Dripping mechanism

For a liquid (for example, water), the size of a drop formed at a sharp-edged tube opening can be reduced from 3.6 mm to 784 pm if the opening diameter decreases from 1 mm to 10 pm. Apparently, the dripping mechanism is concerned with large drops and low liquid flow rates. Therefore, it is a functional mechanism in drop formation processes common in nature. 

Another notable example of the dripping mechanism is the slow formation of a drop by breakaway from a liquid film on the bottom surface of a flat, horizontal plate under the action of gravity. The size of the drop formed can be estimated using the following expression derived on the basis of a force balance between gravity and surface tension)1 ... 

From a liquid film such as a water film, the diameter of a drop formed under the action of gravity is calculated to be 9 mm with the above equation. Similarly to the liquid dripping mode, the liquid film breakup mode governed by the dripping mechanism is also typified by large droplets and low liquid flow rates. 

Several commercial polyester fabrics are flame retarded using low levels of phosphoms additives that cause them to melt and drip more readily than fabrics without the flame retardant. This mechanism can be completely defeated by the presence of nonthermoplastic component such as infusible fibers, pigments, or by siUcone oils which can form pyrolysis products capable of impeding melt flow (27,28). 

Figure 10-129. MTD correction factors for drip type coolers. (Used by permission Bowman, R. A., Mueller, A. C., and Nagle, W.M. Transactions ofASME, No. 62, 1940. American Society of Mechanical Engineers. All rights reserved.)...

Hitachi Cable Ltd. (35) has claimed that dehydrogenation catalysts, exemplified by chromium oxide—zinc oxide, iron oxide, zinc oxide, and aluminum oxide—manganese oxide inhibit drip and reduce flammability of a polyolefin mainly flame retarded with ATH or magnesium hydroxide. Proprietary grades of ATH and Mg(OH)2 are on the market which contain small amounts of other metal oxides to increase char, possibly by this mechanism. 

L A 50-year-old male ls seen in the emergency department (ED) with a blood pressure of 260/160 mmHg. Blurring optic discs with indistinct margins are seen on ophthalmologic examination. An intravenous drip of sodium nitroprusside is administered. What is the mechanism of action of sodium nitroprusside ... 

Leaks and Drips Leaks and drips are characterized by small diameter releases of high frequencies. They are typically caused by corrosion and erosion failures of piping, mechanical and maintenance failures of gaskets and valves. 

Recently, the size and shape of a liquid droplet at the molten tip of an arc electrode have been studied,12151 and an iterative method for the shape of static drops has been proposed. 216 Shapes, stabilities and oscillations of pendant droplets in an electric field have also been addressed in some investigations. 217 218 The pendant drop process has found applications in determining surface tensions of molten substances. 152 However, the liquid dripping process is not an effective means for those practical applications that necessitate high liquid flow rates and fine droplets (typically 1-300 pm). For such fine droplets, gravitational forces become negligible in the droplet formation mechanism. 

To obtain a large transfer area between raffinate and extract phases, one of the two liquids must be dispersed into drops. Figure 9.2 demonstrates this process schematically at a single nozzle. Similar to a dripping water tap, individual drops periodically leave the nozzle when the volumetric flow rate of the dispersed phase is low. When the flow rate is higher, however, the liquid forms a continuous jet from the nozzle that breaks into droplets. Because of stochastic mechanisms, uniform droplets are not formed. If the polydispersed droplet swarm is characterized by a suitable mean drop... 

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