OEM SUP-LDGR Electromagnetic BTU imitha ifektri nabakhiqizi

I-SUP-LDGR Electromagnetic BTU imitha

incazelo emfushane:

I-Sino-analyzer ye-electromagneticAmamitha we-BTUukunikeza isilinganiso esinembile samandla ashisayo, kubalwa ngokunembile amandla adingekayo ukuze kukhushulwe izinga lokushisa lepondo elilodwa lamanzi ngedigri eyodwa Fahrenheit ezingeni lolwandle, okuyimethrikhi yesisekelo yokuhlola ukusebenza kahle kokushisisa nokupholisa ezilungiselelweni zezentengiso nezokuhlala.

Lawa mamitha e-BTU asezingeni eliphezulu asetshenziswa kakhulu ezakhiweni zezentengiselwano, zezimboni, nezamahhovisi, eziletha ukusebenza kahle kwezinhlelo zamanzi abandayo,Izixazululo ze-HVAC, kanye nezinhlelo zokusebenza zokushisisa ezithuthukisiwe ezinokwethembeka nokunemba okukhethekile.

Izici:

I-electrical conductivity:> 50μS/cm
I-Flange:I-DN15…1000
Ukuvikelwa kwe-Ingress:IP65/IP68

Thumela i-imeyili kithi

Imininingwane Yomkhiqizo

Omaka bomkhiqizo

Ukucaciswa

Umkhiqizo	Imitha ye-BTU kagesi
Imodeli	I-SUP-LDGR
Ububanzi begama	I-DN15 ~DN1000
Ukunemba	±2.5%, (ukugeleza=1m/s)
Ingcindezi yokusebenza	1.6MPa
Impahla ye-liner	PFA, F46, Neoprene, PTFE, FEP
Izinto ze-Electrode	Insimbi engagqwali SUS316, Hastelloy C, Titanium,
Izinto ze-Electrode	I-Tantalum, i-Platinum-iridium
Izinga lokushisa elimaphakathi	Uhlobo olubalulekile: -10 ℃ ~ 80 ℃
Izinga lokushisa elimaphakathi	Uhlobo lokuhlukaniswa: -25 ℃ ~ 180 ℃
Ukunikezwa kwamandla kagesi	100-240VAC, 50/60Hz, 22VDC—26VDC
I-conductivity kagesi	> 50μS/cm
Ukuvikelwa kwe-Ingress	IP65, IP68

Isimiso

I-SUP-LDGR electromagnetic BTU imitha (imitha yokushisa) isebenza ngokunemba okukhethekile, isebenzisa isimiso esithuthukisiwe ukukala amandla ashisayo ngendlela efanele. Amanzi ashisayo noma abandayo, ahlinzekwa umthombo wokushisa, agelezela kusistimu yokushintshanisa ukushisa eyindida, njengerediyetha, isishintshi sokushisa, noma inethiwekhi ehlanganisiwe—angena ngezinga lokushisa eliphezulu noma eliphansi futhi ephuma ngezinga lokushisa elinciphile noma eliphakeme. Le nqubo isiza ukukhishwa kokushisa okungenazihibe noma ukumuncwa kumsebenzisi ngokushintshanisa amandla okusebenzayo, amasistimu wokushisisa amabhuloho namasistimu okupholisa ngokunemba okuphawulekayo. Njengoba amanzi ezungeza ohlelweni, inzwa yokugeleza ilandelela ngokucophelela izinga lokugeleza, kuyilapho izinzwa zokushisa ezibhanqiwe ziqapha izinga lokushisa lokubuya kwamanzi ngokuhamba kwesikhathi. Lawa manani acutshungulwa yisibali esisebenza kahle kakhulu, esibonisa isamba sokushisa esikhishiwe noma esimuncwa ngokucacile.

Ukubalwa kwamandla kuchazwa ngefomula:

Q = ∫(τ0→τ1) qm × Δh × dτ = ∫(τ0→τ1) ρ × qv × Δh × dτ

Kuphi:

Q: Isamba sokushisa esikhishwe noma esimuncwe uhlelo, kukalwa ngama-joules (J) noma ama-kilowatt-amahora (kWh).
qm: Izinga lokugeleza kwamanzi amaningi ngemitha yokushisa, ngamakhilogremu ngehora (kg/h).
qv: Izinga lokugeleza kwevolumu yamanzi ngemitha yokushisa, kuma-cubic metres ngehora (m³/h).
ρ: Ukuminyana kwamanzi ageleza kumitha yokushisa, ngamakhilogremu ku-cubic meter ngayinye (kg/m³).
Δh: Umehluko we-Enthalpy phakathi kwamazinga okushisa okungenisa nokuphuma esistimu yokushintshanisa ukushisa, kuma-joules ngekhilogremu (J/kg).
τ: Isikhathi, ngamahora (h).

Le mitha ye-BTU esezingeni eliphezulu iyithuluzi elibalulekile lokuthuthukisa ukuphathwa kwamandla ashisayo ezindaweni zokuhlala, ezohwebo, ne-HVAC yezimboni kanye nezinhlelo zokufudumeza, ukuqinisekisa ukusebenza okuthembekile nokusebenza kahle kwamandla.

Iyini Imitha ye-BTU Futhi Isebenza Kanjani?