Isimo sokusebenza se-Genset: | | | |
1.Izimo zokusebenza ezamukelekile: | | | |
Izinga lokushisa le-ambient: -10ºC~+45ºC(I-antifreeze noma amanzi ashisayo adingekayo ngaphansi kuka-20ºC) |
Umswakama ohlobene:90%(20ºC), Ukuphakama: ≤500m. |
2.Igesi efakiwe:I-Biogas | | | |
Umfutho wegesi kaphethiloli owamukelekayo: 8 ~ 20kPa,CH4okuqukethwe ≥50% |
Inani lokushisa eliphansi legesi (LHV) ≥23MJ/Nm3.Uma i-LHV<23MJ/Nm3, amandla enjini yegesi azokwehla futhi ukusebenza kahle kukagesi kuzokwehla.Igesi ayifaki amanzi okujiya amahhala noma izinto zamahhala (usayizi wokungcola kufanele ube ngaphansi kuka-5μm.) |
Umswakama ohlobene:90%(20ºC), Ukuphakama: ≤500m. |
H2Sokuqukethwe≤200ppm.NH3okuqukethwe≤ 50ppm.Ikhoni ye-silicon≤ 5 mg/Nm3 | | | |
Okuqukethwe ukungcola≤30mg/Nm3, usayizi≤5μm,Okuqukethwe kwamanzi≤40g/Nm3, awekho amanzi amahhala. |
QAPHELA: | | | |
1. I-H2S izodala ukugqwala kwezingxenye zenjini.Kungcono ukuyilawula ngaphansi kuka-130ppm uma kungenzeka. |
2. I-silicon ingavela emafutheni okugcoba enjini.Ukugxila okuphezulu kwe-silicon kuwoyela wenjini kungabangela ukuguga nokudabuka kakhulu ezingxenyeni zenjini.Amafutha enjini kufanele ahlolwe ngesikhathi sokusebenza kwe-CHP futhi uhlobo lukawoyela kufanele lunqunywe ngokusho kokuhlolwa kukawoyela okunjalo. |
Ukucaciswa kweGenset | | | |
WINTPOWERi-biogas gensetidatha |
Imodeli yeGenset | I-WTGS500-G | | |
Amandla alindile (kW/kVA) | 500/625 | | |
Amandla aqhubekayo (kW/kVA) | 450/563 | | |
Uhlobo lokuxhuma | 3 izigaba 4 izintambo | | |
Isici samandla cosfi | 0.8 ukudlula | | |
I-Voltage(V) | 400/230 | | |
Imvamisa (Hz) | 50 | | |
Ikalwe okwamanje(Amps) | 812 | | |
Ukusebenza kahle kagesi kwe-gas genset | 36% | | |
I-Voltage Stabilized regulation | ≤±1.5% | | |
I-Voltage Instantaneous regulation | ≤±20% | | |
Isikhathi Sokuthola I-Voltage (s) | ≤1 | | |
I-Voltage Fluctuation ratio | ≤1% | | |
I-Voltage Wave aberration ratio | ≤5% | | |
Umthethonqubo ozinzile | ≤1%(iyalungiseka) | | |
I-Frequency Instantaneous regulation | -10%~12% | | |
I-Fluctuation ratio | ≤1% | | |
Isisindo sengqikithi(kg) | 6080 | | |
Ubukhulu be-Genset(mm) | 4500*2010*2480 | | |
WINTPOWER-Cummins Biogas Engine Data |
Imodeli | I-HGKT38 | | |
Ibhrendi | WINTPOWER-CUMMINS | | |
Uhlobo | I-stroke engu-4, ukupholisa amanzi, i-cylinder liner emanzi, isistimu ye-electronic-control ignition, ukushisa okuxubile okuxutshwe ngaphambili okuxubile | | |
Okukhipha injini | 536kW | | |
Amasilinda & Ukuhlelwa | 12, V uhlobo | | |
I-Bore X Stroke(mm) | 159X159 | | |
Ukususwa(L) | 37.8 | | |
Isilinganiso sokucindezela | 11.5:1 | | |
Isivinini | 1500RPM | | |
Ukulangazelela | I-Turbocharged & intercooled | | |
Indlela Yokupholisa | Amanzi apholiswe irediyetha yefeni | | |
I-Carburetor/i-gas mixer | I-Huegli gas mixer evela eSwitzerland | | |
Ukuxuba umoya/uphethiloli | Ukulawula isilinganiso somoya/samafutha okuzenzakalelayo | | |
Isilawuli sokuthungela | Iyunithi ye-Altronic CD1 | | |
I-oda lokudubula | R1-L6-R6-L1-R5-L2-R2-L5-R3-L4-R4-L3 | | |
Uhlobo lombusi(uhlobo lokulawula isivinini) | Ukuphatha ngogesi, i-Huegli Tech | | |
uvemvane valve | I-MOTORTECH | | |
Indlela yokuqala | Ugesi, 24 V motor | | |
Isivinini se-idling(r/min) | 700 | | |
I-Biogasconsumption (m3/kWh) | 0.46 | | |
Kunconywa uwoyela | I-SAE 15W-40 CF4 noma ngaphezulu | | |
Ukusetshenziswa kwamafutha | ≤0.6g/kW.h | | |
Idatha ye-Alternator |
Ibhrendi | WINT | | |
Imodeli | I-SMF355D | | |
Amandla aqhubekayo | 488kW/610kVA | | |
I-Voltage elinganiselwe (V) | 400/230V / 3 isigaba, 4 izintambo | | |
Uhlobo | Izintambo ezi-3/4, i-brushless, ukuzithokozisa, ukufakazela ukuconsa, uhlobo oluvikelwe. | | |
Imvamisa (Hz) | 50 | | |
Ukusebenza kahle | 95% | | |
Ukulawulwa kwamandla kagesi | ± 1 %(iyalungiseka) | | |
Isigaba se-insulation | Ikilasi H | | |
Isigaba sokuvikela | IP 23 | | |
indlela yokupholisa | ukupholisa umoya, ukuzishisa-ukwala | | |
Imodi yokulawula i-voltage | I-Automatic voltage regulator AS440 | | |
Ihambisana nezindinganiso zamazwe ngamazwe: | IEC 60034-1, NEMA MG1.22, ISO 8528/3, CSA, UL 1446, UL 1004B ngesicelo, imithetho yasolwandle, njll. | | |
I-ComAp Control Panel IG-NT (I-Controller IG-NTC-BB exhunywe nesikrini se-IntelliVision Display) |
| | | |
I-ComAp InteliGen NTC BaseBox iyisilawuli esiphelele sazo zombili izinhlobo zohlobo olulodwa neziningi ezisebenza kumamodi alindile noma afanayo.Ukwakhiwa kwe-modular okukhiphekayo kuvumela ukufakwa okulula okunamandla amamojula amaningi okunweba aklanyelwe ukuhambisana nezidingo zekhasimende ngalinye. |
I-IntelliGen NT BaseBox ingaxhunywa nesikrini sokubonisa se-IntelliVision 5 esiyisikrini sokubonisa esingu-5.7″ soMbala we-TFT. |
Izici: |
1.Ukusekelwa kwezinjini nge-ECU (J1939, Modbus nezinye izixhumanisi zobunikazi);amakhodi e-alamu aboniswa ngefomu lombhalo |
2.Umsebenzi we-AMF |
3.Ukuvumelanisa okuzenzakalelayo nokulawula amandla (nge-speed governor noma i-ECU) |
4.Base load, Ngenisa / Thumela |
5.Ukushefa okuphezulu |
6.I-Voltage ne-PF control (AVR) |
7.Isilinganiso sejeneretha: U, I, Hz, kW, kVAr, kVA, PF, kWh, kVAhr |
8.Isilinganiso esiyinhloko: U, I, Hz, kW, kVAr, PF |
9. Amabanga okulinganisa akhethekayo ama-voltage nama-AC - 120 / 277 V, 0-1 / 0-5 A 1) |
10.Okokufaka nokuphumayo kulungiseka ngokwezidingo ezahlukene zamakhasimende |
11.Bipolar okukhipha kanambambili - kungenzeka ukusebenzisa |
12.BO njengoba High noma Low side switch |
13.RS232 / RS485 isikhombimsebenzisi esisekelwa yi-Modbus; |
14.Ukusekelwa kwemodemu ye-Analog / GSM / ISDN / CDMA; |
15.imiyalezo ye-SMS;I-ECU Modbus interface |
16.Isixhumi esibonakalayo se-RS485 esesibili esihlukile 1) |
Ukuxhumeka kwe-17.Ethernet (RJ45) 1) |
18.USB 2.0 isixhumi esibonakalayo sesigqila 1) |
20.Umlando osuselwe kumcimbi (afika kumarekhodi ayi-1000) nge |
21.Uhlu olukhethwa yikhasimende lwamanani agciniwe;I-RTC;amanani ezibalo |
22.Imisebenzi ehlelekayo ye-PLC ehlanganisiwe |
23.Isibonisi seyunithi yesibonisi esikude |
24.DIN-Rail mount |
Ukuvikelwa okuhlanganisiwe okungaguquki nokulungisekayo |
Isigaba 1.3 sokuvikela okuhlanganisiwe kokukhiqiza (U + f) |
2.IDMT overcurrent + Ukuvikelwa kwamanje okufushane |
3.Ukuvikela ukulayisha ngokweqile |
4.Ukuhlehlisa ukuvikela amandla |
I-5.Instantaneous kanye ne-IDMT yomhlaba iphutha lamanje |
6.3 isigaba sokuvikela okuhlanganisiwe okuyinhloko (U + f) |
7.I-Vector shift kanye nokuvikelwa kwe-ROCOF |
8.Konke okokufaka kanambambili / kwe-analog kulungiseka mahhala ezinhlotsheni ezahlukahlukene zokuvikela: HistRecOnly / Alarm Only |
9./ I-alamu + Inkomba yomlando / Isexwayiso / Vala umthwalo / |
10.Ima kancane / Vula i-breaker & Pholisa phansi / Vala |
11.Ukuvala shaqa / Amapayipi avikela / Inzwa yehlulekile |
12.Isigaba sokujikeleza nokuvikelwa kokulandelana kwesigaba |
13.Ukuvikela okulungisekayo okungu-160 okwengeziwe okulungisekayo kunoma yiliphi inani elilinganisiwe ukuze kudale ukuvikelwa okuqondene nekhasimende |