Hybrid Dissolved-Oxygen and Temperature Sensing: A Nanophotonic Probe for Real-Time Monitoring of Chlorella Algae

Dissolved-oxygen concentration and temperature are amongst the crucial parameters required for the precise monitoring of biological and biomedical systems. A novel hybrid nanocomposite probe for real-time and contactless measurement of both dissolved-oxygen concentration and temperature, based on a combination of downconverting phosphorescent molecules of platinum octaethylporphyrin and lanthanide-doped upconverting nanoparticles immobilized in a host of polystyrene, is here introduced. Chlorella algae are employed here as a model to demonstrate the hybrid nanophotonic sensor’s capability to monitor the aforementioned two parameters during the photosynthesis process, since these are among the parameters impacting their production efficiency. These algae have attracted tremendous interest due to their potential to be used for diverse applications such as biofuel production; however, feasibility studies on their economic production are still underway.

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Synthesis of Reconfigurable Embedded System to Measure Temperature Compensated Dissolved Oxygen Concentration

International Journal of Advanced Research in Computer Science and Software Engineering ◽

10.23956/ijarcsse/sv7i5/0320 ◽

2017 ◽

Vol 7 (5) ◽

pp. 592-597 ◽

Cited By ~ 5

Author(s):

S. K. Tilekar ◽

◽

P. V. Mane- Deshmukh ◽

B. P. Ladgaonkar ◽

S. V. Chavan ◽

...

Keyword(s):

Dissolved Oxygen ◽

Embedded System ◽

Oxygen Concentration ◽

Dissolved Oxygen Concentration

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Effect of Physicochemical Variables on Algal Autoflotation

Water Science & Technology ◽

10.2166/wst.1992.0620 ◽

1992 ◽

Vol 26 (7-8) ◽

pp. 1769-1778 ◽

Cited By ~ 4

Author(s):

S.-I. Lee ◽

B. Koopman ◽

E. P. Lincoln

Keyword(s):

Dissolved Oxygen ◽

Oxygen Concentration ◽

Retention Time ◽

Contact Time ◽

Pilot Scale ◽

Dissolved Oxygen Concentration ◽

Physicochemical Variables ◽

Rise Rate ◽

Mixing Intensity ◽

Maximum Rise

Combined chemical flocculation and autoflotation were examined using pilot scale process with chitosan and alum as flocculants. Positive correlation was observed between dissolved oxygen concentration and rise rate. Rise rate depended entirely on the autoflotation parameters: mixing intensity, retention time, and flocculant contact time. Also, rise rate was influenced by the type of flocculant used. The maximum rise rate with alum was observed to be 70 m/h, whereas that with chitosan was approximately 420 m/h. The efficiency of the flocculation-autoflotation process was superior to that of the flocculation-sedimentation process.

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Dissolved oxygen concentration as a strategy to select type and composition of bacterial storage lipids produced during oilfield produced water treatment

Environmental Technology & Innovation ◽

10.1016/j.eti.2021.101693 ◽

2021 ◽

pp. 101693

Author(s):

Rita M. Silva ◽

Ana Rita Castro ◽

Raul Machado ◽

Maria Alcina Pereira

Keyword(s):

Water Treatment ◽

Dissolved Oxygen ◽

Oxygen Concentration ◽

Produced Water ◽

Dissolved Oxygen Concentration ◽

Storage Lipids ◽

Produced Water Treatment ◽

Oilfield Produced Water

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Partial-nitritation of low-strength anaerobic effluent: A moderate-high dissolved oxygen concentration facilitates ammonia-oxidizing bacteria disinhibition and nitrite-oxidizing bacteria suppression

The Science of The Total Environment ◽

10.1016/j.scitotenv.2021.145337 ◽

2021 ◽

Vol 770 ◽

pp. 145337

Author(s):

Zhen Lei ◽

Lianxu Wang ◽

Jun Wang ◽

Shuming Yang ◽

Zhaoyang Hou ◽

...

Keyword(s):

Dissolved Oxygen ◽

Oxygen Concentration ◽

Ammonia Oxidizing Bacteria ◽

Dissolved Oxygen Concentration ◽

Partial Nitritation ◽

Nitrite Oxidizing Bacteria ◽

Low Strength

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Gas–liquid mass transfer characteristics of aviation fuel scrubbing in an aircraft fuel tank

Scientific Reports ◽

10.1038/s41598-021-94786-1 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Li Chaoyue ◽

Feng Shiyu ◽

Xu Lei ◽

Peng Xiaotian ◽

Yan Yan

Keyword(s):

Mass Transfer ◽

Dissolved Oxygen ◽

Transfer Coefficient ◽

Mass Transfer Coefficient ◽

Oxygen Concentration ◽

Gas Holdup ◽

Aviation Fuel ◽

Volumetric Mass Transfer Coefficient ◽

Dissolved Oxygen Concentration ◽

Liquid Mass Transfer

AbstractDissolved oxygen evolving from aviation fuel leads to an increase in the oxygen concentration in an inert aircraft fuel tank ullage that may increase the flammability of the tank. Aviation fuel scrubbing with nitrogen-enriched air (NEA) can largely reduce the amount of dissolved oxygen and counteract the adverse effect of oxygen evolution. The gas–liquid mass transfer characteristics of aviation fuel scrubbing are investigated using the computational fluid dynamics method, which is verified experimentally. The effects of the NEA bubble diameter, NEA superficial velocity and fuel load on oxygen transfer between NEA and aviation fuel are discussed. Findings from this work indicate that the descent rate of the average dissolved oxygen concentration, gas holdup distribution and volumetric mass transfer coefficient increase with increasing NEA superficial velocity but decrease with increasing bubble diameter and fuel load. When the bubble diameter varies from 1 to 4 mm, the maximum change of descent rate of dissolved oxygen concentration is 18.46%, the gas holdup is 8.73%, the oxygen volumetric mass transfer coefficient is 81.45%. When the NEA superficial velocities varies from 0.04 to 0.10 m/s, the maximum change of descent rate of dissolved oxygen concentration is 146.77%, the gas holdup is 77.14%, the oxygen volumetric mass transfer coefficient is 175.38%. When the fuel load varies from 35 to 80%, the maximum change of descent rate of dissolved oxygen concentration is 21.15%, the gas holdup is 49.54%, the oxygen volumetric mass transfer coefficient is 44.57%. These results provide a better understanding of the gas and liquid mass transfer characteristics of aviation fuel scrubbing in aircraft fuel tanks and can promote the optimal design of fuel scrubbing inerting systems.

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