RU2287789C1 - Heat energy by-flat cost keeping method - Google Patents

Abstract

FIELD: measuring technique.

SUBSTANCE: difference in average values of temperatures of surface of any heater, placed in premises, is measured as well as temperature of air in the premises. Average meaning of temperature of surface of any heater is found experimentally by measuring temperatures at points being uniformly distributed along surface of heat exchange. Then average value of temperatures of any heater and average air temperature in premises are measured.

EFFECT: improved precision of measurement.

2 cl

Description

The invention relates to a power system, in particular to accounting for the consumption of thermal energy.

The well-known and widely used in practice method of accounting for thermal energy (1, 2) is based on measuring the flow rate of the coolant in the direct and return pipelines, the temperatures and pressures of the coolant in these pipelines, where the difference in heat fluxes in the direct and return pipelines is calculated.

The main advantages of this method are the acceptable accuracy of accounting for heat energy consumption and the calculation of coolant losses at the subscriber.

The disadvantages of the method are the complexity and high cost of implementation. The method is practically not used for apartment-by-unit metering of thermal energy in apartment buildings, because requires the installation of two flow meters and temperature and pressure sensors on each radiator, which in the apartment can be from 2 to 4 or more. Considering that the coolant costs in apartment radiators are small (less than 0.1 m ³ / h), the error of their measurement with the used flow meters can be 10 ÷ 15%, which makes this method practically unacceptable for measurement accuracy, as well as for reasons of its high cost implementation.

Accounting for heat energy at the rate of heat consumption per square meter, mainly used for settlements with tenants, is very inaccurate and leads to a large overstatement of the estimated value of the consumed heat energy and the corresponding overpayments.

The method consists in continuously measuring the temperatures of the heating devices (radiators) and the temperatures in the rooms containing them, for a fixed time interval, determining the temperature difference between the heating device installed in the room and the air in it, then based on the obtained temperature difference and the known surface area heat transfer, taking into account heat transfer, calculate the heat energy consumption of the heating device. A distinctive feature of the proposed method is that they measure the difference between the average surface temperatures of each heater installed in the room and the air temperature in it, where the average surface temperature of each heater is determined experimentally by measuring temperatures at points evenly distributed over the heat exchange surface, then determine the average temperature of each heater and the average temperature in the room, and the number of lovoy energy consumed by each heater is determined according to the formula

Т - время; К_р - постоянный коэффициент, являющийся теплотехнической характеристикой данного радиатора, K_p=70q_pi·F_i, где q_pi - удельная тепловая мощность радиатора [Ккал/м²·час·°С], которая определяется конструкцией радиатора (паспортные данные); F_i - поверхность излучения радиатора [м²]; n - коэффициент, определяемый типом радиатора (n=0,25÷0,3).Where

T is time; K _p is a constant coefficient, which is the technical characteristics of this radiator, K _p = 70q _pi · F _i , where q _pi is the specific heat of the radiator [Kcal / m ² · h · ° C], which is determined by the design of the radiator (passport data); F _i - radiation surface of the radiator [m ² ]; n is the coefficient determined by the type of radiator (n = 0.25 ÷ 0.3).

производят путем нанесения координатной сетки на поверхность теплообмена, в узлах которой измеряют значения температур для дальнейшего их использования. Инструментом измерения является, например, цифровой термометр с поверхностным датчиком температуры, закрепляемым на поверхности радиатора в зоне его средней температуры, которая и находится экспериментально. Для этого с помощью указанного термометра измеряется поле температур поверхности радиатора в узлах координатной сетки (не менее чем в 25 точках) и находится значение средней температуры по формулеExperimental determination of the average surface temperature of a heater

produced by applying a coordinate grid to the heat exchange surface, in the nodes of which temperature values are measured for their further use. The measurement tool is, for example, a digital thermometer with a surface temperature sensor, mounted on the surface of the radiator in the zone of its average temperature, which is located experimentally. To do this, using the indicated thermometer, the temperature field of the radiator surface is measured in the nodes of the coordinate grid (at least at 25 points) and the average temperature is found by the formula

и в ней закрепляется поверхностный датчик температуры.Then there is a zone on the surface of the radiator with temperature

and a surface temperature sensor is fixed in it.

и

подключены к электронному блоку тепловычислителя. В электронном микропроцессорном блоке определяется разность этих температур

и вычисляется количество тепловой энергии, потребленной от радиатора, в соответствии с указанной выше формулой.Temperature sensors

and

connected to the electronic unit of the heat meter. The difference in these temperatures is determined in the electronic microprocessor unit.

and calculating the amount of thermal energy consumed from the radiator, in accordance with the above formula.

, где n - число радиаторов.The heat meter calculates the amount of heat energy consumed in Gcal (GJ) for the accounting period of time (day, month, heating season) and reflects the intermediate measurement result on a digital display, and also saves the measurement results in memory (archives). The measurement results in the amount of thermal energy consumed from each radiator in the apartment are summarized and the total amount of thermal energy consumed in each apartment for the accounting period is determined

where n is the number of radiators.

The application of the proposed method will improve the accuracy of measuring the heat consumption of the "small" consumer (tenant), eliminate unreasonable overpayments for its consumption.

Information sources

1. Patent RU 2145063, G 01 K 17/20.

2. Patent RU 2095769, G 01 K 17/20.

Claims (2)

1. The method of apartment-by-unit accounting of heat energy consumption, which consists in continuously measuring the temperatures of the heating devices and the temperatures in the rooms containing them, for a fixed time interval, determining the difference in temperature values of the heating device installed in the room and the air in it, where based on the difference temperature and known heat exchange surface area, taking into account heat transfer, calculate the heat energy consumption of the heating device, characterized in that the difference in the average values is measured the surface temperature of each heater installed in the room, and the air temperature in it, where the average surface temperature of each heater is determined experimentally by measuring temperatures at points evenly distributed over the heat exchange surface, then the average temperature of each heater and the average temperature are determined air in the room, the measurement results are processed on a computer, where the amount of thermal energy consumed from each opitelnogo device according to formula

Where

T is time; K _p is a constant coefficient, which is the technical characteristics of this radiator, K _p = 70q _pi · F _i , where q _pi is the specific heat output of the radiator, Kcal / m ² · h · ° C, which is determined by the design of the radiator (passport data); F _i - radiator radiation surface, m ² ; n is the coefficient determined by the type of radiator (n = 0.25 ÷ 0.3). 2. The method of apartment-by-unit accounting of heat energy consumption according to claim 1, characterized in that the experimental determination of the average value of the surface temperature of the heating device is made by applying a coordinate grid to the heat exchange surface, in the nodes of which temperature values are measured for their further use.