Development of numerical model to investigate the laser driven shock waves from aluminum target into ambient air at atmospheric pressure and its comparison with experiment

Equation of state studies at SILP by laser-driven shock waves

Laser and Particle Beams ◽

10.1017/s0263034600009915 ◽

1996 ◽

Vol 14 (2) ◽

pp. 157-169 ◽

Cited By ~ 8

Author(s):

Yuan Gu ◽

Sizu Fu ◽

Jiang Wu ◽

Songyu Yu ◽

Yuanlong Ni ◽

...

Keyword(s):

Shock Wave ◽

High Pressure ◽

Equation Of State ◽

Shock Waves ◽

Target Surface ◽

Shock Adiabats ◽

Pressure Shock ◽

Aluminum Target ◽

Laser Illumination ◽

The Stability

The experimental progress of laser equation of state (EOS) studies at Shanghai Institute of Laser Plasma (SILP) is discussed in this paper. With a unique focal system, the uniformity of the laser illumination on the target surface is improved and a laser-driven shock wave with good spatial planarity is obtained. With an inclined aluminum target plane, the stability of shock waves are studied, and the corresponding thickness range of the target of laser-driven shock waves propagating steadily are given. The shock adiabats of Cu, Fe, SiO2 are experimentally measured. The pressure in the material is heightened remarkably with the flyer increasing pressure, and the effect of the increasing pressure is observed. Also, the high-pressure shock wave is produced and recorded in the experimentation of indirect laser-driven shock waves with the hohlraum target.

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Nonhomogeneous surface properties of parylene-C film etched by an atmospheric pressure He/O2 micro-plasma jet in ambient air

Applied Surface Science ◽

10.1016/j.apsusc.2016.04.191 ◽

2016 ◽

Vol 383 ◽

pp. 261-267 ◽

Cited By ~ 8

Author(s):

Tao Wang ◽

Bin Yang ◽

Xiang Chen ◽

Xiaolin Wang ◽

Chunsheng Yang ◽

...

Keyword(s):

Surface Properties ◽

Atmospheric Pressure ◽

Plasma Jet ◽

Ambient Air ◽

Parylene C

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Ambient Condition Effects on NOx and CO Emissions From Process Heaters

Volume 3: Combustion Science and Engineering ◽

10.1115/imece2008-68284 ◽

2008 ◽

Author(s):

Wesley R. Bussman ◽

Charles E. Baukal

Keyword(s):

Atmospheric Pressure ◽

Ambient Air ◽

Operating Conditions ◽

Nox Emissions ◽

Ambient Conditions ◽

Fuel Gas ◽

Natural Draft ◽

Actual Operating ◽

Wide Range ◽

Pollution Emissions

Because process heaters are typically located outside, their operation is subject to the weather. Heaters are typically tuned at a given set of conditions; however, the actual operating conditions may vary dramatically from season to season and sometimes even within a given day. Wind, ambient air temperature, ambient air humidity, and atmospheric pressure can all significantly impact the O2 level, which impacts both the thermal efficiency and the pollution emissions from a process heater. Unfortunately, most natural draft process burners are manually controlled on an infrequent basis. This paper shows how changing ambient conditions can considerably impact both CO and NOx emissions if proper adjustments are not made as the ambient conditions change. Data will be presented for a wide range of operating conditions to show how much the CO and NOx emissions can be affected by changes in the ambient conditions for fuel gas fired natural draft process heaters, which are the most common type used in the hydrocarbon and petrochemical industries. Some type of automated burner control, which is virtually non-existent today in this application, is recommended to adjust for the variations in ambient conditions.

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Study on Argon Plasma Jets at Atmospheric Pressure in Ambient Air Excited by Surface Waves

IEEE Transactions on Plasma Science ◽

10.1109/tps.2013.2295837 ◽

2014 ◽

Vol 42 (4) ◽

pp. 911-916 ◽

Cited By ~ 8

Author(s):

Zhen Zheng ◽

Zhaoquan Chen ◽

Pei Liu ◽

Ming Chen ◽

Guodong Wang ◽

...

Keyword(s):

Surface Waves ◽

Atmospheric Pressure ◽

Argon Plasma ◽

Ambient Air ◽

Plasma Jets

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Edge Cooling of a Fuel Cell during Aerial Missions by Ambient Air

Micromachines ◽

10.3390/mi12111432 ◽

2021 ◽

Vol 12 (11) ◽

pp. 1432

Author(s):

Lev Zakhvatkin ◽

Alex Schechter ◽

Eilam Buri ◽

Idit Avrahami

Keyword(s):

Fuel Cell ◽

Numerical Model ◽

Wind Tunnel ◽

Boundary Conditions ◽

Air Temperature ◽

Numerical Models ◽

Heat Removal ◽

Ambient Air ◽

Experimental Setup ◽

Good Agreement

During aerial missions of fuel-cell (FC) powered drones, the option of FC edge cooling may improve FC performance and durability. Here we describe an edge cooling approach for fixed-wing FC-powered drones by removing FC heat using the ambient air during flight. A set of experiments in a wind tunnel and numerical simulations were performed to examine the efficiency of FC edge cooling at various flight altitudes and cruise speeds. The experiments were used to validate the numerical model and prove the feasibility of the proposed method. The first simulation duplicated the geometry of the experimental setup and boundary conditions. The calculated temperatures of the stack were in good agreement with those of the experiments (within ±2 °C error). After validation, numerical models of a drone’s fuselage in ambient air with different radiator locations and at different flight speeds (10–30 m/s) and altitudes (up to 5 km) were examined. It was concluded that onboard FC edge cooling by ambient air may be applicable for velocities higher than 10 m/s. Despite the low pressure, density, and Cp of air at high altitudes, heat removal is significantly increased with altitude at all power and velocity conditions due to lower air temperature.

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Expansion dynamics of atmospheric pressure helium plasma jet in ambient air

Physics Letters A ◽

10.1016/j.physleta.2020.126497 ◽

2020 ◽

Vol 384 (19) ◽

pp. 126497 ◽

Cited By ~ 1

Author(s):

G. Veda Prakash ◽

Kiran Patel ◽

Narayan Behera ◽

Ajai Kumar

Keyword(s):

Atmospheric Pressure ◽

Plasma Jet ◽

Ambient Air ◽

Helium Plasma

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Electrical and spectral property of cold arc plasma at atmospheric pressure

Journal of Plasma Physics ◽

10.1017/s0022377812000463 ◽

2012 ◽

Vol 78 (6) ◽

pp. 617-620

Author(s):

YUAN ZHONG-CAI ◽

SHI JIA-MING ◽

CHEN ZONG-SHENG ◽

XU BO

Keyword(s):

Atmospheric Pressure ◽

Arc Discharge ◽

Rotational Temperature ◽

Molecular Nitrogen ◽

Atmospheric Pressure Plasma ◽

Emission Spectra ◽

Optical Emission ◽

Plasma Jet ◽

Ambient Air ◽

Arc Plasma

AbstractAn atmospheric pressure plasma jet is generated with a cold arc discharge in ambient air. The current-voltage characteristics and optical emission spectra of plasma discharges are investigated. The molecular nitrogen (N2), hydroxyl radical (OH), and oxygen atom (O) are observed and analyzed. Based on the best fit of the simulated spectra of N2 (C3∏u+ − B3∏g+) band and OH (A2∑+ − X2∏) band transition and the experimentally recorded spectra, the rotational temperature and the vibrational temperature of atmospheric pressure cold arc plasma jet (APCAPJ) are estimated.

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A Numerical Model for Thermal Performance of an Unglazed Transpired Solar Collector

ASME 2011 5th International Conference on Energy Sustainability, Parts A, B, and C ◽

10.1115/es2011-54805 ◽

2011 ◽

Cited By ~ 2

Author(s):

Saeed Moaveni ◽

Patrick A. Tebbe ◽

Louis Schwartzkopf ◽

Joseph Dobmeier ◽

Joseph Gehrke ◽

...

Keyword(s):

Numerical Model ◽

Air Temperature ◽

Thermal Performance ◽

Solar Collector ◽

Energy Savings ◽

Ambient Air ◽

Solar Collectors ◽

Heating Unit ◽

Plate Temperature ◽

Building Wall

In this paper, we will present a numerical model for estimating the thermal performance of unglazed transpired solar collectors located on the Breck School campus in Minneapolis, Minnesota. The solar collectors are installed adjacent to the southeast facing wall of a field house. The collectors preheat the intake air before entering the primary heating unit. The solar collector consists of 8 separate panels (absorber plates). Four fans are connected to the plenum that is created by the absorber plates and the adjoining field house wall. All fresh air for the field house is provided by the solar collectors before being filtered and heated by four, independent two stage natural gas fired heaters. Moreover, the following data were collected onsite using a data acquisition system: indoor field house space temperature, ambient air temperature, wind speed, wind direction, the plenum exit air temperature, the absorber plate temperature, and the air temperatures inside the plenum. The energy balance equations for the collector, the adjacent building wall, and the plenum are formulated. The numerical model is used to predict the air temperature rise inside the plenum, recaptured heat loss from the adjoining building wall, energy savings, and the efficiency of the collectors. The results of the numerical model are then compared to the results obtained from the onsite measurements; which are in good agreement. The model presented in this paper is simple yet accurate enough for architects and engineers to use it with ease to predict the thermal performance of a collector.

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Mass Spectrometry Analyses of Ions Generated by Atmospheric-Pressure Plasma Jets in Ambient Air

Plasma Medicine ◽

10.1615/plasmamed.2016016443 ◽

2015 ◽

Vol 5 (2-4) ◽

pp. 283-298 ◽

Cited By ~ 6

Author(s):

Tomoko Ito ◽

Kensaku Gotoh ◽

Kanako Sekimoto ◽

Satoshi Hamaguchi

Keyword(s):

Mass Spectrometry ◽

Atmospheric Pressure ◽

Atmospheric Pressure Plasma ◽

Ambient Air ◽

Plasma Jets ◽

Pressure Plasma

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Thin Film Deposition by Atmospheric Pressure Dielectric Barrier Discharges Containing Eugenol: Discharge and Coating Characterizations

Polymers ◽

10.3390/polym12112692 ◽

2020 ◽

Vol 12 (11) ◽

pp. 2692

Author(s):

Tsegaye Gashaw Getnet ◽

Milton E. Kayama ◽

Elidiane C. Rangel ◽

Nilson C. Cruz

Keyword(s):

Atmospheric Pressure ◽

Gas Flow ◽

Steel Substrate ◽

Ambient Air ◽

Thin Film Deposition ◽

Film Structure ◽

Film Deposition ◽

Maximum Plasma ◽

Peak Voltage ◽

Dielectric Barrier

Eugenol (4-Allyl-2-methoxyphenol) is the main constituent of clove oil. In addition to being widely used as a condiment, it has been recognized as a powerful bactericide. Owing to that, Eugenol has been used in several applications including odontology and as a conservative for food products. Aiming at the development of natural bactericide coatings, in this work, using an atmospheric pressure plasma in a dielectric barrier discharge (DBD) reactor Eugenol was deposited on stainless steel substrate, with argon as a carrier gas. The discharge power supply was a transformer at 14.4 kV peak-to-peak voltage and 60 Hz frequency. Operating with a gas flow rate at 4 L/min, the active power was around 1.2 W. The maximum plasma electron temperature of the plasma with monomers was about 1.5 eV, estimated by visible emission spectroscopy using a local thermodynamic equilibrium approach. The study also comprehended the analysis of the film structure, aging, and thermal stability using infrared reflectance spectroscopy, and its thicknesses and roughness by profilometry. The thickness of the films was in the range of 1000 to 2400 nm with a roughness of up to 800 nm with good adhesion on the substrate. The FTIR result shows a stable coating with a chemical structure similar to that of the monomer. Aging analysis showed that the film does not degrade, even after exposing the film for 120 days in ambient air and for 1.0 h under a high thermal UV-lamp.

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