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Effects of piperacillin synthesis on the infterfacial tensions and droplet sizes 被引量:2
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作者 Yu Xie Guoming Huang +1 位作者 Weiguo Hu Yujun Wang 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2021年第10期53-62,共10页
Piperacillin is a polar organic substance,and can reduce the interfacial tension of oil and water when dissolved in water.In this study,changes in dichloromethane–water interfacial tensions and microdroplet sizes dur... Piperacillin is a polar organic substance,and can reduce the interfacial tension of oil and water when dissolved in water.In this study,changes in dichloromethane–water interfacial tensions and microdroplet sizes during piperacillin synthesis from an aqueous solution of ampicillin and dichloromethane solution of 4-ethyl-2,3-dioxo-1-piperazine carbonyl chloride(EDPC)were observed using a pendent drop technique and a coaxial ring tube system with embedded high-speed camera,respectively.It was found that the rapid N-acylation reaction caused the piperacillin at the interface to synthesize rapidly and diffuse out slowly,resulting in the interfacial tension decreased from 19.5 m N·m-1 to 7.2 m N·m-1 rapidly and then increased slowly as the concentrations of ampicillin and EDPC were 0.05 mol·L-1 and 0.1 mol·L-1.Meanwhile,the increase in the concentration of EDPC increased the peak concentration of piperacillin at the interface,and the addition of ethyl acetate to the ampicillin solution promoted mass transfer and reduced the aggregation of piperacillin effectively.During synthesis,the interfacial tension decreased,leading to a change in droplet sizes in the micro-reaction system.The two-phase reaction was carried out in a coaxial ring tube,with ampicillin and EDPC solutions as continuous and dispersed phases,respectively.The reaction reduced the dripping flow area,and the addition of ethyl acetate to the ampicillin solution slightly affected the division of the flow pattern.Under the same flow conditions,the droplet sizes of the reaction group were smaller than those of the no reaction group.The experimental results demonstrated that the increase of the continuous phase,decrease in the dispersed phase flow rate,or increase in EDPC concentration making droplet sizes smaller,and the addition of ethyl acetate slightly affected droplet sizes.These findings are important for the design and optimization of piperacillin synthesis reactors. 展开更多
关键词 Pendant drop Interfacial tension MICROCHANNEL droplet size Piperacillin synthesis Mass transfer
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An experimental study on oil droplet size distribution in subsurface oil releases 被引量:1
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作者 LI Jianwei AN Wei +2 位作者 GAO Huiwang ZHAO Yupeng SUN Yonggen 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2018年第11期88-95,共8页
Oil droplet size distribution (ODSD) plays a critical role in the rising velocity and transport of oil droplets in subsurface oil releases. In this paper, subsurface oil release experiments were conducted to study O... Oil droplet size distribution (ODSD) plays a critical role in the rising velocity and transport of oil droplets in subsurface oil releases. In this paper, subsurface oil release experiments were conducted to study ODSD under different experimental conditions in a laboratory water tank observed by two high-speed cameras in March and April 2017. The correlation formulas Oh=lO.2Re-~ and Oh=39.2Re-1 (Re represents Reynolds number and Oh represents Ohnesorge number) were established to distinguish the boundaries of the three instability regimes in dimensionless space based on the experimental results. The oil droplet sizes from the experimental data showed an excellent match to the Rosin-Rammler distribution function with determination coefficients ranging from 0.86 to 1.00 for Lvda 10-1 oil. This paper also explored the influence factors on and change rules ofoil droplet size. The volume median diameter d50 decreased steadily with increasing jet velocity, and a sharp decrease occurred in the laminar-breakup regime. At Weber numbers (We) 〈100, the orifice diameter and oil viscosity appeared to have a large influence on the mean droplet diameter. At 100〈We〈1 000, the oil viscosity appeared to have a larger influence on the relative mean droplet diameter. 展开更多
关键词 oil droplet size distribution subsurface oil releases Rosin-Rammler distribution
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In-Situ Measurement of Droplet Size Distribution by Light Scattering Method
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作者 Ye Mao Lu Yong +2 位作者 Hu Tao Wang Shimin Xu Yiqian(Thermal Energy Engineering Research institute, Southeast University, Nanjing 210096, China) 《Wuhan University Journal of Natural Sciences》 CAS 1998年第4期418-422,共5页
Inversion of droplet size distribution in two-phase flow from light scattering has been considered involved because it is in general reduced to the solution of Fredholm integral equation of the first kind that was alw... Inversion of droplet size distribution in two-phase flow from light scattering has been considered involved because it is in general reduced to the solution of Fredholm integral equation of the first kind that was always ill-posed. By using the Rosin-Rammler distributiona priori as the particulate size distribution model in the liquid-gas two-phase flow, a method via the solution of a two-parameter nonlinear programming problem to determine the droplet size distribution has been developed. A measurement system based on the technique is designed and applied in the shock test of blades of steam turbine. 100-hours continuous monitoring of the droplets in the liquid-gas two-phase flow of 8.0 Pa and 120 °C was performed and the details of the experiments are given out. It is shown that the technique is simple and efficient for in-situ real time measuring droplets in the liquid-gas two-phase flow. 展开更多
关键词 droplet size distribution two-phase flow inversion method Fraunhofer diffraction
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Droplet Size Distribution on the Large-holed Compound Sieve Tray in the Spray Regime
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作者 方云进 何良明 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2005年第2期173-177,共5页
The droplet size distribution with large-holed compound sieve tray operating in the spray regime is measured by using a double electrical probes technique in a cold model column of 400 mm diameter. The results indicat... The droplet size distribution with large-holed compound sieve tray operating in the spray regime is measured by using a double electrical probes technique in a cold model column of 400 mm diameter. The results indicate that the hole F-factor F0 and surface tension are the main factors which influence the liquid dispersion expressed by the Sauter mean diameter D32. A correlation of D32 on surface tension, viscosity, .F-factor, weir height and liquid flow rate is proposed. 展开更多
关键词 double electrical probe droplet size distribution large-holed compound sieve tray spray regime
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Effect of Nozzle Orientation on Droplet Size and Droplet Velocity from Vineyard Sprays
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作者 Ariane Vallet Cyril Tinet Jean-Paul Douzals 《Journal of Agricultural Science and Technology(B)》 2015年第10期672-678,共7页
Spray drift has become an important issue in pesticide application. Vineyard spraying is particularly interesting to consider, as pesticide droplets are not directed towards the ground but rather towards the targeted ... Spray drift has become an important issue in pesticide application. Vineyard spraying is particularly interesting to consider, as pesticide droplets are not directed towards the ground but rather towards the targeted crop. The aim of this study was to investigate the influence of nozzle orientation on droplet size and droplet velocity using three different nozzles (IDK, TVI and TXA) used in vineyards. Two series of measurement were performed in order to assess the effect of the gravity on sprays. Droplet size and one-dimensional droplet velocity characteristics were measured using a phase Doppler particle analyser (PDPA). Two planes, i.e., one horizontal and one vertical, were considered. Results suggest that the nozzle orientation slightly affects the size distribution, which is shifted towards larger droplets when nozzles spray horizontally compared to vertically spray, However, droplet axial velocity distribution is shifted towards lower values. Supposing that the only droplets which can reach the crop are those with an axial velocity greater than 1 m/s and a diameter larger than 100 lain, results showed significant differences according to the nozzle and orientation. More than 98.6% of the spray volume would reach the target whatever the orientation of the IDK nozzle, 78.8% of the spray volume would reach the crop when the TVI nozzle sprays horizontally, while only 16.0% of the spray volume would reach the crop when TXA nozzle sprays horizontally. This paper offers new perspectives in the comprehension and the optimization of the deposition process into the vegetation based from droplet size and velocity profiles from horizontally oriented sprays from flat fan or hollow cone nozzles. 展开更多
关键词 droplet size droplet velocity nozzle orientation vineyard sprays.
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A Correction Algorithm for Atmospheric Visibility Based on Fog Droplet Size Data Obtained on a Moving Ship During 2016 Arctic Cruise 被引量:1
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作者 LIU Yilin ZHAO Jinping 《Journal of Ocean University of China》 SCIE CAS CSCD 2019年第3期596-604,共9页
In this study, we measured the droplet size distribution(DSD) and visibility of sea fog using a fog droplet spectrometer and visibility meter, respectively, during the July 23-August 3 and August 22-September 13 perio... In this study, we measured the droplet size distribution(DSD) and visibility of sea fog using a fog droplet spectrometer and visibility meter, respectively, during the July 23-August 3 and August 22-September 13 periods of the 2016 Chinese National Arctic Research Expedition. We calculated the visibility using the Mie theory and the DSD data and then compared the calculated with the observed visibility. The comparison shows that the deviations in the calculated visibility caused by DSD data sampling errors cannot be ignored. During navigation, wind and ship speeds tended to push or pull the sampled air and cause turbulence pulsation, which influenced the sampling of the fog droplet spectrometer. This influence is weak when the liquid water content(LWC) is high but becomes stronger as the LWC decreases. Taking the sailing speed and heading into consideration, the wind speed component parallel and perpendicular to the air inlet of the fog droplet spectrometer exhibit different laws in the deviation. By performing a fitting analysis of the calculated and observed visibilities under different wind speeds and wind directions, here, we present two sets of correction coefficients for the two wind-speed components and a method for correcting the calculated visibility. This correction method shows excellent results. 展开更多
关键词 ARCTIC sea FOG FOG droplet size distribution liquid water content VISIBILITY MIE theory
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Effect of Velocity Ratio,Viscosity Ratio,Contact Angle,and Channel Size Ratio on Droplet Formation
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作者 Mohammed Bourega Ibrahim Kromba +1 位作者 Khadidja Feah Arbi Sofiane Souimane 《Fluid Dynamics & Materials Processing》 EI 2023年第10期2471-2480,共10页
This study uses a T-junction to examine the effects of different parameters(velocity ratio,viscosity,contact angle,and channel size ratio)on the generation of microdroplets,related rate,and size.More specifically,numer... This study uses a T-junction to examine the effects of different parameters(velocity ratio,viscosity,contact angle,and channel size ratio)on the generation of microdroplets,related rate,and size.More specifically,numerical simulations are exploited to investigate situations with a velocity varying from 0.004 to 1.6 m/s for the continuous phase and from 0.004 to 0.8 m/s for the dispersed phase,viscosity ratios(0.668,1,6.689,10,66.899),contact angle 80°<θ<270°and four different canal size ratios(1,1.5,2 and 4).The results show that canal size influences droplet size and the generation rate.The contact angle has an impact on the form and the quality of generated droplets.Moreover,the relationship between velocity and viscosity ratios,droplet size,and generation rate is non-monotonic. 展开更多
关键词 Microfluidics T-junction droplet generator droplet size droplet diameter generation rate
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Production of Artificial Fog in the PAVIN Fog and Rain Platform: In Search of Big Droplets Fog
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作者 Pierre Duthon Mickaël Ferreira Fernandes Sébastien Liandrat 《Atmospheric and Climate Sciences》 2024年第1期42-61,共20页
In fog, visibility is reduced. This reduction in visibility is measured by the meteorological optical range (MOR), which is important for studying human perception and various sensors in foggy conditions. The Cerema P... In fog, visibility is reduced. This reduction in visibility is measured by the meteorological optical range (MOR), which is important for studying human perception and various sensors in foggy conditions. The Cerema PAVIN Fog & Rain platform is capable of producing calibrated fog in order to better analyses it and understand its consequences. The problem is that the droplets produced by the platform are not large enough to resemble real fog. This can have a major impact on measurements since the interaction between electromagnetic waves and fog depends on the wavelength and diameter of the droplets. To remedy this, Cerema is building a new platform with new equipment capable of generating fog. This study analyses different nozzles and associated usage parameters such as the type of water used and the pressure used. The aim is to select the best nozzle with the associated parameters for producing large-diameter droplets and therefore more realistic fog. 展开更多
关键词 FOG Physical Simulation droplets size Distribution Meteorological Optical Range
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Research into Configuration and Flow of Wall Oil Film in Bearing Chamber Based on Droplet Size Distribution 被引量:8
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作者 CHEN Guoding SUN Hengchao WANG Jun 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2011年第3期355-362,共8页
The lubrication design and heat transfer determination of bearing chambers in aeroengine require a sufficient understanding of the oil droplet-film interaction and physical characteristic in an oil/air two-phase flow ... The lubrication design and heat transfer determination of bearing chambers in aeroengine require a sufficient understanding of the oil droplet-film interaction and physical characteristic in an oil/air two-phase flow state. The analyses of oil droplet movement, mass and momentum transfer during the impingement of droplet/wall, as well as wall oil film thickness and flow velocity are very important for the bearing chamber lubrication and heat transfer calculation. An integrated model in combination with droplet movement, droplet/wall impact and film flow analysis is put forward initially based on the consideration of droplet size distribution. The model makes a contribution to provide more practical and feasible technical approach, which is not only for the study of droplet-film interaction and physical behavior in bearing chambers with oil/air two-phase flow phenomena, but also useful for an insight into the essence of physical course through droplet movement and deposition, film formation and flow. The influences of chamber geometries and operating conditions on droplet deposition mass and momentum transfer, and wall film thickness and velocity distribution are discussed. The feasibility of the method by theoretical analysis is also verified by the ex- isting experimental data. The current work is conducive to expose the physical behavior of wall oil film configuration and flow in bearing chamber, and also significant for bearing chamber lubrication and heat transfer study under oil/air two-phase flow conditions. 展开更多
关键词 bearing chamber droplet size film thickness oil/air two-phase AEROENGINE LUBRICATION
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Droplet size and spray pattern characteristics of PWM-based continuously variable spray 被引量:8
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作者 Deng Wei He Xiongkui Ding Weimin 《International Journal of Agricultural and Biological Engineering》 SCIE EI CAS 2009年第1期8-18,共11页
A Pulse-Width-Modulation-based(PWM-based)continuously variable sprayer was developed using a proportional regulating solenoid valve.Variable flow-rate was obtained by varying the duty cycle of the actuating signal wit... A Pulse-Width-Modulation-based(PWM-based)continuously variable sprayer was developed using a proportional regulating solenoid valve.Variable flow-rate was obtained by varying the duty cycle of the actuating signal with 24 kHz frequency.Flow-rate regulating ranges of the PWM-based continuously variable spray(i.e.the turndown ratio responding to 100%-40%duty cycle)are 7.14:1,3.57:1,and 3.70:1 for flat-fan,hollow-cone and solid-cone nozzles,respectively.The purpose of the study was to evaluate the PWM-based continuously variable spray.The method was to quantify the effects of flow-rate control on spray characteristics in terms of droplet size spectra,spray distribution patterns,and spray angle for flat-fan,hollow-cone,solid-cone nozzles.For all nozzles tested,spray distribution concentrated on the center of the spray field with the decrease of flow-rate.But the spray shape is still symmetrical.The sensitivities of the spray angles to flow-rate were 0.83,0.67,and 0.58(o)/%respectively for flat-fan,hollow-cone and solid-cone nozzles.Compared with the sensitivities of spray angle for PWM-based intermittent variable spray,they are somewhat larger.As flow-rate was reduced from the maximum(100%flow-rate)to the minimum controllable rate,the observed median diameter of spray droplets decreased by 5.4%,9.8%,and 9.9%for flat-fan,hollow-cone and solid-cone nozzles,respectively.This indicates that spray droplet size was affected slightly by flow-rate control. 展开更多
关键词 Pulse Width Modulation(PWM) continuously variable spray droplet size spray distribution pattern spray angle
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Effects of droplet size and spray volume parameters on droplet deposition of wheat herbicide application by using UAV 被引量:6
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作者 Changfeng Shan Guobin Wang +5 位作者 Haihong Wang Yingjie Xie Huizheng Wang Shilong Wang Shengde Chen Yubin Lan 《International Journal of Agricultural and Biological Engineering》 SCIE EI CAS 2021年第1期74-81,共8页
With the characteristic of flexible and precise,unmanned aerial vehicles(UAVs)for low volume applications are increasing substantially and quickly around the globe.However,little attention has been paid to the study o... With the characteristic of flexible and precise,unmanned aerial vehicles(UAVs)for low volume applications are increasing substantially and quickly around the globe.However,little attention has been paid to the study of wheat herbicides with UAV,especially the research on the spray volume and droplet size of the herbicide sprayed by UAVs.The objectives of this study were to compare the droplet deposition from a typical commercial UAV under four different spray volumes of 7.5 L/hm2,15.0 L/hm2,22.5 L/hm2,and 30.0 L/hm2 and three different volume median diameter(VMD)of 150μm,200μm,and 300μm during winter wheat weeding period.DepositScan software was used to analyze droplet deposition parameters including the percentage of spray coverage and the number of droplets in various sampling positions.The test results showed that the droplet deposition waseffected by each factor andtheirinteractions.When the spray volume was 7.5 L/hm2,the effect of VMD on the percentage of spray coverage was not significant.However,these variation rules were changed to smaller droplets with greater coverage when the spray volume higher than 15.0 L/hm2.In all treatments,the number of droplets increased with decreasing VMD or increasing spray volume.The maximum percentage of spray coverage and the number of droplets that were achieved under the VMD of 150μm and the spray volume of 30.0 L/hm2 were 12.8%and 40.0 droplets/cm2,respectively.The variation coefficients of the percentage of spray coverage and the number of droplets were 29.0%-73.3%and 20.2%-54.1%,respectively.The most uniform deposition was achieved under the spray volume of 15.0 L/hm2and the VMD of 150μm.The results revealed the effect of droplet size and spray volume parameters on droplet deposition,which was useful for guiding farmers on how to use UAVs for weeding in winter wheat fields. 展开更多
关键词 unmanned aerial vehicle spray volume droplet size droplet deposition
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Studies on Droplet Size Distributions during Coalescence in Immiscible Polymer Blends Filled with Silica Nanoparticles 被引量:1
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作者 Zhi-ming Zou 孙昭艳 Li-jia AnState 《Chinese Journal of Polymer Science》 SCIE CAS CSCD 2014年第3期255-255,256-267,共13页
The effect of silica nanoparticles on the morphology of (10/90 wt%) PDMS/PBD blends during the shear induced coalescence of droplets of the minor phase at low shear rate was investigated systematically in situ by us... The effect of silica nanoparticles on the morphology of (10/90 wt%) PDMS/PBD blends during the shear induced coalescence of droplets of the minor phase at low shear rate was investigated systematically in situ by using an optical shear technique. Two blending procedures were used: silica nanoparticles were introduced to the blends by pre-blending silica particles first in PDMS dispersed phase (procedure 1) or in PBD matrix phase (procedure 2). Bimodal or unimodal droplet size distributions were observed for the filled blends during coalescence, which depend not so much on the surface characteristics of silica but mainly on blending procedure. For pure (10/90 wt%) PDMS/PBD blend, the droplet size distribution exhibits bimodality during the early coalescence. When silica nanoparticles (hydrophobic and hydrophilic) were added to the blends with procedure l, bimodal droplet size distributions disappear and unimodal droplet size distributions can be maintained during coalescence; the shape of the different peaks is invariably Gaussian. Simultaneously, coalescence of the PDMS droplets was suppressed efficiently by the silica nanoparticles. It was proposed that with this blending procedure the nanoparticles should be mainly kinetically trapped at the interface or in the PDMS dispersed phase, which provides an efficient steric barrier against coalescence of the PDMS dispersed phase. However, bimodal droplet size distributions in the early stage of coalescence still occur when incorporating silica nanoparticles into the blends with procedure 2, and then coalescence of the PDMS droplets cannot be suppressed efficiently by the silica nanoparticles. It was proposed that with this blending protocol the nanoparticles should be mainly located in the PBD matrix phase, which leads to an inefficient steric barrier against coalescence of the PDMS dispersed phase; thus the morphology evolution in these filled blends is similar to that in pure blend and bimodal droplet size distributions can be observed during the early coalescence. These results imply that exploiting non-equilibrium processes by varying preparation protocol may provide an elegant route to regulate the temporal morphology of the filled blends during coalescence. 展开更多
关键词 droplet size distribution Immiscible polymer blends COALESCENCE Silica nanoparticles.
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Effects of droplet size and spray interval on root-to-shoot ratio,photosynthesis efficiency,and nutritional quality of aeroponically grown butter head lettuce 被引量:1
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作者 Mazhar Hussain Tunio Jianmin Gao +5 位作者 Waqar Ahmed Qureshi Sher Ali Sheikh Jiedong Chen Farman Ali Chandio Imran Ali Lakhiar Kashif Ali Solangi 《International Journal of Agricultural and Biological Engineering》 SCIE CAS 2022年第1期79-88,共10页
The proper selection of the atomizer(droplet size)and nutrient solution spray interval is one of the most important factors to be investigated in aeroponics system for sustainable agriculture.The aim of this study was... The proper selection of the atomizer(droplet size)and nutrient solution spray interval is one of the most important factors to be investigated in aeroponics system for sustainable agriculture.The aim of this study was to research the effects of four aeroponics atomizing nozzles(one air-assisted;A_(1),two air-less;A_(2) and A_(3),and one ultrasonic fogger;A_(4))with droplet sizes of 11.24μm,26.35μm,17.38μm,and 4.89μm,respectively,four spray intervals(15 min(I_(1)),30 min(I_(2)),45 min(I_(3))and 60 min(I_(4)))at a 5 min of constant spray time by atomizing the Hoagland’s nutrient solution on growth,root-to-shoot ratio,photosynthesis characteristics,pigments,and nutritional quality of the aeroponically grown lettuce.The experimental results demonstrated that in A_(1) atomizer and I_(2) interval,the growth,photosynthesis efficiency,chlorophyll,carotenoids,and nutritional values of the lettuce were significantly higher compared to that grown in A_(2) and A_(3) atomizers at all spray intervals.The shoot developments were more constrained than root,prominent to the alteration of root-to-shoot ratio(fresh and dry)in the influence of different droplet sizes and spray intervals.Moreover,the plants did not grow well in A_(4) atomizer associated with proposed spray intervals.The results disclosed that there was an obvious interaction between droplet sizes(atomizers)and spray intervals for growth,the ratio of root to shoot,photosynthesis efficiency,pigments,and nutritional quality of the aeroponically grown lettuce.This research study increases the awareness of the proper droplet size(atomizer)and the regulation of nutrient solution spray interval for leafy vegetables grown in an aeroponics system. 展开更多
关键词 aeroponics system atomizers droplet sizes photosynthesis efficiency chlorophyll contents quality of lettuce
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Effect of droplet size on the jet breakup characteristics of n-butanol during impact on a heated surface 被引量:1
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作者 Han Wu Longmin Tang +1 位作者 Chunze Cen Chia-Fon Lee 《Journal of Traffic and Transportation Engineering(English Edition)》 CSCD 2020年第3期320-330,共11页
Jet breakup during droplet impacted on heated surface has received wide concerns due to its regularity.The Weber number(We)is a common used dimensionless parameter to classify and analyze the phenomenon,but it is unab... Jet breakup during droplet impacted on heated surface has received wide concerns due to its regularity.The Weber number(We)is a common used dimensionless parameter to classify and analyze the phenomenon,but it is unable to summarize all detailed phenomenon variations and related theory.Thus,the effect of droplet size on jet breakup was investigated by considering its significant difference in various scenarios.The behavior of n-butanol droplets with diameter range from 1.71 mm to 2.84 mm impacts a heated surface with jet breakup was recorded by backlit technology.Three parameters,the jet breakup time,the jet breakup length and the jet ligament diameter,were analyzed to illustrate the phenomenon.The results showed that these parameters are affected by the droplet size largely at 10<We<35,but affected lightly at higher Weber numbers.The sub-droplet diameter reduces with Weber number for all initial size droplets while the larger initial droplet corresponds to larger sub-droplet.The breakup time,breakup length and jet liga­ment diameter increase with the initial diameter.The time of jet breakup versus agrees well with the theory of Rayleigh instability regardless of droplet diameter.In addition,the jet breakup phenomenon was observed to evolve into pancake bouncing with an ultrafine high-speed jet when the We was above 50. 展开更多
关键词 Energy engineering droplet impact Heated surface droplet size Jet breakup N-BUTANOL
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SIZE DISTRIBUTION OF DROPLETS ABOVE A ROTATING STREAM TRAY AND MODEL OF DROPLET MOTION THEREIN 被引量:1
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作者 陈建孟 谭天恩 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 1997年第2期35-42,共8页
Droplet size distributions have been investigated with a two-probe system above a rotatingstream tray of 300 mm diameter.The measured distributions are found to follow the upper limitedlognormal distribution with thre... Droplet size distributions have been investigated with a two-probe system above a rotatingstream tray of 300 mm diameter.The measured distributions are found to follow the upper limitedlognormal distribution with three parameters dependent primarily on gas hole F-factor.A probabilitymethod is used to describe the initial state of the droplet population above the tray,and a model fordroplet motion is presented.The results computed with model agree well with experimental data. 展开更多
关键词 ROTATING STREAM TRAY droplet size distribution model for droplet MOTION
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DETERMINATION OF DROPLET SIZE DISTRIBUTION AND WETNESS OF FLOWING STEAM FROM LIGHT EXTINCTION MEASUREMENTS
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作者 张国强 麦克尔.罗斯 《华南理工大学学报(自然科学版)》 EI CAS CSCD 北大核心 1997年第9期72-76,共5页
提出一种新方法,用光全散射测量数据确定流动蒸汽的湿度及水滴分布,并应用于一试验汽轮机的测量结果,计算得到的汽轮机排汽湿度与测功器的结果吻合良好。该法采用线性优化及合理的物理限制条件,可推广应用于光部分散射测量分析。
关键词 蒸汽 湿度 光全散射 水滴分布
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Study on imaging method for measuring droplet size in large sprays 被引量:3
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作者 Wu Zhou Jiarui Hu +2 位作者 Mingliang Feng Bin Yang Xiaoshu Cai 《Particuology》 SCIE EI CAS CSCD 2015年第5期100-106,共7页
Information of droplet size and size distribution lays the basis for investigations of atomization mechanisms and performance optimization, However, the laser diffraction and phase Doppler particle analyzers have diff... Information of droplet size and size distribution lays the basis for investigations of atomization mechanisms and performance optimization, However, the laser diffraction and phase Doppler particle analyzers have difficulty in accurately characterizing sprays with a wide range of droplet sizes and very large droplets, especially ira large number of droplets are aspherical. A method to measure size in such large- droplet sprays based on digital imaging with backward illumination was developed, including an image acquisition system and image process programs. Calibration of the measurement system was performed using a dot calibration target with different dot sizes. An experimental setup was designed and established to characterize spray nozzles under different operation loads, as well as different nozzle arrangements. Results show that the droplet size of sprays ranges from dozens of microns to several millimeters. The superiority of wide load range for such nozzles was indicated by the size-measurement results under half-load to full-load operations. The present study revealed that the image processing technique can be effectively implemented for in-line size measurements of sprays with a wide distribution of droplet size and aspherical droplets, which would be difficult to characterize bv other methods. 展开更多
关键词 Digital image Spray size Wide size distribution Large droplets
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叶片风振响应空间运动姿态及雾滴沉积效果分析
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作者 许林云 武玉柱 +2 位作者 周宏平 张健 张超 《农业工程学报》 EI CAS CSCD 北大核心 2024年第17期71-81,共11页
风送喷雾技术可有效提升雾滴向冠层内部的输送能力,增强雾滴在树冠各处的覆盖均匀性,但气流对单一叶片的动态响应及雾滴沉积的细观作用效果还不清楚。该研究通过风洞内的稳定气流对单一梨树叶片进行风振响应试验,追踪叶片表面代表叶片... 风送喷雾技术可有效提升雾滴向冠层内部的输送能力,增强雾滴在树冠各处的覆盖均匀性,但气流对单一叶片的动态响应及雾滴沉积的细观作用效果还不清楚。该研究通过风洞内的稳定气流对单一梨树叶片进行风振响应试验,追踪叶片表面代表叶片形态的4个特征点,构建模拟叶片的三维空间运动模型,分析研究特征点的空间运动轨迹及叶面雾滴沉积效果。研究结果表明:低于临界风振响应速度,叶片基本稳定于一定抬升角位置,大于等于临界风振响应速度,叶片的稳定状态才会破坏,出现大幅度的摆动与翻转的复合运动响应,且运动响应具有周期性特征。对应5、7和9 m/s风速下,在一个周期内叶尖的空间运动总行程分别为180.61、1140.77、766.33 mm,叶片总扭转角分别为290.7°、896.8°、716.2°。雾滴沉积试验中,风速低于5m/s,雾滴主要沉积于面向气流方向的叶面,随着气流速度增大,正面雾滴沉积覆盖率由43.2%逐渐减小为10.3%;大于等于风速5m/s时,叶片正反两表面均有雾滴沉积,但雾滴主要沉积亲水性较好的叶片反面上。提出了应用叶片的空间运动瞬时位置的实际坐标构建模拟叶片位姿,可清晰体现叶片的空间位姿及运动过程。研究结果可进一步揭示风送喷雾过程中载雾气流与动态叶片的沉积作用机理。 展开更多
关键词 叶片 风送喷雾 运动姿态 雾滴尺寸 雾滴沉积
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Simulation Study on the Heat Transfer Characteristics of a Spray-Cooled Single-Pipe Cooling Tower
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作者 Kaiyong Hu Zhaoyi Chen +4 位作者 Yunqing Hu Huan Sun Zhili Sun Tonghua Zou Jinghong Ning 《Fluid Dynamics & Materials Processing》 EI 2024年第9期2109-2126,共18页
The current study focuses on spray cooling applied to the heat exchange components of a cooling tower.An optimization of such processes is attempted by assessing different spray flow rates and droplet sizes.For simpli... The current study focuses on spray cooling applied to the heat exchange components of a cooling tower.An optimization of such processes is attempted by assessing different spray flow rates and droplet sizes.For simplicity,the heat exchanger of the cooling tower is modeled as a horizontal round tube and a cooling tower spray cooling model is developed accordingly using a computational fluid dynamics(CFD)software.The study examines the influence of varying spray flow rates and droplet sizes on the heat flow intensity between the liquid layer on the surface of the cylindrical tube and the surrounding air,taking into account the number of nozzles.It is observed that on increasing the spray flow strength,the heat flow intensity and extent of the liquid film in the system are enhanced accordingly.Moreover,the magnitude of droplet size significantly impacts heat transfer.A larger droplet size decreases evaporation in the air and enhances the deposition of droplets on the round tube.This facilitates the creation of the liquid film and enhances the passage of heat between the liquid film and air.Increasing the number of nozzles,while maintaining a constant spray flow rate,results in a decrease in the flow rate of each individual nozzle.This decrease is not favorable in terms of heat transfer. 展开更多
关键词 Spray cooling droplet sizes number of nozzles CFD
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喷雾降温系统中纯水液滴群蒸发域的模拟研究
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作者 孟晓静 崔雁弼 胡亚年 《制冷技术》 2024年第3期52-59,共8页
为了避免喷雾降温系统中液滴沉降到设备及人体表面对工艺及人体热舒适造成影响,需要针对纯水液滴群蒸发域问题进行研究。本文采用计算流体动力学(CFD)方法,研究了喷雾降温系统作用下,不同热源温度、液滴初始粒径对液滴群蒸发域的影响,... 为了避免喷雾降温系统中液滴沉降到设备及人体表面对工艺及人体热舒适造成影响,需要针对纯水液滴群蒸发域问题进行研究。本文采用计算流体动力学(CFD)方法,研究了喷雾降温系统作用下,不同热源温度、液滴初始粒径对液滴群蒸发域的影响,分析了室内温度分布及液滴粒径分布,探讨了室内热源温度及液滴初始粒径对蒸发域高度的影响规律。结果表明:随着热源温度的增加,热羽流对喷雾射流的抑制作用增强,液滴群的蒸发域随之增大;当液滴初始粒径增大时,液滴群的蒸发域随之减小,喷雾射流范围内的温度随之增加;液滴群蒸发域高度随着热源温度的增加而呈线性增大,随液滴初始粒径的增加而呈线性减小,当热源温度大于400℃,液滴初始粒径大于60μm时,其对液滴群蒸发域高度的影响较小。 展开更多
关键词 喷雾降温系统 热源温度 液滴初始粒径 蒸发域
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