Nozzle

About: Nozzle is a research topic. Over the lifetime, 158675 publications have been published within this topic receiving 893026 citations. The topic is also known as: spout.

A study on droplets sizes, their distribution and heat exchange for minimum quantity cooling lubrication (MQCL)

Abstract: The paper analyses the influence of emulsion mist formation parameters and the nozzle distance from the tool–chip interface, on the droplet velocity at the nozzle outlet, on active medium atomization angle as well as on the diameter and number of droplets supplied to the cutting zone. The deformation coefficient of the droplets falling on the surface and the wetting angle have also been determined. In the work it has been proved that the strongest influence on the droplets diameter have the air flow and the distance of the nozzle from the cutting zone. It has been shown that larger angle of the stream splitting ensures that the droplets do not join each other in the air, and consequently assures small diameter on the surface. Additionally, the results show that the emulsion mass flow does not change the droplets diameters by more than 12%. It has been determined that smaller the droplets diameter is, higher content of active compounds in the tribofilms formed on the machined surface is present. In this way the paper presents the analysis and directions of MQCL adjustment trends needed to improve the machining performance.

Process and apparatus for achieving power augmentation in gas turbines via wet compression

Abstract: A power augmentation apparatus and process for effectively adding a mass flow of water to the working fluid acquired by the compressor of an industrial gas turbine, and especially for adding a mass flow of water to a fully-humidified working fluid for reducing the work of compression performed by the compressor and achieving a net augmentation of the power produced by the turbine, said apparatus and process preferably including the use of a spray rack group assembly having at least one spray rack water pipe and at least one spray rack water nozzle which assembly is ideally positioned a distance away from the compressor inlet. Water mass flow is added preferably in increments which correspond to the spray rack water pipes and associated nozzles. Monitoring of the temperature profile of fluid-cooled rotor blades in the turbine section with an optical pyrometer to detect clogging of cooling pathways in those rotor blades from impurities in the added water, monitoring of the working fluid's temperature in proximity to the gas turbine compressor inlet to guard against the possibility of icing, a deformation measurement device, and concurrent addition of heat and humidity, preferably steam, to the working fluid as a means to extend the utility of the process and apparatus to lower ambient air temperature operation are disclosed.

Apparatus to manufacture semiconductor

Abstract: An apparatus to manufacture a semiconductor, in which distribution of process gases supplied to a reaction region in a reaction chamber is uniform, includes a gas supply nozzle to supply process gases to a semiconductor substrate in the reaction chamber, wherein the gas supply nozzle includes a first supply channel formed in a longitudinal direction, and first outlet channels formed at an outlet of the first supply channel such that the first outlet channels are inclined with respect to the direction of the first supply channel at a designated angle to diffuse the process gas supplied through the first supply channel.

Ink-jet recording head and ink-jet recording apparatus

Abstract: A Ta—Si—O ternary alloy thin film resistive element having a self-oxide film that is good in energy transfer efficiency to an ink and is good in erosion resistance is used as a heating element, and deterioration in service life of the Ta—Si—O ternary alloy thin film resistive element due to cavitation is prevented. A heater ejects an ink filled in the individual flow channel in the vicinity of the nozzle from the nozzle as an ink droplet through expansion of a bubble formed in the ink with heat energy from the Ta—Si—O ternary alloy thin film resistive element, and the bubble formed in the individual flow channel is connected to the atmospheric air through the nozzle.

Two-dimensional supersonic plasma acceleration in a magnetic nozzle

Abstract: A two-dimensional model of the expansion of a collisionless, electron-magnetized, low-beta, current-free plasma in a divergent magnetic nozzle is presented. The plasma response is investigated in terms of the nozzle/plasma divergence rate, the magnetic strength on ions, and the Hall current at the nozzle throat. Axial acceleration profiles agree well with those estimated from simple one-dimensional models. A strong radial nonuniformity develops downstream. There is a separation between ion and electron/magnetic streamtubes which leads to the formation of, first, a longitudinal electric current density, which indicates that current ambipolarity is not fulfilled, and, second, a small ion azimuthal current that competes negatively with the electron azimuthal (Hall) current. The analysis of the mechanisms driving thrust, ion momentum, and ion energy unveils the dual electrothermal/electromagnetic character of the magnetic nozzle. In general, the thrust includes the contributions of volumetric and surface Hall currents, this last one formed at the plasma-vacuum interface. Plume efficiency, based on radial expansion losses, is computed. Plasma detachment and the transonic matching with the upstream plasma are not addressed.