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Journal articles on the topic 'Production pressure'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Akulinin, E. I., A. A. Ishin, S. A. Skvortsov, D. S. Dvoretsky, and S. I. Dvoretsky. "Mathematical Modeling of Hydrogen Production Process by Pressure Swing Adsorption Method." Advanced Materials & Technologies, no. 2 (2017): 038–49. http://dx.doi.org/10.17277/amt.2017.02.pp.038-049.

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2

Orbulov, Imre Norbert, Árpád Németh, and János Dobránszky. "Composite Production by Pressure Infiltration." Materials Science Forum 589 (June 2008): 137–42. http://dx.doi.org/10.4028/www.scientific.net/msf.589.137.

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This paper presents the possibility of composite block production by using pressure infiltration technology. This method uses the pressure of an inert gas (usually argon or nitrogen) to force the melted matrix material to infiltrate the reinforcing elements. Three types of materials were considered: open cell metallic foam, metal matrix syntactic foam and carbon fiber reinforced metal matrix composite. Physical and mechanical investigations – such as SEM and compression tests – were performed. The results of measurements were summarized briefly.
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3

TAKAKI, Koichi, Tamiya FUJIWARA, and Fumiyoshi TOCHIKUBO. "Production of Atmospheric-Pressure Glow Discharge." Journal of Plasma and Fusion Research 79, no. 10 (2003): 1002–8. http://dx.doi.org/10.1585/jspf.79.1002.

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4

Mokhov, M. A., and A. R. Zileeva. "Dual production at low bottomhole pressure." Proceedings of Gubkin Russian State University of Oil and Gas, no. 4 (2019): 74–80. http://dx.doi.org/10.33285/2073-9028-2019-4(297)-74-81.

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5

Sygut, Piotr, and Marek Krynke. "Improving production of low pressure hoses." Production Engineering Archives 17 (December 2017): 32–35. http://dx.doi.org/10.30657/pea.2017.17.07.

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6

Dahmen, N., U. Arnold, N. Djordjevic, et al. "High pressure in synthetic fuels production." Journal of Supercritical Fluids 96 (January 2015): 124–32. http://dx.doi.org/10.1016/j.supflu.2014.09.031.

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7

Gaba, David M., Steven K. Howard, and Belinda Jump. "Production Pressure in the Work Environment." Anesthesiology 81, no. 2 (1994): 488–500. http://dx.doi.org/10.1097/00000542-199408000-00028.

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8

Yi, Kwang Bok, and Douglas P. Harrison. "Low-Pressure Sorption-Enhanced Hydrogen Production." Industrial & Engineering Chemistry Research 44, no. 6 (2005): 1665–69. http://dx.doi.org/10.1021/ie048883g.

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9

Stone, John O. "Air pressure and cosmogenic isotope production." Journal of Geophysical Research: Solid Earth 105, B10 (2000): 23753–59. http://dx.doi.org/10.1029/2000jb900181.

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10

Sircar, S., and W. C. Kratz. "Oxygen Production by Pressure Swing Adsorption." Separation Science and Technology 24, no. 5-6 (1989): 429–40. http://dx.doi.org/10.1080/01496398908049779.

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11

Cranen, Bert, and Louis Boves. "Pressure measurements during speech production using semiconductor miniature pressure transducers: Impact on models for speech production." Journal of the Acoustical Society of America 77, no. 4 (1985): 1543–51. http://dx.doi.org/10.1121/1.391997.

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12

Liu, Xinfu, Chunhua Liu, and Guoqiang Liu. "Dynamic behavior of coalbed methane flow along the annulus of single-phase production." International Journal of Coal Science & Technology 6, no. 4 (2019): 547–55. http://dx.doi.org/10.1007/s40789-019-00276-1.

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Abstract Dynamic behavior of coalbed methane (CBM) flow will provide the theoretical basis to optimize production performance for a given well. A mathematical model is developed to simulate flowing pressures and pressure drops of CBM column from well head to bottom hole. The measured parameters and independent variables of flow rates, flowing pressures and temperatures are involved in CBM producing process along the annulus. The developed relationships are validated against full-scale measured data in single-phase CBM wellbores. The proposed methodology can analyze the dynamic behavior in CBM
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13

Frooqnia, Amir, Carlos Torres Verdín, and Kamy Sepehrnoori. "Inference of rock pressure-production properties from gas-oil production logs." Journal of Natural Gas Science and Engineering 36 (November 2016): 124–43. http://dx.doi.org/10.1016/j.jngse.2016.10.018.

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14

Munakata, M., Y. Homma, M. Matsuzaki, et al. "Production mechanism of crackles in excised normal canine lungs." Journal of Applied Physiology 61, no. 3 (1986): 1120–25. http://dx.doi.org/10.1152/jappl.1986.61.3.1120.

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Lung crackles may be produced by the opening of small airways or by the sudden expansion of alveoli. We studied the generation of crackles in excised canine lobes ventilated in an airtight box. Total airflow, transairway pressure (Pta), transpulmonary pressure (Ptp), and crackles were recorded simultaneously. Crackles were produced only during inflation and had high-peak frequencies (738 +/- 194 Hz, mean +/- SD). During inflation, crackles were produced from 111 +/- 83 ms (mean +/- SD) prior to the negative peak of Pta, presumably when small airways began to open. When end-expiratory Ptp was s
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15

Calvör, Astrid, and Bernd W. McIller. "Production of Microparticles by High-Pressure Homogenization." Pharmaceutical Development and Technology 3, no. 3 (1998): 297–305. http://dx.doi.org/10.3109/10837459809009857.

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16

KATO, Shigeru, and Takeo TAMAGAWA. "Pressure Reduction Process for Molybdenum Dioxide Production." Shigen-to-Sozai 107, no. 9 (1991): 633–38. http://dx.doi.org/10.2473/shigentosozai.107.633.

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17

Hasan, Rashid, Bulent Izgec, and Shah Kabir. "Sustaining Production by Managing Annular-Pressure Buildup." SPE Production & Operations 25, no. 02 (2010): 195–203. http://dx.doi.org/10.2118/120778-pa.

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18

Krattinger, N., A. Capponi, L. Mazzolai, et al. "Connexin40 regulates renin production and blood pressure." Kidney International 72, no. 7 (2007): 814–22. http://dx.doi.org/10.1038/sj.ki.5002423.

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19

Taousanidis, Nikolaos, and Konstantinos Gavros. "Investigation of pressure retarded osmosis power production." MATEC Web of Conferences 112 (2017): 10004. http://dx.doi.org/10.1051/matecconf/201711210004.

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20

Wilbanks, Bryan A. "Evaluation of Methods to Measure Production Pressure." Journal of Nursing Care Quality 35, no. 2 (2020): E14—E19. http://dx.doi.org/10.1097/ncq.0000000000000411.

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21

Hinton, Virginia A. "Interlabial pressure during production of bilabial phones." Journal of Phonetics 24, no. 3 (1996): 337–49. http://dx.doi.org/10.1006/jpho.1996.0018.

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22

Hashimoto, Yuki, V. J. Wildfong, C. Holmqvist, J. A. Shands, and J. A. Ronning. "Continuous Pressure Gap Forming for Linerboard Production." JAPAN TAPPI JOURNAL 66, no. 2 (2012): 122–25. http://dx.doi.org/10.2524/jtappij.66.122.

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23

Vons, V., Y. Creyghton, and A. Schmidt-Ott. "Nanoparticle production using atmospheric pressure cold plasma." Journal of Nanoparticle Research 8, no. 5 (2006): 721–28. http://dx.doi.org/10.1007/s11051-006-9133-2.

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24

Kurganov, V. M., L. V. Papusha, V. I. Shtein, and G. N. Matveeva. "Optimal hydrocracking pressure in diesel fuel production." Chemistry and Technology of Fuels and Oils 35, no. 2 (1999): 77–78. http://dx.doi.org/10.1007/bf02694149.

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25

Song, Lianfa. "Modeling and Optimization of Membrane Process for Salinity Gradient Energy Production." Separations 8, no. 5 (2021): 64. http://dx.doi.org/10.3390/separations8050064.

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When hydraulic pressure was added on the feed side of the membrane in the otherwise conventional pressure retarded osmosis (PRO) process, the production rate of the salinity gradient energy could be significantly increased by manipulating the hydraulic pressures on both sides of the membrane. With hydraulic pressure added on the feed side of the membrane, much higher water flux could be obtained than that under the osmotic pressure of the same value. The osmotic pressure of the draw solution, instead of drawing water through the membrane, was mainly reserved to increase the hydraulic pressure
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26

Azimatun Nur, Muhamad Maulana, Joko Mulyono, and Danny Soetrisnanto. "VCO Production from Fresh Old Coconut Bunch by Circulating and Pumping Method." International Journal of Renewable Energy Development 1, no. 1 (2012): 28–31. http://dx.doi.org/10.14710/ijred.1.1.28-31.

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VCO (Virgin Coconut Oil) is one of coco-diesel source, made without high heating and chemicals. Commercial processes production, such fermentation and centrifugation usually need more time and expensive in cost and investment. Circulating by pumping through a nozzle is a new process method invented to produce VCO. The process followed by coalescence method, breaking emulsion by hitting particles through pipe and nozzle. The problem of this method was that the product gave lower yield than another method and not yet qualified. This research was purposed to discover correlation between pressure
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27

Hoit, Jeannette D., Steven A. Shea, and Robert B. Banzett. "Speech Production During Mechanical Ventilation in Tracheostomized Individuals." Journal of Speech, Language, and Hearing Research 37, no. 1 (1994): 53–63. http://dx.doi.org/10.1044/jshr.3701.53.

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This investigation provides the first detailed description of speech production during mechanical ventilation. Seven adults with tracheostomies served as subjects. Recordings were made of chest wall motions, neck muscle activity, tracheal pressure, air flow at the nose and mouth, estimated blood-gas levels, and the acoustic speech signal during performance of a variety of speech tasks. Results indicated that subjects spoke for short durations that spanned all phases of the ventilator cycle, altered laryngeal opposing pressures in response to the continually changing tracheal pressure wave, and
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28

Almenningen, Stian, Josef Flatlandsmo, Martin A. Fernø, and Geir Ersland. "Multiscale Laboratory Verification of Depressurization for Production of Sedimentary Methane Hydrates." SPE Journal 22, no. 01 (2016): 138–47. http://dx.doi.org/10.2118/180015-pa.

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Summary This study reviews how production of methane from hydrates can be triggered by dissociation of the hydrate structure. Techniques leading to dissociation of hydrates are summarized by pressure depletion, thermal stimulation, and injection of inhibitors. Depressurization is considered to be the most-cost-effective method and is easily implemented in gas reservoirs with overlying hydrate layers. Examples and status of pressure-depletion tests on field scale will be reviewed. In hydrate reservoirs not adjacent to gas zones, the success of pressure depletion is dependent on sufficient perme
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29

Wilfert, Glinter. "Technology Making It Into Production." Mechanical Engineering 131, no. 03 (2009): 53. http://dx.doi.org/10.1115/1.2009-mar-7.

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This paper discusses the concept of MTU Aero Engines’ high-speed low-pressure turbine for the geared turbofan, which is based on the European Union research program ‘Clean’. Under the program, MTU developed the high-speed low-pressure turbine, the turbine centre frame, and an integrated heat exchanger. The paper also highlights that Pratt & Whitney, launched its geared turbofan (GTF) demonstrator project and asked MTU to be a partner. MTU has secured a 15 percent stake in either GTF version, which brings its high-speed low-pressure turbine, plus the first four stages of the high-pressure c
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30

Mohaghegh, Shahab, H. I. Bilgesu, and Turgay Ertekin. "Production Decline Curves for Low-Pressure Gas Reservoirs Undergoing Simultaneous Water Production." SPE Formation Evaluation 10, no. 01 (1995): 57–62. http://dx.doi.org/10.2118/21269-pa.

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31

Zhang, Zhi, Jiawei Wang, Yanjun Li, Hexing Liu, Wenbo Meng, and Lei Li. "Research on the influence of production fluctuation of high-production gas well on service security of tubing string." Oil & Gas Science and Technology – Revue d’IFP Energies nouvelles 76 (2021): 54. http://dx.doi.org/10.2516/ogst/2021035.

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The production of high temperature and high pressure gas wells fluctuates with time, which makes the pressure in the string fluctuate obviously and affects the service security of tubing string. In this paper, a pressure fluctuation model of the complete production process (including well opening, production and shut-in) is established, which is suitable for the multiphase flow of gas well. The pressure fluctuation in the tubing string is simulated. Influence of different well depth and average production on the fluctuating pressure of gas well are analyzed. According to the research results,
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32

He, Chuanjiu, Fred T. Davies, and Ronald Lacey. "(305) Influence of Hypobaria on Gas Exchange and Growth of Lettuce for Advanced Life Support Systems (ALS)." HortScience 40, no. 4 (2005): 1011B—1011. http://dx.doi.org/10.21273/hortsci.40.4.1011b.

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There are advantages in growing plants under hypobaric (reduced atmospheric pressure) conditions in biomass production for extraterrestrial base or space-flight environments. Elevated levels of the plant hormone ethylene occur in enclosed crop production systems and in space-flight environments—leading to adverse plant growth and sterility. Objectives of this research were to characterize the influence of hypobaria on growth and ethylene evolution of lettuce (Lactuca sativa L. cv. Buttercrunch). Growth was comparable in lettuce grown under low (25 kPa) and ambient (101 kPa) total gas pressures
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33

Rudolf, Jeffrey J., Ted R. Heidrick, Brian A. Fleck, Rodney K. Ridley, and Raj V. S. V. Rajan. "A Pumping System to Enhance Production From Gas Wells." Journal of Energy Resources Technology 126, no. 4 (2004): 311–19. http://dx.doi.org/10.1115/1.1790537.

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A new pumping concept has been developed and patented by the Alberta Research Council to address the problem of liquid loading in natural gas wells at low, depleted pressures. This concept consists of a pump installed at the bottom of the wellbore that is driven by the reservoir gas pressure to bring the produced liquids to the surface as they accumulate thereby improving gas production from shallow gas wells. The above pump concept has been investigated in two stages of research. In the first stage, a mathematical model was developed to estimate the minimum reservoir pressure required to prev
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34

Baba, T., G. Como, T. Ohtsubo, F. Ikeda, and M. C. C. Lizada. "Effects of High-pressure Treatment on Mume Fruit (Prunus mume)." Journal of the American Society for Horticultural Science 124, no. 4 (1999): 399–401. http://dx.doi.org/10.21273/jashs.124.4.399.

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Physical and physiological changes in mume (Prunus mume Sieb. et Zucc.) subjected to a 10-minute hydrostatic high-pressure treatment at 5, 10, 50, 100, 150, and 200 MPa were investigated. Mume fruit exhibited substantial injury at pressures >5 MPa. All treatments induced color changes, which became more apparent at pressures >100 MPa. Fruit subjected to pressures ≥100 MPa deteriorated and were rendered commercially unacceptable. After transfer to atmospheric pressure all treated fruit exhibited lower CO2 evolution rates compared with control fruit. Only fruit subjected to 5 MPa exhibited
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35

Kyakuno, Takahiro, Kikuo Hattori, Kohei Ito, and Kazuo Onda. "Prediction of Production Power for High-pressure Hydrogen by High-pressure Water Electrolysis." IEEJ Transactions on Power and Energy 124, no. 4 (2004): 605–11. http://dx.doi.org/10.1541/ieejpes.124.605.

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36

Onda, Kazuo, Takahiro Kyakuno, Kikuo Hattori, and Kohei Ito. "Prediction of production power for high-pressure hydrogen by high-pressure water electrolysis." Journal of Power Sources 132, no. 1-2 (2004): 64–70. http://dx.doi.org/10.1016/j.jpowsour.2004.01.046.

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37

Alhamidi, Ali, Kaveh Edalati, and Zenji Horita. "Production of nanograined intermetallics using high-pressure torsion." Materials Research 16, no. 3 (2013): 672–78. http://dx.doi.org/10.1590/s1516-14392013005000057.

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38

Nishiura, Mayu, Takahiro Ono, Masaki Yoshinaka, Sigehiro Fujiwara, Masako Yoshinaka, and Yoshinobu Maeda. "Pressure production in oral vestibule during gum chewing." Journal of Japanese Society of Stomatognathic Function 20, no. 1 (2013): 64–65. http://dx.doi.org/10.7144/sgf.20.64.

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39

Langvik, S., and E. Aarebrot. "High Integrity Pressure Protection Systems For Production Applications." SPE Advanced Technology Series 4, no. 02 (1996): 155–59. http://dx.doi.org/10.2118/30922-pa.

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40

Das, Dr Nripanka. "DESCALING OF PRODUCTION TUBING USING HIGH PRESSURE ATOMISERS." International Journal of Engineering Applied Sciences and Technology 04, no. 12 (2020): 497–501. http://dx.doi.org/10.33564/ijeast.2020.v04i12.088.

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41

Nielsen, Per Halkjær, Kamma Raunkjær, and Thorkild Hvitved-Jacobsen. "Sulfide production and wastewater quality in pressure mains." Water Science and Technology 37, no. 1 (1998): 97–104. http://dx.doi.org/10.2166/wst.1998.0024.

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An empirical model for predicting sulfide production in pressure mains (Hvitved-Jacobsen et al., 1988) was evaluated and modified based on results obtained from two intercepting pressure mains located in the Northern part of Jutland, Denmark. Mass balances in pipe influent and effluent were made for volatile fatty acids, VFA (formate, acetate, propionate and butyrate), dissolved COD, DOC and sulfide and biofilm surface rate for sulfide and organic matter were calculated. Relatively high sulfide formation rates were observed at low temperatures (5-12°C). The sulfide production rate strongly dep
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42

Shimamoto, Tatsuo. "Pressure analysis and production performance for horizontal wells." Journal of the Japanese Association for Petroleum Technology 60, no. 6 (1995): 462–73. http://dx.doi.org/10.3720/japt.60.462.

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43

Trujillo, A. J., M. Capellas, M. Buffa, et al. "Application of high pressure treatment for cheese production." Food Research International 33, no. 3-4 (2000): 311–16. http://dx.doi.org/10.1016/s0963-9969(00)00042-9.

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44

Nishiura, M., T. Ono, M. Yoshinaka, S. Fujiwara, M. Yoshinaka, and Y. Maeda. "Pressure production in oral vestibule during gum chewing." Journal of Oral Rehabilitation 42, no. 12 (2015): 900–905. http://dx.doi.org/10.1111/joor.12328.

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45

Tao, S., Y. B. Wang, D. Z. Tang, H. Xu, and Y. M. Lv. "Coal Permeability Damage Caused by Production Pressure Difference." Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 34, no. 19 (2012): 1801–7. http://dx.doi.org/10.1080/15567036.2012.692756.

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46

Angerpointner, Thomas A. "Furosemide lowers intracranial pressure by inhibiting CSF production." Journal of Pediatric Surgery 23, no. 1 (1988): 94. http://dx.doi.org/10.1016/s0022-3468(88)80613-4.

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47

Santos, J. C., P. Cruz, T. Regala, F. D. Magalhães, and A. Mendes. "High-Purity Oxygen Production by Pressure Swing Adsorption." Industrial & Engineering Chemistry Research 46, no. 2 (2007): 591–99. http://dx.doi.org/10.1021/ie060400g.

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48

Gates, R. S., S. Zolnier, and J. Buxton. "Vapor Pressure Deficit Control Strategies for Plant Production." IFAC Proceedings Volumes 31, no. 12 (1998): 271–76. http://dx.doi.org/10.1016/s1474-6670(17)36076-7.

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49

Baker, H. A., and I. S. Salih. "Skin and Reservoir Pressure Profiling Utilizing Production Logging." IOP Conference Series: Materials Science and Engineering 579 (August 16, 2019): 012040. http://dx.doi.org/10.1088/1757-899x/579/1/012040.

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50

Lorenzo, A., G. Hornig, L. Zavala, V. Boss, and K. Welch. "Furosemide Lowers Intracranial Pressure by Inhibiting CSF Production." European Journal of Pediatric Surgery 41, S 1 (1986): 10–12. http://dx.doi.org/10.1055/s-2008-1043386.

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