Automatic mass meter, increasing the accuracy of calculating the gross weight of oil in vertical steel tanks

Mass measurement is influenced by air pressure, temperature, humidity and other facts. In order to reduce the influence, mass laboratory of National Institute of Metrology, China has developed an air pressure controlled mass measurement system. In this system, an automatic mass comparator is installed in an airtight chamber. The Chamber is equipped with a pressure controller and associate valves, thus the air pressure can be changed and stabilized to the pre-set value, the preferred pressure range is from 200 hPa to 1100 hPa. In order to keep the environment inside the chamber stable, the display and control part of the mass comparator are moved outside the chamber, and connected to the mass comparator by feed-throughs. Also a lifting device is designed for this system which can easily lift up the upper part of the chamber, thus weights can be easily put inside the mass comparator. The whole system is put on a marble platform, and the temperature and humidity of the laboratory is very stable. The temperature, humidity, and carbon dioxide content inside the chamber are measured in real time and can be used to get air density. Mass measurement cycle from 1100 hPa to 200 hPa and back to 1100 hPa shows the effective of the system.

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Experimental investigation of geometrical and physical behaviors of thin-walled steel tanks subjected to local support settlement

Structures ◽

10.1016/j.istruc.2021.08.011 ◽

2021 ◽

Vol 34 ◽

pp. 413-422

Author(s):

Hamid Naseri ◽

Hossein Showkati ◽

Tadeh Zirakian

Keyword(s):

Experimental Investigation ◽

Local Support ◽

Steel Tanks ◽

Thin Walled

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Study of features in weld root formation under double-sided synchronized arc welding of vertical joints of steel tanks

Blanking productions in mechanical engineering (press forging, foundry and other productions) ◽

10.36652/1684-1107-2021-19-4-153-160 ◽

2021 ◽

pp. 153-160

Author(s):

O.I. Filippov ◽

V.A. Erofeev ◽

M.A. Sholokhov ◽

S.I. Poloskov

Keyword(s):

Deep Penetration ◽

Computer Engineering ◽

Cross Sectional ◽

Steel Tanks ◽

Face Dimension ◽

Weld Root ◽

Root Face ◽

Welding Productivity ◽

Vertical Up ◽

Oil And Oil Products

It is shown that increase in the welding productivity of vertical joints of storage tanks for oil and oil products can be achieved due to the double-sided synchronized formation of the X-shaped groove. To minimize various disturbances, including variation of gap size and root face dimension, computer engineering analysis is performed, which showed that the formation of root pass during welding with the movement of the electrode down (vertical down) with increased dimension of the root face leads to lack of penetration, but during groove filling with the movement of the electrodes up (vertical up) deep penetration is achieved given the considerable root face dimension. It is defined that during welding of 30 mm thickness plates with root face dimension range from 6 to 8 mm, it is necessary to ensure the root gap dimension range from 1.5 to 3 mm along the entire length of the seam. In this case, the remaining unfilled cross-sectional area of the groove is small, which makes it possible to fill it in during single pass under two-arc double-sided welding. There is area of double-sided synchronized welding modes in which the occurrence probability of typical defects during the formation of the weld root is minimal.

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measurements. This paper is confined to the different forms of sampling odourous gases for olfactometric measurements and the problems involved. It refers to existing guidelines for olfactometric measurements in the countries of the EEC, as well. 2. TYPES OF SAMPLING Samples of odourous gas may be collected in unconcentrated or concentrated form. Concentrated sampling is usually neces sary when gas chromatography or other chemical analytical meth ods are to be used. Unconcentrated sampling is provided if o-dour threshold concentrations are required (2). Depending on the type of olfactometer used dynamic sam pling or static sampling are provided. The principle of dynam ic sampling is shown in Figure 1. It requires a part-flow of the odourous gas to be continoulsy extracted from the source and subsequently directed to the olfactometer. This sampling method implies that the measurements are carried out close to the source. An advantage of the method is that there is the possibility of controlling a process, directly, and in case of the break-down of the process this can be noticed right away. A disadvantage of the dynamic method is that odour sources that are not readily accessible require a relatively great ef fort in order to install the olfactometer and suitable sam pling pipes which often should be insulated or heated to avoid adsorption or condensation (3). When static sampling is used a partial stream of the o-dourous air is collected in a sampling vessel. Samples are taken from this vessel or bag to dilute the odourous air for the olfactometer using syringes or on-line tubings. When using this method odour measurement with the panel can be carried out at any arbitrary location, if the vessel is a transport able one. An example for static sampling is given in Figure 2. 3. PROBLEMS OF SAMPLING the main problems encountered when sampling odourous air derive from surface effects of the sampling tubes and vessels, namely by - adsorption, - desorption, and - condensation. This depends mainly on the material of the tube, the vessel or the bag (adsorption) or on the nature of the gas, whether it is hot and/or containes a high amount of humidity (condensa tion). On the other hand the sample can be altered by trace components bleeding from the material of the walls of the ves sel or the tube (desorption). The following factors are to be observed for valid static sampli ng. aTTTToTce of_m£teri aj_ For tWe sampling of odourous gases glas vessels, stain less steel tanks (4) and flexible plastic bags (5) were tested. The initial concentrations of the test gases decrease consider ably with storage time in glass and steel vessels. In recent years bags made of Polyethylene(6), Teflon (3) and Tedlar (7), (8) were usually used. Figure 3 shows a graph from SCHUETZLE

Odour Prevention and Control of Organic Sludge and Livestock Farming ◽

10.1201/9781482286311-18 ◽

1986 ◽

pp. 59-59

Keyword(s):

Gas Chromatography ◽

Storage Time ◽

Dynamic Method ◽

The Other ◽

Plastic Bags ◽

Steel Tanks ◽

On Line ◽

Arbitrary Location ◽

Adsorption Desorption ◽

Trace Components

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