FI12357U1 - Heating system for a building - Google Patents

Description

REAL ESTATE HEATING SYSTEM

ENGINEERING

The present invention relates to property heating systems utilizing district heating.

BACKGROUND

District heating is Finland's most common form of heating that provides energy-efficient and reliable operation for all types of buildings. District heating is supplied to customers through a district heating network with a line of supply, outlet side, and return line, i.e. the reverse side. The object to be heated, such as the property, is connected to the supply side of the district heating network and to the return side of the property's heat distribution center. The substation district heating network water inlet side of the heat transferred through the heat exchangers the heat distribution devices, such as radiators, underfloor heating or ventilation network and the domestic hot water. Cooled district heating water in the heat exchanger will return to the production plant for re-heating when cooled down. District heating water does not circulate in the heating network of houses. Based on the findings of Porvoo during the 2016 summer and winter, the district heating network trunk line side of the flow temperature can vary from 115 - 80 ° C, and the reverse side temperature can vary from 62.8 to 41 ° C.

[0003] Back-side water of high temperature results in poor efficiency in the production of district heat. When biomass- fueled plants for district heat production, a return side of the high temperature of the water decreases the efficiency and thus increase fuel costs. The operating% / power of the flue gas scrubber rises when the return is cooler.

SUMMARY

The invention is characterized by what is set forth in the characterizing part of the independent protection claim.

Thanks to the invention, it is possible to expand the district heating district of the district heating, because the heat energy of both the line of the line and the return line can be used for heating. In this way, possible overheating of the return line can be utilized. The invention is suitable for use in a variety of heating applications, such as properties that may be new or renovated.

The use of heat from the return line for the heating of the property also benefits the district heat producers with a better efficiency when the return of the main line is cooler without any technical changes to the power plants. When using bioenergy plants for district heating production, the invention enables savings in biofuel fuel consumption as the efficiency of the washers increases, with the return line cooler and the return heat (MWh) sold.

Compared to the current procedure, the entire network's heating range is raised with the above-mentioned benefits with minor modifications. The new method can be introduced in new and renovation projects where a new type and possibly more advantageous form of heating is desired. Selling energy companies on the return side of excess heat would allow cheaper MWh charge.

BRIEF DESCRIPTION OF THE DRAWING

In the following, some embodiments of the invention will be described in more detail with reference to the accompanying drawings, in which: FIG. 1 illustrates a heating deformation system according to an embodiment.

EMBODIMENTS

The invention is based on the introduction of two return sides and one outlet from a district heating network to a heated object, such as a property. The second return pipe is used to take district heating water to the heated object and to return the cooled district heating water to the district heating network. Pipes on the return side are separated by a distance from each other to prevent mixing. In this way, the heat energy of both the return line and the line can be used for the heating needs of the property.

In this context, the expression line and return line refer to pipes or lines on the supply side and on the return side that are suitable for transporting water or other heat suitable for transferring heat energy to heat transfer into a liquid bound between a heat production plant and a property or other object to be heated. Water or other liquid is transported from the production plant to the object to be heated, where the liquid cools. The cooled liquid is returned to the production plant for return to the production line. The property can be a building, for example a house or other building with a heated volume and hot water. The property is heated by one or more heating devices. Thus, heating a property serves to keep the volume of the property at the desired temperature for maintenance and use of the property, such as housing. Hot water is heated by a hot water heating system, from which heated water is fed to the property's hot water network. Hot water is typically at least 50-55 ° C in the property's hot water network, but the temperature may be higher. From the hot water heating system, the water leaving the property's hot water network is generally considerably higher, for example 65 ° C, in order to achieve the aforementioned minimum temperature in the hot water network.

FIG. 1 illustrates a heating system according to an embodiment. In the figure, the directions of flow of the district heating water are illustrated by arrows. The heating system may be a heating system for a property or other heated object. The heating system may comprise a high temperature section 102 for heating hot water 112 and a low temperature section 104 for heating the property. The high heating section 102 of the heating system is connected to the district heat supply line 106. The flow 132 of the low heat section 104 is coupled through the circulation pump 114 to the return heat line 108. The return of the low heat section 104 is coupled to the return heat circuit 104 at a distance of 116 from the outlet 132 of the low heat section 104.

In one embodiment, the high-temperature section 136 and the low-temperature section 132 are connected to conduct the district heating water to the low-temperature section 104. Thus, overcurrent of the outlet 132 of the district heating low-temperature section can be avoided or even prevented. In order to prevent the lower limit of the low-temperature part being passed, the expenditure of the high-temperature part can be combined with the valves 118, such as a leveling valve and / or a mixing valve.

In one embodiment, the amount of district heating water to be fed from the high temperature section to the low temperature section is controlled based on the temperature 132 of the low temperature section 104. For example, if the temperature of the outlet 132 of the low-temperature section 104 is, for example, below 38 ° C, the amount of district heating water to be fed from the high-temperature part to the low-temperature section is added. For example, if the temperature of the outlet 132 of the low temperature section 104 is, for example, above 38 ° C, the amount of district heating water from the high temperature part to the low temperature section is subtracted. The temperature of the outlet 132 of the low temperature section 104 can be measured by a temperature sensor mounted to measure the temperature 132 of the low temperature section 104. Alternatively, another temperature may be set as the threshold temperature instead of the above 38 ° C.

In one embodiment, the low temperature section 104 preheats the hot water 110 of the property, and the preheated hot water is heated to its final temperature in the high temperature section. Thus, sufficient heating water for hot water 112 can be secured throughout the year. The energy from the return line can be insufficient for heating hot water alone.

In one embodiment, the return of the high-temperature part 138 is connected through the return of the low-temperature part 134 to the return heat line 108 of the district heating. Thus, both the high-temperature part and the low-temperature part require only one return.

In one embodiment, the low heat section 104 comprises a heat exchanger for transferring heat from the water from the district heat return line to one or more heating devices of the property.

In one embodiment, the property heating equipment comprises a floor heating coil system 124, a liquid-circulating radiator system 126, a fluid-circulation ventilation heating cell / radiator system 128.

In one embodiment, the high temperature section 102 comprises a heat exchanger for transferring heat from the water from the district heating line to the hot water of the property 112.

In one embodiment, the low-temperature section outlet 132, the high-temperature section 136, the low-heat section return 134, and the high-temperature return 138 are connected to measuring devices 120 for measuring energy consumption, and the heating circuit comprises a low-energy section 104 and a high energy partition divided by a separate energy reading device 130 or a low-temperature and high-temperature energy device.

[0020] In the example according to one embodiment of the implementation of the invention the heated object, such as properties are imported into two pipes of district heating network, the reverse side, low-temperature portion of flow 132 and return 134, and one tube the district heating network expenditure side, the high temperature of the flow 136. One of the reverse side of the tubes formed in the heated, such as a house, low The cost of heating the property and preheating the property's hot water 110. The hot water 112 of the property can be preheated or heated at low cost to maximize the cooling of the district heating water if the low-flow temperatures are high enough for hot water heating. In addition, the heat from the outlet side can be used to heat warm water 112 as needed and / or to equalize the low cost of the residual system as a safety measure. The return pipes are connected to the backbone of the heat network at a certain distance from each other so that they are spaced 116 apart and are not mixed. Spinning fluid is circulated through the object / property with its own circulation pump.

In the implementation, the heating object is provided with heating devices, which may comprise one or more of the following: IV heating coil, 35 -40 ° C, low temperature radiator 35-40 ° C, or underfloor heating. The implementation thus enables a complete low heat system to be heated.

In the implementation, the too low low-pass temperature per connection is increased, if necessary, to the valve 118, for example by a leveling / mixing valve, which acts as a security for the low heat system of the property, meaning that the low cost is too cool to maintain the low heating system of the object.

In the implementation, the low flow is connected via the circulation pump 114 to the return heat line of the district heat. The heat from the low cost and the outlet is measured with measuring devices / sensors 120 which are readable by the energy reader unit, e.g., MWh or kWh. With the heating system of the property, district heating from low-cost and district heating can be used for heating the property and hot water. The heating system may comprise a low heat section 104 for heating the property and a high heat section 102 for heating hot water. The low-temperature part may be connected to the high-temperature part so that the preheating of the hot water takes place in the low-temperature part with the heat being transferred and the final heating to the target temperature of the hot water is carried out by the heat being transferred in the high-temperature part. Thus, in the combined low-temperature section and the high-temperature part in the low-temperature section, the preheated hot water is passed from the low-temperature section to the high-temperature section.

The invention allows the energy of the subject to be heated to be divided into two parts. Energy consumption can thus be monitored for low energy consumption and energy used for district heating. In this way, the energy used for low cost and the energy used in the supply line can also be differentiated in billing. The low-cost and traditional cost of return of each item to be heated can be monitored by measuring devices and distributed to low-cost and district heating for the use of the line.

The object / property heat distribution center is adjusted in a conventional style compared to different parameters. Also, the district heating pipelines and heat exchanger sizes of the object / property should be taken into account, as well as the flows to be adjusted to the needs of the property, such as the traditional district heating connection.

The energy use of the house / object is divided into two parts. Shared billing consists of the energy used in low-cost and traditional spending. Low cost return for each item / property as well as traditional expense returns are tracked as before but with shared use.

The implementation brings significant benefits, including: efficiency of the district heating plant increases and emissions are reduced; the energy company does not need to change the policy or equipment, or the lines; the energy company does not need to invest in pump retention cleaners; the energy company billing heat district in district heat expands and cooling costs become revenue; allows two-way district heating connection.

INDUSTRIAL APPLICABILITY

The invention is suitable for use in real estate and other district heating applications.

REFERENCE NUMBER LIST 102 high heat section 104 low temperature section 106 line of line 108 return line 110 hot water 112 hot water 114 circulating pump 116 spacing 118 valve 120 measuring devices 124 underfloor heating system 126 liquid circulating system 128 fluid circulation ventilation heating cell / radiator system 130 energy low cost outlet 134 coupled return 136 high temperature part 138 high temperature return

Claims (8)

PROTECTION REQUIREMENTS A heating system for a property comprising a high temperature section (102) for heating hot water (112) and heating a low-temperature part (104) for the property, wherein the high temperature part of the heating system of the property is connected to the district heating line (106), - the outlet (132) of the low-temperature part (104) is connected to the circulation pump. (114) to the return heat line (108) of the district heat, and - the combined return (134) of the low temperature section (104) and the high heat section (102) is connected at a distance (116) from the outlet (132) of the low heat part (104) to the return heat (108) of the district heat, that - the outlet (136) of the high-temperature part (102) and the outlet (132) of the low-temperature part (104) are connected to conduct the district heating water from the high-temperature part to the low-temperature part. Heating system according to claim 1, characterized in that the amount of district heating water to be supplied to the low temperature section (104) from the high temperature section (102) is controlled by the temperature of the outlet (132) of the low temperature section (104). Heating system according to claim 1 or 2, characterized in that the low-temperature section (104) preheates the domestic hot water (110) and preheated the hot water to its final temperature in the high-temperature section (102) if necessary. Heating system according to claim 1 or 2, characterized in that the return (138) of the high-temperature part (102) is connected via the return (134) of the low-temperature part (104) to the return heat line (108) of the district heating. 5. A heating circuit according to claim 1, 2, 3 or 4, characterized in that the low temperature section (104) comprises a heat exchanger for transferring heat from the water from the return line (108) of the district heat to one or more heating devices of the property. 6. A heating system according to claim 5, characterized in that the heating devices comprise a floor heating system (124), a liquid-circulation radiator system (126) and / or a liquid-circulation ventilation heating cell / radiator system (128). 7. A heating system according to claim 1, 2, 3, 4, 5 or 6, characterized in that the high-temperature part (102) comprises a heat exchanger for transferring heat from the water from the heat supply line (106) of the district heat to the use water of the property. Heating system according to claim 1, 2, 3, 4, 5, 6 or 7, characterized in that the low-temperature part (104) goes into the outlet (132), the high-temperature part (102) (136), the low-temperature part (104) to the return (134), and the return (138) of the high-temperature part (102) is combined with measuring devices (120) for measuring energy consumption, and the heating system comprises a low-temperature part (104) and an energy-energizing device (130) or a low-energy part (104) of the high-temperature part (102) and a separate lower energy element (102).