SU920608A1 - Device for measuring mercury content - Google Patents

Description

The invention relates to geochemical methods for prospecting mineral deposits, estimating BaN-.bix for mercury content, and can be used for exploratory purposes in snow and ice formations of the surface and natural waters. A device is known for measuring the content of mercury in water samples, including a metal spoon with a water sample, an electrical circuit with heating to K, a golden sorbent with heating to AbZ K, a pump m measuring device, such as a mercury photometer {l. A disadvantage of this device is the need for pre-sampling, preservation and transportation to the laboratory, during which possible loss of the initial amounts of mercury in solution. In addition, mercury vapors can be partially absorbed by conduction paths from the furnace to the sorbent. The closest in technical essence to the proposed device YABL is a device intended for operation on soil mercury. It contains a metallic xjug; heating element with a gold sorbent on it, a thermocouple placed inside the casing, a power source, a pump and measuring device 2. The disadvantage of the device is that it does not directly detect mercury in snow, ice and water due to the contact of the conductive parts of the heating element with water and the low heat capacity of the heating device, which leads to a sharp cooling of the conductive circuit, a decrease in: the temperature of the gold sorbent, according to 1: 10 scale on nichrome, is necessary ( Sources of current E. The invention circuit is the provision of the BOZM nost: 1 determination of mercury content in snow, ice and natural waters. This goal is achieved by using a metal casing, a heating element with a golden sorbent in a device for measuring the content of mercury , a thermocouple, a heating element with a grounding sorbent is made retractable from the casing and is equipped with an electrical insulating tag (capturing the gasket between the sorbent and the heating element, and the end; sleep) (filter plug for dlg. his zack: ryvs; nor when the heating element is shifted. On f-and g, 1 the scheme of the us-device is presented with the position of pushing: element; in fig. 2 in the position with the element extended and the g-stub-fillet fitter. The device turns on a metal cone-shaped cylindrical metal in the lower part of the case 1 with a cap 2 ES of the lower suit, inside which there is a heating element 3 of nichrome, placed on it in the lower part of the golden sorbent-4 separating and; an electrically insulating layer of thermocouple 6 with high bone heat to control the heating temperature. In addition to this, the device contains aaatchigch 7 thermocouple, a pump 8, a power source 9, and a measuring device RO 10. The device operates as follows. Open the plug 2 (Fig. 1), bring the metal casing 1 into contact with the surface of the object to be measured (water, snow, ice) heating element 3 with gold sorbent k separated by an electrically insulating layer 5t push into the measured object serves voltage from the power source 9, controlling the temperature of the sorbent on the sensor 7 thermocouple 6 within) 5 — withstand the device for a fixed time in this position. In this case, water passes into the zone of contiguity with the gold sorbent from solid to liquid state and then to vapor form. The mercury vapors that are released together with the vapors from the object being extracted are sorbed by the gold surface. After a fixed time has elapsed, the device is lifted out of the measured object into the air, maintaining a vertical position (yxa 1 (Fig. 2 8) the lye elememp 3 with gold and sorbent l 1; , close Zagluiku 2, turn on the pump 3, supply voltage 9 from the power source 9 to ensure gold sorbent heating up to 873-923 K via the sensor 7 of the t-thermocouple 6, and measure it with a measuring device 10. About this, the case is sorbed on the heated surface to -i73 K of gold of mercury vapor of the measured object with increasing m Temperatures of up to 873 K are restrained on gold and injected into the jet of pumped air, n -.:: transferred to the measuring channel of the prvTi-ioro photometer, for example, iGRr-, the cap filter consists of the perforated MOfo for the air) and with silver oxide, () i, and fulfills the role of a mercury filter in the air pumped from the atmosphere.With use of the proposed device, speed is achieved, directly by 3 Natural objects, the determination of Mg content, excluding potential losses from the beginnings: H x x end 1 - tr ; ts1.: d in the usual methods of selection (rob and determination of Ig; in l-iZoratori x. Calculations say that even during evaporation; cm-lint, the sensitivity of the apparatus, for example MI, is sufficient to determine the background lg in natural formations x in snow, ice and natural waters. The amount of (accumulation on gold of mercury depends (at a constant temperature of the sorbent) on the active n-top of the sorbent and time: the device is kept in the measured medium. one sorbent time selection: and Possibly, m; stop measuring f on new values and is estimated Thermometer for Concrete Structures. Formula of the Invention A device for measuring the content of mercury,) 0 and a... .. the main metal casing, the heating element with a golden sorbent, a thermocouple, to ensure the possibility of determining the content of mercury in snow, ice and natural waters, the heating element with a gold sorbent is made by pulling from the casing and equipped with: electrical insulating heat-exchanger P (

Claims (1)

Claim A device for measuring mercury content, including a metal casing, a heating element with a gold sorbent, a thermocouple, which, in order to allow the determination of mercury contents in snow, ice and natural waters, the heating element with a gold sorbent is made of retractable casing and equipped with: insulating heat-resistant gasket 9206 () 8 between the sorbent and the heating element, and the casing is equipped with a filter plug for closing it with the heating element retracted.