GMS150Ajuiɛɛr de gas ye cɔl high precision control system bɛ̈n lëu bɛ̈n ya tɛ̈n yenë gas 4 ye cɔl mixed. Gas ye lɔ̈ɔ̈m bɛɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ Gas ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi ye luɔɔi

GMS150Gas control systems ye kɔc cɔl carbon dioxide, nitrogen, carbon monoxide, methane, ammonia, ku jɔl ya gas wɛrɛw.

GMS150Sisitɛm de gas ye cɔl GMS150 ye cɔl GMS150-MICRO ye cɔl GMS150 ye cɔl GMS150-MICRO ye cɔl GMS150-MICRO ye cɔl GMS150-MICRO ye cɔl GMS150-MICRO

Lappol:

Ÿ Lɔ̈k kɛ̈ɛ̈r ye kɔc cɔl plant culture box, photonutrient bioreactor, etc. ye kɔc cɔl gas control culture

Ÿ Simulation of different CO (Simulation of different CO)₂Ka tɛmɛ kɛnɛya, ka tɛmɛ kɛnɛya, ka tɛmɛ kɛnɛya, ka tɛmɛ kɛnɛya, ka tɛmɛ kɛnɛya

Ÿ Kulis CO₂Lɔ̈ɔ̈i de concentrations ku photosynthesis

Ÿ Simulation of harmful gases such as smoke gas on plants/algae (Simulation of harmful gases such as smoke gas on plants/algae) (Simulation of harmful gases such as smoke gas on plants/algae)

Ÿ Ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ

Parameters teknis:

Ÿ Ajuiɛɛr: Thermal mass flow measurement method

Ÿ Gas: Air, nitrogen, carbon dioxide, oxygen, carbon monoxide, methane, ammonia, etc. ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic, ye yic

Ÿ Channel: 2 channel, 1 channel ye Air-N₂Kanal 2 ye CO₂A lëu bï ya juak tënë 4 channel

Ÿ Tɛmɛ tɛmɛ: 15-50 ℃

Ÿ Lɔ̈k/Lɔ̈k: Parker Prestolok (6mm)

Ÿ Lɔ̈ɔ̈i: 3-5bar

Ÿ Sealing: Fluoride rubber

Ÿ Display: 8×21 character LCD display

Ÿ Dimension: 37cm × 28 × 15cm

Ÿ Pɛɛi: 115-230V AC

Ÿ Kɔmpiye: FMT150 Algae Cultivation and Online Monitoring System, MC1000 8 Channel Algae Cultivation and Online Monitoring System, FytoScope Series Smart LED Light Source Growth Box, Cultivation Box or Reactor Designed by User Own (Can Provide Gas Route Connection Solution), etc.

GMS150Parameters ye gam:

Ÿ Kä ye kek looi: 0.02 - 1 ml/min

Ÿ Kä ye kek looi: 20 - 1000 ml/min

Ÿ A lëu bï ya tɛ̈n yenë yen ya tɛ̈n yenë yen ya tɛ̈n yenë yen ya tɛ̈n yenë yen ya tɛ̈n yenë yen ya tɛ̈n yenë yen ya tɛ̈n yenë yen Kanal 1 (Air-N)₂): 20-1000 ml/min； Kanal 2 ((CO))₂): 0.4-20 ml/min； CO lëu₂Kä ye kek looi 0.04% - 100% (Kä ye kek looi aye kek looi)

Ÿ ±0.5%, ye ±0.1% (3-5ml/min ye ±1% ye ±2% ye ±3 ml/min ye ±2%)

Ÿ Stability: <full scale ±0.1% (reference 1ml/min N)₂）

Ÿ Waktu: 1 ~ 2s

Ÿ Warm-up time: 30min preheating to reach optimal accuracy, 2min preheating bias ± 2%

Ÿ Tɛmɛ tɛmɛ: <0.05%/℃

Ÿ Tɔŋ: 0.1%/bar (N)₂）

Ÿ Sensitivity of posture: 0.2% maximum error of 90° with horizontal surface under 1bar pressure (reference N)₂）

Ÿ Kɔɔr: 7kg

GMS150-MICROParameters ye gam:

Ÿ Kä ye kek looi: 0.2 - 10 ml/min

Ÿ Kä ye kek looi: 100 - 5000 ml/min

Ÿ A lëu bï ya tɛ̈n yenë yen ya tɛ̈n yenë yen ya tɛ̈n yenë yen ya tɛ̈n yenë yen ya tɛ̈n yenë yen ya tɛ̈n yenë yen ya tɛ̈n yenë yen Kanal 1 (Air-N)₂): 40-2000 ml/min； Kanal 2 ((CO))₂): 0.8-40 ml/min； CO lëu₂Kä ye kek looi 0.04% - 100% (Kä ye kek looi aye kek looi)

Ÿ Kɔɔr: ±1.5%, ±0.5% bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i bɛ̈ɛ̈i

Ÿ Lɔ̈ɔ̈i: Lɔ̈ɔ̈i <20 ml/min ye ±0.5% ye, lɔ̈ɔ̈i <20 ml/min ye ±0.5% ye

Ÿ Waktu: 1s

Ÿ Warm-up time: 30min preheating to reach optimal accuracy, 2min preheating bias ± 2%

Ÿ Temperature sensitivity: Zero point <0.01%/℃, full density <0.02%/℃

Ÿ Yïïn ye kë ye cɔl gesture sensitivity: 1 bar pressure keeps 90° with horizontal surface maximum error 0.5 ml/min (reference N)₂）

Ÿ Kɔɔr: 5kg

Application Cases:

Lëk algi blu në kaam de FMT150 algae culture ku online monitoring systemCyanotheceSp. ATCC 51142's supersolar metabolic rhythm (Cervený, 2013, PNAS)

Wuro:Eropa

References:

1. Sarayloo E,et al. 2018. Enhancement of the lipid productivity and fatty acid methyl ester profile ofChlorella vulgarisby two rounds of mutagenesis. Bioresource Technology, 250: 764-769

2. Mitchell M C,et al. 2017. Pyrenoid loss impairs carbon-concentrating mechanism induction and alters primary metabolism inChlamydomonas reinhardtii. Journal of Experimental Botany, 68(14): 3891-3902

3. Hulatt C J,et al. 2017.Polar snow algae as a valuable source of lipids? Bioresource Technology, 235: 338-347

4. Jouhet J,et al. 2017. LC-MS/MS versus TLC plus GC methods: Consistency of glycerolipid and fatty acid profiles in microalgae and higher plant cells and effect of a nitrogen starvation. PLoS ONE 12(8): e0182423

5. Angermayr S A,et al. 2016. CulturingSynechocystissp. Strain PCC 6803 with N₂and CO₂in a Diel Regime Reveals Multiphase Glycogen Dynamics with Low Maintenance Costs. Appl. Environ. Microbiol., 82(14):4180-4189

6. Acuña A M,et al. 2016.A method to decompose spectral changes inSynechocystisPCC 6803 during light-induced state transitions. Photosynthesis Research, 130(1-3): 237-249