I-SUP-LDGR Electromagnetic BTU imitha
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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, |
| I-Tantalum, i-Platinum-iridium | |
| Izinga lokushisa elimaphakathi | Uhlobo olubalulekile: -10 ℃ ~ 80 ℃ |
| Uhlobo lokuhlukaniswa: -25 ℃ ~ 180 ℃ | |
| Ukunikezwa kwamandla kagesi | 100-240VAC, 50/60Hz, 22VDC—26VDC |
| I-conductivity kagesi | > 50μS/cm |
| Ukuvikelwa kwe-Ingress | IP65, IP68 |
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Isimiso
I-SUP-LDGR electromagnetic BTU imitha(Imitha yokushisa) isimiso sokusebenza: Amanzi ashisayo (abandayo) ahlinzekwa umthombo wokushisa agelezela ohlelweni lokushintshanisa ukushisa endaweni yokushisa ephezulu (ephansi)(irediyetha, isishintshi sokushisa, noma uhlelo oluyinkimbinkimbi oluhlanganisa zona),Ukuphuma ngaphandle kwezinga lokushisa eliphansi (eliphezulu), lapho kukhishwa khona ukushisa noma ukumuncwa kumsebenzisi ngokushintshana kokushisa (inothi: le nqubo yokushintshanisa amandla ihlanganisa ukugeleza kwamanzi ngesistimu yokushintshanisa). kunzwa yokugeleza kokugeleza nokumatanisa izinga lokushisa lenzwa kunikezwa izinga lokushisa lamanzi elibuyayo, futhi ligeleze phakathi nesikhathi, ngokubala kwesibali nokubonisa ukukhishwa kokushisa kwesistimu noma ukumuncwa.
Q = ∫(τ0→τ1) qm × Δh ×dτ =∫(τ0→τ1) ρ×qv×∆h ×dτ
Q: Ukushisa okukhishwe noma ukumuncwa uhlelo, JorkWh;
qm: Ukugeleza kwamanzi amaningi ngemitha yokushisa, kg/h;
qv: Ukugeleza kwevolumu yamanzi ngemitha yokushisa, m3/h;
ρ: Ukuminyana kwamanzi ageleza ngemitha yokushisa, kg/m3;
∆h: Umehluko ku-enthalpy phakathi kwamazinga okushisa okungenisa nokukhipha okushisa
uhlelo lokushintshisana, J/kg;
t:isikhathi,h.
Qaphela: umkhiqizo unqatshelwe ngokuphelele ukuthi usetshenziswe ezenzakalweni zokuvikela ukuqhuma.
