DE2931905B1 - Tariff counters for heat consumers - Google Patents

Description

The invention relates to a tariff meter for heat consumers in the preamble of claim 1 mentioned genus.

Such a tariff counter is already known (DE-OS 57 283). Such tariff counters are used to determine the Heat energy, the heat consumers in a flow line to the heat consumer and in one Remove the return line to the heat source from flowing heat transfer medium. Such tariff meters are also Called "heat meter". They have a flow meter, a flow temperature sensor, a Return temperature sensor and an arithmetic element that calculates the time integral of the product from the flow rate and from the temperature difference between flow and return.

However, suppliers of thermal energy are not only involved in determining the amount of the heat consumer consumed thermal energy, but also interested in the fact that the temperature difference between and return is as large as possible. Such a large temperature difference leads to a more optimal one Utilization of the capacity of the heat pipe network and therefore an optimal efficiency of the Heating plant. The consumers should therefore be induced by collective bargaining measures, heat consumers to operate with a high temperature difference.

The invention is based on the object of providing a tariff meter of the type mentioned at the beginning to improve that measured values are provided that relate to heat at a low temperature difference between Load the flow and return lines comparatively higher than heat sources with a high temperature difference.

The invention is characterized in claim 1 and further developments are given in subclaims or improvements of the invention are claimed.

Because the calculated value is derived from the difference between the flow instead of the usual temperature difference and virtual return temperature is formed, the above-mentioned object can be achieved in a simple manner will.

An exemplary embodiment of the invention is explained in more detail below with reference to the drawing. It shows

F i g. 1 a block diagram of a tariff meter and

F i g. 2 a diagram.

In FIG. 1 means 1 a flow temperature sensor which detects the flow temperature T _v of a heat transfer medium flowing in a flow line to a heat consumer and in a return line to a heat source and sends a corresponding measured value to a differential element 2. Furthermore, a constant value transmitter 3 outputs a selectable constant value, which corresponds to a virtual return temperature T _n , to the differential element 2. If necessary, a return temperature sensor 4 can also be arranged, which detects the return temperature T _r and acts on the differential element 2 via a function generator 5 with the function f (T _r ). The difference element 2 forms a measured value which is related to the flow temperature T and the temperature difference

\ T = T _v -T _rv -f (T _r )

is equivalent to. This calculated value therefore contains a constant component T _n that is independent of the flow temperature T _v and the return temperature T _r,

A flow meter 6, which is a volume flow meter in the example shown, supplies a measured value corresponding to the volume flow V ^. This measured value and the calculated value for the temperature difference Δ Tsind as operands a computing element 7 is supplied, which is the time integral of the product of the operands according to the relation

ί r

Q ₁ , = kjv I Tat = / cJV [T _r - T _n - / (T _r )] dr

or according to another relationship that is customary in heat meters.

In the last-mentioned formula, Q _v means the heat energy determined by the tariff meter, ie the calculated heat energy, k the heat coefficient of the heat carrier and t the time.

For the actually drawn thermal energy φ, the following applies

Q _h = fcj V (T _1. -T _r ) df

For a time interval in which the integrands can be viewed as constant, the ratio ε between the calculated thermal energy Qy and the related thermal energy Qb is

Ou T-T

In the following, with reference to FIG. 2, two examples are shown clearly which tariff structure results from the tariff meter described. The solid curve in FIG. 2 shows the course of the ratio ε as a function of the return temperature T _n for the case that 7V = 100 ⁰ C, 7 ^ 40 ⁰ C and / JTy = O, that is, the calculated value of the temperature difference ^ exclusively from the flow temperature 7V and the virtual one Return temperature T _{n is} formed and thus the return temperature sensor 4 and the function generator 5 do not need to be present. It can be seen that at 7] · = 40 ° C the actually drawn energy, at T _r <40 ° C only part of the drawn energy and at 7 >> 40 ° C more than the drawn energy is billed. At high return temperature T _r, the curve rises steeply, that it will even be charged several times for the energy, causing the consumer to ensure the lowest possible return temperature T _r.

The return temperature sensor T _r and the function generator 5 are required if the tariff is to be based on less strict standards, as indicated by the dashed curve in FIG. 2 is shown. This dashed curve results when T, −100 ^° C.

r _rv = 20 ° C and f (T _r ) = Wrist With the appropriate choice, other curves can also be achieved

2 '

from t (lr) can
achieve.

In an arrangement of several tariff meters, it is sufficient to provide a single flow temperature sensor t and a single constant value transmitter 3, which are common to all tariff meters. Case f (T _r) = 0, the return temperature sensor 4 and the function generator 5 that is omitted, also satisfies a single, all tariff meters common differential element 2. It is also possible to provide a single computing element 7, in a kind of multiplex circuit the calculation value The temperature difference Δ T is cyclically multiplied by the measured values of the various flow meters 6 and forms the time integral of the product.

1 sheet of drawings

Claims (5)

Patent claims: 1. Tariff meter for heat consumers, which extract heat energy from a heat transfer medium flowing in a flow line to the heat consumer and in a return line to the heat source, with a flow meter, a flow temperature sensor and an arithmetic logic unit that uses a measured value of the flow rate and a calculated value of a temperature difference related to the flow temperature as arithmetic variables is supplied and which is designed to form the time integral of the product of these arithmetic variables, characterized in that the arithmetic value of the temperature difference (-4 T) is formed from the flow temperature (T _v ) and a virtual return temperature (T _n ) . 2. Tariff meter according to claim 1, characterized in that the calculated value of the temperature difference (ΔΤ) from the flow temperature (T ₁ -), the virtual return temperature (T _n ) and the real return temperature ( ^ is formed. 3. Tariff meter according to claim 1 or 2, with a differential element connected on the input side to the flow temperature sensor and on the output side to the arithmetic element, characterized in that a constant value transmitter (3), which emits a constant value corresponding to the virtual return temperature (T _n ), to the differential element (2) is connected. 4. Arrangement of several tariff meters according to claim 3, for the detection of several heat consumers, characterized in that a single flow temperature sensor (1) and a single Constant value transmitter (3) are common to all tariff meters. 5. Arrangement according to claim 4, characterized in that a single differential element (2) all Common to tariff meters. 40