RU2472134C1 - Method of multi-objective estimation of shop-floor working zone comfort - Google Patents

Abstract

FIELD: physics.SUBSTANCE: proposed method consists in defining concentration of aero dispersed impurities and air microclimate parameters. First, dust level of working zone is defined as the first criterion of comfort. For this, hardware is prepared and tuned for determination of clean filter bulk. Then clean filter is weighed to adjust the unit for forced deposition of dust aerosol in shop-floor working zone. Then, air is sampled with dust particles trapping on filter to weight filter with trapped particles so that dust aerosol concentration is calculated in mg per square meter. Note here that air volume (m) that passed through filter should be pre-reduced to normal conditions, that is, to volume is would occupy at 0°C and 101325 Pa. Than, dust level is defined to compare obtained concentration with tolerable magnitude so that parameters of air micro climate may be estimated as second criterion of comfort. Note that, first, air temperature is measured by thermograph or dry-and-wet-bulb thermometer. Then, air humidity is defined by whatever instruments and air velocity is measured to calculate comfort level in working zone therefrom. Now, degree of comfort is estimated on the following scale: 1 - very hot, 2 - very warm, 3 - warm, but pleasant, 4 - sense of comfort, 5 - pleasant chilly, 6 - cold, 7 - very cold.EFFECT: higher efficiency and reliability, fast operation.5 dwg

Description

The invention relates to mechanical engineering, in particular to devices of security systems.

The closest object in technical essence to the claimed is a method for studying the comfort of the environment of industrial premises by dust factor by determining the concentration of dust by the weight method according to RF patent No. 2422802 - prototype.

A disadvantage of the known solution is the relatively incomplete picture of the comfort of the working area, due to the lack of information about the parameters of its microclimate, such as temperature, humidity and air velocity.

The technical result is an increase in the efficiency of determining the comfort of the working area of industrial premises.

This is achieved by the fact that in the method of multi-criteria assessment of the comfort of the working zone of industrial premises, which consists in determining the concentration of aerodispersed impurities and the microclimate parameters of the air volume, the dust content of the air of the working zone is first determined as the first criterion for its comfort, for which the equipment for determining the mass of the clean filter is prepared and tuned , then a clean filter is weighed on the balance, and then the unit is set up for forced deposition of dust aerosol in the working zone ie the production premises, and then make selection air sample with capture dust particles on the filter and weighed filter with the collected particles of dust, dust aerosol concentration is calculated in milligrams per cubic meter according to the formula:

C = (m ₂ −m ₁ ) / V _o ,

where m ₂ is the mass of dusty filter, mg; m ₁ - mass of pure filter, mg.

V _o - the volume of air (m ³ ) passed through the filter,

In this case, the air volume (m ³ ) passing through the filter must first be brought to normal conditions (i.e., to the volume that it would occupy at a temperature of 0 ° C and normal atmospheric pressure equal to 101325 Pa) according to the formula

where 273 is the absolute temperature, K; T - air (gas) temperature, ° C; In _f - the actual barometric pressure at the time of sampling, Pa; In _n - normal atmospheric pressure equal to 101325 Pa; v is the sampling rate, l / min; τ is the sampling time, min; 1000 is the coefficient of conversion of liters to cubic meters (1 m ³ = 1000 l), after which the dust content of the air of the working area is evaluated, comparing the concentration obtained with the permissible value, then they proceed to assess the air according to the microclimate as the second criterion for the comfort of the working area, first they measure the air temperature using a thermograph or psychrometer, then measure the air humidity using stationary or aspiration psychrometers and determine the speed of air movement through a cup or vane anemometers, based on the obtained parameters - temperature in the working zone, its velocity and humidity - the degree of comfort is calculated by the following formula:

S = 7.83-0.1t _B -0.0968t _O -0.0372P + 0.18v (37.8-t _B ),

where t _B - air temperature in the working area of the production room; t _O is the temperature of the surrounding surfaces in the working area; v is the air velocity, m / s; P is the partial pressure of water vapor, calculated by the formula:

P = 0.01φ × Pnas, mmHg,

where φ is the relative humidity,%; Pnas is the partial pressure of water vapor in a saturated state, after which the comfort of the microclimate parameters is evaluated according to the following scale:

1 - very hot; 2 - too warm; 3 - warm, but nice; 4 - a sense of comfort; 5 - cool, but nice; 6 - cold; 7 - very cold.

Figure 1 shows a schematic diagram of an installation for sampling air, figure 2 shows a filter for sampling air, figure 3 shows a general view of psychrometers - stationary and aspiration, figure 4 - a general view of anemometers - wing and cup, figure 5 presents a General view of a digital anemometer.

Installation for sampling air (Fig. 1) contains a clamping nut 1, an AFA filter (Fig. 2), a filter holder (allonge) 3, a flowmeter 4, an adjustment valve 5, a tee 6, an aspirator 7.

The sampling rate is set taking into account the degree of dustiness of the air and the technical capabilities of the aspirator, but not higher than 100 l / min. At speeds of 30-100 l / min in the allonge, a support mesh is installed behind the filter, which prevents the filter from breaking. At the end of the sampling, the aspirator and stopwatch are turned off.

A method for assessing the comfort of the working area by the criterion of dust is as follows.

Throughout the entire sampling time, the aspirator control valve maintains a constant air volumetric flow rate. The duration of sampling is selected depending on the dust content and flow rate. The minimum required dust sample on the filter should be at least 1 mg, and the maximum allowable - not more than 100 mg. At the end of sampling, all used (dust-contaminated) filters are weighed on the same balance.

The calculation of the aerosol concentration is as follows.

The volume of air (m ³ ) that has passed through the filter is first brought to normal conditions (i.e., to the volume that it would occupy at a temperature of 0 ° C and normal atmospheric pressure equal to 101325 Pa) according to the formula

where 273 is the absolute temperature, K; T - air (gas) temperature, ° C; In _f - the actual barometric pressure at the time of sampling, Pa; In _n - normal atmospheric pressure equal to 101325 Pa; v is the sampling rate, l / min; τ is the sampling time, min; 1000 - coefficient of conversion of liters to cubic meters (1 m ³ = 1000 l).

The aerosol concentration (mg / m ³ ) is determined by the formula

where m ₂ is the mass of dusty filter, mg; m ₁ - mass of pure filter, mg.

Then assess the dustiness of the air of the working area, comparing the obtained concentration with an acceptable value.

The way to assess the comfort of the working area according to the criterion of microclimate parameters is as follows.

Be sure to observe the following order of operations when determining microclimate parameters:

1. Determine the air temperature using a thermometer (figure 3).

2. Determine the relative humidity using an aspiration psychrometer Assman M-34 (figure 4). For this, it is necessary to moisten with a pipette a piece of batiste moistened with water on a reservoir of a wet thermometer; use a key to start the gas spring of the device, which drives the fan impeller; after 4 minutes, take readings on dry and wet thermometers; calculate the psychrometric difference Δt = t _c -t _m ; from the calculated psychrometric difference Δt using a psychrometric table to determine the value of relative humidity. Record the results of measurements and calculations in the protocol.

3. Determine the speed of air created by the axial fan (desktop type) at the working points indicated by the teacher (but not less than 1 m from the center of the fan) using a winged anemometer (Fig. 5). The procedure for working with the device is as follows: measure the distance L from the operating points (at least 3) to the fan axis and turn it on; take readings from the scale of the counting mechanism of the anemometer; install the anemometer at the operating point so that the air flow from the fan is directed directly to the impeller of the anemometer.

Based on the obtained parameters - air temperature in the working area, its humidity and speed - calculate the degree of comfort using the following formula:

S = 7.83-0.1t _B -0.0968t _O -0.0372P + 0.18v (37.8-t _B ),

where t _B - air temperature in the working area of the production room; t _O is the temperature of the surrounding surfaces in the working area; v is the air velocity, m / s;

P is the partial pressure of water vapor, calculated by the formula:

P = 0.01φ × Pnas, mmHg,

where φ is the relative humidity,%; Pnas is the partial pressure of water vapor in a saturated state, determined by the reading of a dry thermometer from the following table:

Then evaluate the comfort of the microclimate parameters on the following scale:

1 - very hot; 2 - too warm; 3 - warm, but nice; 4 - a sense of comfort; 5 - cool, but nice; 6 - cold; 7 - very cold.

An example of the proposed method

one). To build the dependence of the air velocity on the comfort indicator if the thermometer readings on the psychrometer in the weaving mill of the factory were: - dry t _C = 24 ° C, wet - t _M = 19.5 ° C. Category of work - IIb, comfort indicator S = 4. Take the temperature of surrounding objects equal to the air temperature in the workshop, i.e. t _o = t _B , which in turn is determined by the readings of a dry thermometer, i.e. t _B = t _C (the initial data for the calculation according to your version should be taken from Table 2.4).

2). To make a conclusion, comparing the results obtained with acceptable norms of microclimate parameters for the warm period of the year with a slight excess of apparent heat according to GOST 12.1.005-88, and in case of inconsistency of the results with standard values, calculate the comfort index S for the upper range of acceptable values of those microclimate parameters that do not match valid values.

The difference in the readings of dry and wet thermometers is usually called the psychrometric difference (Δt = t _c -t _m ); it serves to determine humidity, φ%, according to Table 2.1, attached to the psychrometer.

In our case, Δt = t _c -t _m = 24-19.5 = 4.5 ° C. Therefore, the relative humidity in the workshop will be - φ = 65%. So, for the calculation, the following data were obtained:

t _B = 24 ° C; φ = 65%.

Now we calculate the partial pressure of water vapor according to the formula

P = 0.01φ × Pnas, mmHg,

where Pnas is the partial pressure of water vapor in a saturated state, determined by the reading of a dry thermometer from Table 1.

Table 1
The dependence of the partial pressure of water vapor in a saturated state on air temperature Air Temperature t _V , ° C Partial pressure of water vapor, Pnas, mmHg Air Temperature t _B , ° C Partial pressure of water vapor, Pnas, mmHg 10 9,209 21 18,650 eleven 9,844 22 19,827 12 10,518 23 21,068 13 11,231 24 22,377 fourteen 11,987 25 23,756 fifteen 12,788 26 25,209 16 13,634 27 26,739 17 14,530 28 28,349 eighteen 15,477 29th 30,043 19 16,477 thirty 31,824 twenty 17,533 31 33,695

For our temperature value t _B = 24 ° C, the partial pressure of water vapor in the saturated state is Pn = 22.38.

Then the partial pressure of water vapor for our case is determined as follows:

P = 0.01φ × Pnas = 0.01 × 65 × 22.38 = 14.5 mmHg

Now we determine the required speed of air movement in the weaving shop, at which the index of well-being would be equal to S = 4:

The health indicator can have the following values: 1 - very hot; 2 - too warm; 3 - warm, but nice; 4 - a sense of comfort; 5 - cool, but nice; 6 - cold; 7 - very cold.

The S indicator can also be expressed in a fractional number, which allows you to more accurately assess what kind of sensation (for example, 3 points - heat or 4 points - comfort, etc.) are closer to certain states of well-being of a person. For light physical work S = 3; for moderate work S = 4; for heavy physical work S = 5 points.

The given dependence allows us to solve the inverse problem, if necessary. Given the necessary degree of comfort and optimal values of temperature and humidity, you can calculate the necessary speed of air movement, which for these specific conditions will most of all meet the requirements of ensuring comfort.

Claims (1)

A method of multi-criteria assessment of the comfort of the working zone of industrial premises, which consists in determining the concentration of aerodispersed impurities and the microclimate parameters of the air volume, characterized in that they first determine the dust content of the air of the working zone as the first criterion for its comfort, for which they prepare and adjust the equipment for determining the mass of the clean filter, then a clean filter is weighed on the scales, and then the unit is set up for forced deposition of dust aerosol in the working area of the industrial premises, then an air sample is taken with the dust particles collected on the filter, the filter with the captured dust particles is weighed, the concentration of dust aerosol in milligrams per cubic meter is calculated by the formula:
C = (m ₂ −m ₁ ) / V _o ,
where m ₂ is the mass of dusty filter, mg;
m ₁ - mass of pure filter, mg;
V _o - the volume of air (m ³ ) passed through the filter,
the volume of air (m ³ ) passing through the filter must first be brought to normal conditions (i.e., to the volume that it would occupy at a temperature of 0 ° C and normal atmospheric pressure equal to 101325 Pa) according to the formula

where 273 is the absolute temperature, K;
T - air (gas) temperature, ° C;
B _f - the actual barometric pressure at the time of sampling, Pa;
B _n - normal atmospheric pressure equal to 101325 Pa;
v is the sampling rate, l / min;
τ is the sampling time, min;
1000 - coefficient of conversion of liters to cubic meters (1 m ³ = 1000 l),
after which the dust content of the working area is evaluated, comparing the concentration obtained with the permissible value, then they proceed to assess the air according to the microclimate parameters as the second criterion for the comfort of the working area, first they measure the air temperature using a thermograph or psychrometer, then measure the air humidity using a stationary or aspirated psychrometers and determine the speed of air movement in the cup or vane anemometers, and on the basis of the obtained parameters - the air temperature in In the bore zone, its humidity and speed, the degree of comfort is calculated using the following formula:
S = 7.83-0.1t _at -0.0968t _o -0.0372P + 0.18v (37.8-t _at ),
where t _in - air temperature in the working area of the production room;
t _o is the temperature of the surrounding surfaces in the working area;
v is the air velocity, m / s;
P is the partial pressure of water vapor, calculated by the formula:
P = 0.01φ · Rnas, mmHg,
where φ is the relative humidity,%;
Rnas - partial pressure of water vapor in a saturated state,
then evaluate the comfort of the microclimate parameters on the following scale:
1 - very hot; 2 - too warm; 3 - warm, but nice; 4 - a sense of comfort; 5 - cool, but nice; 6 - cold; 7 - very cold.

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