Your search keyword '"flow pattern"' showing total 5 results

1. Remote Sensing Applications in Ocean Observation.

Author

Ho, Chung-Ru, Ho, Chung-Ru, Li, Xiaofeng, and Liu, Antony K.

Subjects

Research & information: general, 3D-C BAM, AI explanation, Arabian Gulf, Bayesian algorithm, CFOSAT, CNN, ConvLSTM, Daya Bay Nuclear Power Plants, East China Sea, Forel-Ule Scale, GDPS, Gulf of Oman, HYCOM reanalysis results, Himawari-8, Kuroshio Current Loop, Kuroshio branch, Kuroshio intrusion, Landsat, MODIS, New South Wales, North Pacific Subtropical High, North Pacific subtropical gyre, OLCI, SAR, SAR images, SST, Sargassum, SeaDAS, Sentinel-1, South China Sea, Super Typhoon Goni, Taiwan, Taiwan Strait, Yellow Sea, Yellow Sea coastal current, Zostera marina L., aerosols, algal blooms, alongshore current, atmospheric correction, backward scattering intensity, baroclinic instability, barotropic instability, bathymetry, bias correction, bibliometric analysis, chlorophyll-a, chlorophyll-a bloom, cloud masking, coastal upwelling, coastal waters of Myanmar, cold-core anticyclonic eddy, data fusion, deep learning, drifter, ebb tide, energy cascade, energy flux, environmental change, fish assemblage, flood tide, flow pattern, geostationary ocean color imager (GOCI), gravest empirical modes, gulf of Mexico, high-frequency radar, in situ observation, inherent optical properties, internal solitary waves, internal tides, lidar, long-term changes, loop current rings, machine learning, mapping, marine heatwaves, mesoscale eddies, meteorological data, modal structure, monsoon, n/a, noise equivalent reflectance difference, nonlinearity, normalized water-leaving radiance, northwestern Pacific Ocean, ocean Scheimpflug lidar, ocean color, ocean subsurface salinity structure, offshore detection, oil detection, oil slicks, plane wave fit method, power plant installed capacity, quantitative mapping, radiation sensitivity, radiative transfer equation, reclamation, remote equatorial forcing, remote sensing, remote sensing sensors, salinity, satellite observation, satellite observations, satellite remote sensing, satellite remote sensing data, scatterometer, sea ice, sea level anomaly, sea surface height, sea surface temperature, sea surface temperatures, seagrass, semidiurnal internal tides, shelf circulation, ship detection, spatial analysis, spatial and temporal changes, spatiotemporal variation, spectral variability, split-window algorithm, summer 2021, temperature, the East Australian Current, the Indonesian Seas, the Sulu-Sulawesi Seas, thermal discharge, three-dimensional eddy reconstruction, tide, topographic position index, total suspended sediment, trophic state, turbid water, turbulence, turbulent mixing, typhoon, upper ocean response, upwelling, upwelling index, volume scattering function, wake detection, water type taxonomies, westerly jet, wind field

Abstract

Summary: Since the launch of Seasat, TIROS-N, and Nimbus-7 satellites equipped with ocean observation sensors in 1978, a new era of ocean remote sensing has opened. Today, remotely sensed data have been widely used in oceanographic studies. This reprint collects various advanced ocean remote sensing technologies and their applications, including the use of artificial intelligence techniques to explore ocean information and bibliometric analysis to assess researchers and trends in this scientific field. The observations of various sensors enrich the application of ocean environment monitoring and ocean dynamical analysis. If you are interested in understanding the application of ocean remote sensing, this monograph should be very helpful.

2. Gas-Liquid Two-Phase Flow in the Pipe or Channel.

Author

Pakhomov, Maksim, Lobanov, Pavel, and Pakhomov, Maksim

Subjects

History of engineering & technology, Technology: general issues, COMSOL, Eulerian modeling, PIV/PLIF measurements, RANS modeling, air concentration, backward-facing step, capillary waves, chute flow, coherent phase, dimensionless analysis, droplet vaporization and dispersion, dust particles, exclusion zone, experimental study, flow boiling, flow pattern, flow structure, gas-droplet turbulent flow, heat transfer, high reduced pressure, high-speed video recording, hydrodynamics, infrared, infrared thermography, magnetohydrodynamic (MHD), microdroplets, n/a, oil-water-gas flow, oscillating two-phase fluctuation flow, pH, redox potential, resonance, self-aeration, spray cooling, subharmonic, surface wave, transparent heater, turbulent bubbly flow, ultrasonic atomizer, velocity, wall shear stress, water holdup, water vapor

Abstract

Summary: The main goal of this Special Issue was to contribute to, highlight and discuss topics related to various aspects of two-phase gas-liquid flows, which can be used both in fundamental sciences and practical applications, and we believe that this main goal was successfully achieved. This Special Issue received studies from Russia, China, Thailand, ROC-Taiwan, Saudi Arabia, and Pakistan. We were very grateful to see that all the papers presented findings characterized as unconventional, innovative, and methodologically new. We hope that the readers of the journal Water can enjoy and learn about the experimental and numerical study of two-phase flows from the published material, and share these results with the scientific community, policymakers and stakeholders. Last but not least, we would like to thank Ms. Aroa Wang, Assistant Editor at MDPI, for her dedication and willingness to publish this Special Issue. She is a major supporter of the Special Issues, and we are indebted to her.

3. An Empirical Study on China's Inter-provincial Coal Distribution by Railway.

Author

Zhang, Yanzhi, Zhang, Lei, Lv, Tao, and Feng, Ying

Abstract

Coal transportation system plays an important role in guaranteeing the safety and stability of China's coal supply. How to distribute coal resources among provinces in China by railway was discussed. An optimization model was set up to test the rationality of China's coal distribution. Furthermore, by using the model we analyzed the optimal transportation pattern. The model takes transportation cost as optimization goal and the volumes of inter-provincial coal transportation by railway as decision variables. Findings indicate that the pattern of coal railway transportation among provinces changes in four aspects and the transportation cost and the average transport distance decrease compared with that before optimization. Based on the research, we suggest that six coal transportation channels should be strengthened constructing and transportation rate for coastal cities in southeast China reduced. [ABSTRACT FROM AUTHOR]

Published

2011

4. Fluid Dynamics in Bioreactor Design: Considerations for the Theoretical and Practical Approach.

Author

Weyand, B., Israelowitz, M., von Schroeder, H. P., and Vogt, P. M.

Abstract

The following chapter summarizes principles of fluid dynamics in bioreactor design with a focus on mammalian cell-culture systems. [ABSTRACT FROM AUTHOR]

Published

2009

5. The Effects of Aspect Ratio and End Condition on the Control of Free Shear Layers Development and Force Coefficients for Flow Past Four Cylinders in the In-line Square Configuration.

Author

Lam, Kit and Zou, Lin

Abstract

The effects of aspect ratio and end condition on the control of the development of free shear layers and the force coefficients of cylinders for flows around four cylinders at critical spacing ratio L/D=3.5 in the in-line square configuration have been investigated numerically. The study demonstrated that the aspect ratio and end condition of the four cylinders produce a strong influence on the free shear layer development from the upstream cylinder and hence the pressure fields and force characteristics of the cylinders. The mean pressure and fluctuating pressure increase towards the mid-span of the cylinders. The development of free shear layers, the mean and fluctuating pressure as well as the force coefficients are critically affected by the cylinder aspect ratio in the range of H/D from 15 to 16. [ABSTRACT FROM AUTHOR]

Published

2008