoloji kunye noqoqosho. Izinto zamaminerali ezingezona zetsimbi ngokubanzi zifuna ukucoceka okuphezulu, kwaye umxholo wokungcola udla ngokumisela umgangatho womgangatho wemveliso, ngakumbi umxholo we-iron-titanium. Ekusetyenzweni kweeminerali ezingezizo ezesinyithi, imisebenzi yokususa intsimbi kunye ne-titanium iyafuneka ngokubanzi.
Okwangoku, ukususwa kwesinyithi kunye neendlela zokucoca iiminerali ezingezizo ezentsimbi zibandakanya ukuhlukana kwamagnetic, ukujikeleza, ukuhlukana komxhuzulane, ukuhlukana kombane, ukuhlukana kweekhemikhali, ukuhlukana kwe-friction, kunye nokuhlelwa kwe-photoelectric. ukusetyenziswa ngokufanelekileyo kwemithombo yezimbiwa, ukwahlukana kwamagnetic kube yeyona ndlela iphambili yokususa ukungcola kwi-ores engeyiyo isinyithi, ngakumbi xa ujongene nexabiso eliphezulu, ucoceko oluphezulu lwe-ores non-metallic ores. Owona mmandla uphezulu wemagnethi ukhawulelwe yimida yomzimba, kwaye ubushushu obuphantsi be-superconducting separator magnetic inenzuzo yendalo yemagnethi ephezulu. Ukungcola kwentsimbi kunye ne-titanium kwiiminerali ezingezizo ezentsimbi ngokubanzi zineempawu zobuzibuthe obubuthathaka, ubungakanani bamasuntswana alungileyo, kwaye ukususwa kunzima. Ijolise kwiingxaki zobuchwepheshe ezikhoyo kwizahluli zemagnethi eziqhelekileyo zokususwa kwentsimbi, i-Weifang Xinli Superconducting Magnetoelectric Technology Co., Ltd. iye yaphuhlisa kwaye yavelisa uthotho lweCGC lwezahluli ezinobushushu obuphantsi bobushushu obuphantsi, obugquma izixhobo zeendlela ezahlukeneyo ezifana noomatshini boshishino kunye nelebhu. iimodeli. Isixhobo sinoncedo lweendleko zokusebenza eziphantsi, ukonga amandla, izinga lokusebenza kwezixhobo eziphezulu kunye nobomi benkonzo ende. Ingasetyenziselwa ukuhlanjululwa kweeminerali ezicolekileyo ezingenayo i-metallic ezifana ne-kaolin kunye nomhlaba onqabileyo, kwaye unokunciphisa ngokufanelekileyo umxholo wokungcola okuyingozi njengentsimbi kunye ne-titanium.
Xinli superconducting cryogenic superconducting isahlukanisi magnetic inezi mpawu zilandelayo
01Ukusetyenziswa kwamandla aphantsi
Ukusebenzisa iteknoloji ye-superconducting ephantsi, i-coil isebenza kwiqondo lokushisa eliphantsi kwe-4.2K (-268.8 ° C). Ngeli xesha, ukuxhathisa i-coil ngu-zero, kwaye i-superconducting state iyenzeka emva kwamandla. Inkqubo yefriji idinga kuphela ukugcina imagnethi ye-superconducting kule meko yokushisa ephantsi, egcina i-90% yombane xa ithelekiswa nemagnethi ye-conductance eqhelekileyo, inenzuzo enkulu yeendleko zokusebenza, kwaye iphantsi kwikhabhoni kunye nohlaza.
02 zero volatilization ye-helium engamanzi
Itekhnoloji yefriji evaliweyo isetyenziselwa okokuqala ekhaya nakwamanye amazwe, isebenzisa ifriji yefriji eqhubekayo, ukuvala umjikelezo wegesi wesigaba sesibini se-helium, ukuze i-helium ingaguquki ukuya ngaphandle kwemagnethi, kwaye isixa esipheleleyo se-helium engamanzi sihlala singatshintshi. Akukho mfuneko yokuzalisa ngaphakathi kweminyaka emi-2-3 Ulwelo lwe-helium lunciphisa kakhulu iindleko zokulondolozwa.
03Ummandla wemagnethi unokulungiswa ngokungekho mthethweni
Intsimi yamagnetic eveliswa yi-superconducting inobunzulu obuphezulu kunye ne-gradient enkulu. Kwiiminerali ezingafaniyo ze-metallic, amandla amagnetic angakhethwa ukusuka kwi-0 ukuya kwindawo ephezulu ngokweempawu zamaminerali, ukubunjwa, njl., Ngaphandle kokulahlekelwa kwe-helium.
04Ukusebenza kakuhle
I-double-cylinder enye indlela yokuhlenga kunye nokugungxulwa kungaqhuba ngokuqhubekayo phantsi kwemeko yokuvuselela, kwaye ukusebenza kakuhle kwemveliso kuphezulu malunga ne-75%.
05Ubomi benkonzo ende
Iikhoyili ze-Superconducting zisebenza kwindawo yokushisa ephantsi kunye ne-helium enye, kwaye iqondo lokuguga kwe-thermal liphantsi kakhulu, kwaye ubomi be-coil coil bude bude kunobuqhetseba obuqhelekileyo bokuqhuba.
06Egqibeleleyo DCS ulawulo olusasazwayo
Ukusetyenziswa kwe-Intanethi yeTekhnoloji yeZinto kunokudlulisa ulwazi kunye neeparamitha zokusebenza kwe-cryogenic superconducting isahluli samagnetic kwigumbi elikude lolawulo ngexesha lokwenyani ngokusebenzisa izinzwa, zenza inkqubo yolawulo esasazwe ye-DCS yezixhobo ezikude, ezinokubonisa ngokuguquguqukayo iiparamitha zokusebenza. yezixhobo ngexesha lokwenyani. Sebenzisa izixhobo zokuhlalutya idatha, ukuxilongwa kwempazamo kunye nokucubungula ukuqonda ukusebenza okungajongwanga kunye nobukrelekrele besixhobo.
I-IoT 5G iqonga lokubeka iliso elikude
Ukwakhiwa kweeminerali kumgodi we-kaolin e-Guangdong yi-kaolin, i-quartz, i-mica minerals kunye nexabiso elincinci le-potash feldspar, i-hematite, kunye ne-ilmenite. Ngokuhlalutya iimpawu zentsimbi, i-titanium kunye nezinye izimbiwa ezingcolileyo kwi-ore yokuqala yesityalo, sisebenzisa i-low-temperature superconducting separator magnetic njengesixhobo sokulawula imveliso egqityiweyo.
Iziphumo zokuvelisa zibonisa ukuba emva kokuhlukana kwe-high-gradient magnetic, umxholo wesinyithi uyancipha ukusuka kwi-0.85% ukuya kwi-0.51%, izinga lokususa isinyithi lingafikelela kwi-40.0%, kwaye ubumhlophe be-calcination bubuye buphuculwe kakhulu, bufikelele kwi-81.1. I-low-temperature superconducting separator magnetic inefuthe elicacileyo ekususeni isinyithi kunye ne-titanium kwi-kaolin, kwaye umgangatho uzinzile.
Indawo yeChina-German Magnetoelectric and Intelligent Mineral Processing Key Laboratory
Ukusetyenziswa kweshishini kunye nokukhuthazwa kobushushu obuphantsi be-superconducting separators yamagnetic ekhaya nakwamanye amazwe kubonisa ukuba iteknoloji yelizwe lam yokulungisa izimbiwa kunye nezixhobo zifikelele kwinqanaba eliphambili lehlabathi, ngakumbi ukwahlukana kwe-kaolin ekumgangatho ophezulu, ukucocwa kwentsimbi enqabileyo yomhlaba kunye ukwahlukana kwemagnethi kwezinye iiminerali ezicolekileyo. Idlala indima ebalulekileyo ekuphuculeni izinga lokubuya kwakhona kwezimbiwa kunye nomgangatho wemveliso, kwaye iza kudlala indima eyakhayo ekukhuthazeni ukuqhubela phambili kobuchwephesha bokusebenza ngokunzulu kweshishini kunye nophuhliso oluzinzileyo lwemigodi eluhlaza. Kwakhona kuya kuzisa inzuzo enkulu kwezoqoqosho, i-ikholoji kunye nezentlalo kuphuhliso lohlaza lwemigodi ehlakaniphile. inzuzo.
Guangdong Huaiji indawo yokusetyenziswa kwabathengi
Abathengi baseFujian basebenzisa indawo
Indawo yesicelo somthengi wangaphakathi eMongolia
Izahluli ezibini zemagnethi ezisetyenziswa ngabathengi baseCzech
Guangxi umthengi superconducting magnetic isahluli indawo yokusebenzisa indawo
Indawo yokusetyenziswa kwelabhoratri yohlobo lwe-superconducting isahlukanisi
Weifang Xinli Superconducting Magnetoelectric Technology Co., Ltd.
I-Weifang Xinli Superconducting Magnetoelectric Technology Co., Ltd. yasekwa kwi-Weifang High-tech Zone ngo-2009. Licandelo eliphantsi ngokupheleleyo kwe-Shandong Huate Magnetoelectric Technology Co., Ltd., ishishini lobugcisa obuphezulu kwiPhondo laseShandong, kunye ne Umanyano olucwangcisiweyo lwemagnetoelectric kunye ne-cryogenic superconducting magnetic innovation. IYunithi, iPhondo laseShandong eliKhethekileyo kunye neShishini elitsha eliKhethekileyo, i-Weifang City Hidden Champion Enterprise. Inkampani inamandla obugcisa obuqinileyo kwaye inesikhululo sophando selizwe emva kogqirha. Lishishini elikhokelayo (lokulima) kwishishini lokuvelisa izixhobo eziphezulu kwiPhondo laseShandong. Inkampani ibandakanyeka ikakhulu kuphando kunye nophuhliso lwetekhnoloji ye-superconducting efana ne-medical superconducting magnetic resonance (MRI) kunye nezixhobo zokwahlula i-industrial superconducting magnetic, kwaye iqonda ushishino. Kuphela kwemagnethi ye-superconducting kunye nomatshini opheleleyo odibanisa i-R & D kunye nemveliso kumantla oMlambo waseYangtze. Amashishini okuvelisa izixhobo.
Ukusebenza kobugcisa beemveliso eziphambili zenkampani kufikelele kwinqanaba eliphambili lamazwe ngamazwe, kwaye i-superconducting iron separator kunye ne-superconducting separator magnetic igcwalise i-gap yasekhaya. Iimveliso ze-1.5T MRI superconducting magnet series zidweliswe kwisicwangciso sesizwe "seshumi elinesibini leminyaka emihlanu" yesayensi kunye neteknoloji yenkxaso kunye ne "Shandong Province Independent Innovation Achievement Transformation Major Special Project", kunye ne-3.0T MRI superconducting magnet ibhalwe kwi " IProjekthi yeNkqubo ye-R&D engundoqo yePhondo laseShandong”. Iprojekthi yemagnethi ye-7.0T ye-MRI ye-metabolism superconducting yafakwa kwi-"yeshumi elinesithathu leminyaka emihlanu" isicwangciso sophuhliso lwesayensi kunye nobuchwepheshe bePhondo laseShandong; izixhobo zokwahlula i-industrial superconducting magnetic soparation zibandakanyiwe kwisicwangciso sesizwe "seMinyaka eMihlanu yeSibini" senkxaso yenzululwazi nobuchwepheshe kunye neeProjekthi eziPhambili “zePhondo laseShandong leSizwe eliZimeleyo lokuQala” kuMmandla wokuBonisa”.
Ixesha lokuposa: Nov-04-2021