Ingcebiso
I-Airwoods Rotary Heat Exchanger 500mm ukuya kwi-5000mm
Ezona mpawu
Uyilo lweeMveliso
Umgaqo Wokusebenza
I-Rotary heat exchanger yenziwe nge-alveolate heat wheel, i-case, i-drive system kunye neendawo zokuvala. I-exhaust kunye nomoya wangaphandle zidlula kwisiqingatha sevili ngokwahlukeneyo, xa ivili lijikeleza, ubushushu kunye nokufuma kuyatshintshiselwana phakathi kwe-exhaust kunye nomoya wangaphandle. Ukusebenza kakuhle kokubuyisa amandla kufikelela kwi-70% ukuya kwi-90%.
Ingaba isebenza kanjani?
1. Ukungena kwisiqingatha somoya obandayo
2. Phakathi komoya obandayo isiqingatha
3. Ukushiya umoya obandayo isiqingatha
4. Ukungena kwisiqingatha somoya ofudumeleyo
5. Phakathi komoya ofudumeleyo isiqingatha
6. Ukushiya umoya ofudumeleyo isiqingatha
Ukwakhiwa kwamavili
Ivili le-rotary heat exchanger lenziwe ngamaleko ahlukeneyo e-flat kunye ne-corrugated aluminium foil ukwenza i-alveolate milo. Ukuphakama okwahlukeneyo kwe-corrugation kuyafumaneka. Umphezulu othe tyaba uqinisekisa ukuvuza okuncinci. Izipoki zangaphakathi zisetyenziselwa ukubopha ngoomatshini ii-laminations ze-rotor.
Ezi zifakelwa imisonto kwindawo yokubopha kwaye zidityaniswa emngceleni.
Iitshaneli zeLaminar Flow
Ulwakhiwo lohlobo lwamaza lwevili lwenza imijelo emxinwa kwicala lokuhamba komoya. Ukuhamba komoya kwenza ukuhamba kwelaminar ngaphakathi kwevili xa kudlula kulo.
Xa ivili lijikeleza, uthuli aluyi kuqokelelana kwitshaneli kuba umoya wangaphandle kunye nomoya ophumayo ngokwahlukeneyo uhamba ngetshaneli ukusuka kumacala amabini. Oku kubizwa ngokuba kukuzicoca.
Inkqubo yokutywina kabini
Inkqubo yokutywina kabini eyahlukileyo ifakwe ngeenxa zonke zomda werotor kunye nomqadi ophakathi. Izinto zokutywina zithambile kwaye zixineneyo ngenxa yokungqubana okuncinci kwaye zihlala ixesha elide.
Icandelo lokucoca
Ngenxa yesakhiwo se-rotary heat exchanger, umoya wangaphandle kunye nomoya ophumayo ziya kudibana. Ngokwesantya somoya, isantya esijikelezayo kunye necala elijikayo, icandelo lokucoca lifakelwe ukuthintela umoya ophumayo ukuba ungangeni emoyeni wangaphandle. Icandelo lokucoca livumela inxenye encinci yomoya wangaphandle ukuba ivuthele umoya ophumayo kwimingxuma ye-alveolate ecaleni kwayo. Umahluko omncinci woxinzelelo lwe-200Pa phakathi kwecala lomoya wangaphandle kunye necala lomoya ophumayo uyafuneka ukuqinisekisa ukusebenza kakuhle kokucoca. Ngazo zonke iimeko ezibonelelweyo, eli candelo linokuqinisekisa ukuvuza okungaphantsi kwe-0.3% ukusuka kumoya ophumayo ukuya emoyeni wangaphandle.
Indawo yefeni nevili
Isiphumo sokucoca secandelo lokucoca sixhomekeke kwindawo yefeni kunye nomahluko woxinzelelo olungaguqukiyo phakathi kwecala lomoya wangaphandle kunye necala lomoya ophumayo. Xa umahluko woxinzelelo ungaphantsi kwe-200pa, isiphumo sokucoca asiqinisekiswa.
Ukuthwala kunye nokuthambisa
Ihabhu yevili ixhotyiswe nge-ball bearing egcotyiweyo okanye i-roller bearing, kwaye inezigqubuthelo kumacala omabini. Akukho mfuneko yokugcinwa xa kusetyenzwa ngendlela eqhelekileyo.
Iintlobo zoFakelo kunye neSikhundla seMoto
Imoto ifakwe kwikona ye-rotary heat exchanger, indawo yekona iphawulwe ukusuka kwinombolo 1 ukuya kwi-4, kwaye iindawo zemoto azinyanzelekanga.
Izicelo
Isixhobo sokutshintsha ubushushu esijikelezayo (i-AHU) singakhiwa njengeyunithi yokuphatha ubushushu eyintloko njengenxalenye ephambili yecandelo lokubuyisela ubushushu. Ngokwesiqhelo iphaneli esecaleni yesixhobo sokutshintsha ubushushu ayibalulekanga, ngaphandle kokuba i-bypass isetiwe kwi-AHU.
Ingafakwa nakwiipayipi zenkqubo yokungenisa umoya njengenxalenye ephambili yecandelo lokubuyisela ubushushu, iqhagamshelwe ngeflange. Kwimeko enjalo, iphaneli esecaleni ye-exchanger iyimfuneko ukuthintela ukuvuza.
Idatha yoBugcisa
Iiparameters zobugcisa
| Iinkcukacha | A mm | B mm | B1 mm | B2(A1) mm | F mm | D mm | Amandla Kw | I-Voltage | NW Ikg |
| 400 | 504 | 554 | 277 | 68 | 32 | 400 | 0.09 | 3~380V50Hz | 32 |
| 500 | 600 | 600 | 312 | 68 | 32 | 530 | 0.09 | 3~380V50Hz | 42 |
| 600 | 700 | 700 | 350 | 68 | 32 | 630 | 0.09 | 3~380V50Hz | 59 |
| 700 | 800 | 800 | 400 | 68 | 32 | 730 | 0.09 | 3~380V50Hz | 71 |
| 800 | 900 | 900 | 450 | 68 | 32 | 830 | 0.09 | 3~380V50Hz | 82 |
| 900 | 1030 | 1030 | 515 | 98 | 32 | 930 | 0.09 | 3~380V50Hz | 102 |
| 1000 | 1130 | 1130 | 565 | 98 | 32 | 1030 | 0.09 | 3~380V50Hz | 130 |
Ubukhulu
| Iinkcukacha | A mm | B mm | B1 mm | F mm | D mm | Amandla Kw | I-Voltage | NWKg Uhlobo oluya phezulu/Uhlobo oluya ekhohlo ukuya ekunene |
| 1100 | 1230 | 1230 | 615 | 32 | 1130 | 0.09 | 3~380V50Hz | 151 |
| 1200 | 1330 | 1330 | 695 | 32 | 1230 | 0.18 | 3~380V50Hz | 169 |
| 1300 | 1430 | 1430 | 745 | 32 | 1330 | 0.18 | 3~380V50Hz | 190 |
| 1400 | 1530 | 1530 | 765 | 32 | 1430 | 0.18 | 3~380V50Hz | 205 |
| 1500 | 1630 | 1630 | 766 | 42 | 1530 | 0.18 | 3~380V50Hz | 212/220 |
| 1600 | 1730 | 1730 | 816 | 42 | 1630 | 0.18 | 3~380V50Hz | 230/239 |
| 1700 | 1830 | 1830 | 866 | 42 | 1730 | 0.25 | 3~380V50Hz | 256/266 |
| 1800 | 1930 | 1930 | 916 | 47 | 1830 | 0.25 | 3~380V50Hz | 283/293 |
| 1900 | 2030 | 2030 | 966 | 47 | 1930 | 0.25 | 3~380V50Hz | 301/320 |
| 2000 | 2130 | 2130 | 1016 | 47 | 2030 | 0.25 | 3~380V50Hz | 358/370 |
Uhlobo lweKheyiji A
Uhlobo lweKheyiji B kunye nohlobo C
Amaxwebhu
Isixhobo sokutshintsha ubushushu beRotary
Isixhobo sokutshintsha ubushushu beRotary
Isixhobo sokutshintsha ubushushu beRotary