FI13330Y1 - Arrangement to improve the energy efficiency of a district heating network - Google Patents

Abstract

Arrangement for improving the energy efficiency of a district heating network, characterized in that the arrangement comprises a district heating pipe system, which is formed by insulated district heating pipes (6, 7), and a district heating pipe's additional insulation, which is arranged around an insulated district heating pipe (6, 7), which additional insulation comprises a insulating casing (1), which comprises a bottom part (2) and a cover part (3), which have surfaces (4a, 4b) which can fit together against each other, whereby when they are together it fit between the bottom part (2) and the cover part (3 ) an elongated space (5) is formed in the longitudinal direction (A) of the bottom part and the cover part, in which elongated space a district heating pipe (6, 7) can be arranged and which elongated space (5) corresponds to its cross-section to the cross-section of the district heating pipe, and/or insulation crusher (8 ), which is arranged around the district heating pipe system, in which arrangement the bottom part (2) and cover part (3) of the insulation casing (1) and the insulation crush comprise expanded polystyrene (EPS), extruded ered polystyrene (XPS) and/or polyurethane (PIR/PUR).

Description

ARRANGEMENT OF DISTRICT HEATING NETWORK ENERGY EFFICIENCY

FOR HEALING

Object of the invention

The object of the invention is the additional insulation of a district heating pipe, which enables an arrangement according to the protection requirements to improve the energy efficiency of the district heating network. —The background of the invention

In district heating, thermal energy is produced centrally at heating plants and distributed to customers through a network of pipes buried in the ground, the so-called district heating network. The heat transfer medium in the district heating network is typically water, from which heat energy is transferred to the customer's property with the help of heat exchangers. The water used for heating in the district heating network is typically heated to a maximum temperature of 120 °C. The district heating network can also be used to cool buildings. —The pipes of the district heating network are usually insulated steel pipes. In general, the district heating network uses foamed-in pipes, where the innermost flow pipe is made of steel, around which polyurethane is foamed as heat insulation, and the outer protective shell is a plastic pipe made of polyethylene. The steel flow pipe and the polyethylene protective cover are connected — firmly together — with polyurethane insulation. — Such types of — foamed-in pipes include e.g. single-pipe line 2Mpuk and two-pipe line Mpuk.

OF

N The district heating network can also use pipe types other than those shown above, such as different types of metal pipes or plastic pipes. They contain

S 30 — usually also used polyurethane insulation similar to

I in foamed pipes and a protective cover around the insulation layer. a

N As an insulation material for the pipes of the district heating network — is used — generally

S polyurethane, because its thermal resistance is sufficient — excellent

I 35 —for district heating use and has good thermal insulation. The thermal conductivity of polyurethane > does not increase significantly when — the temperature — rises to the typical maximum temperature of 120 °C for the heat transfer medium of the district heating network.

Of the distribution costs of district heat, the costs of heat losses in the network are — the largest cost item, — so bringing heat losses — to as low a level as possible is economically important. The biggest factor affecting the heat losses of the district heating network is the insulation layer around the flow pipe. Increasing the insulation layer reduces heat losses, but increasing the thickness of the polyurethane layer around the pipe is only profitable up to a certain thickness. In addition, increasing the insulation thickness of foamed district heating pipes is limited by the pipe manufacturing method.

Since increasing the thickness of the polyurethane insulation of district heating pipes is — possible only up to a certain thickness, new solutions for insulating district heating pipes to prevent or minimize heat losses and thus improve the energy efficiency of the district heating network are necessary.

Purpose and description of the invention

The purpose of the present invention is to reduce or even eliminate the aforementioned problems occurring in the state of the art.

The purpose of the present invention is to present an additional insulation for a district heating pipe, which enables the reduction of heat losses of district heating pipes and thus the energy efficiency of the district heating network

S healing. & 5 The purpose of the invention is to present additional insulation for use by existing ones

S 30 — polyurethane-insulated — district heating pipes, such as — foamed

I with pipes. a

N To realize these purposes for the arrangement according to the invention

S for improving the energy efficiency of the district heating network and in the arrangement

S 35 — the additional insulation used is mainly characterized by what is presented > in the attached protection requirements.

A typical arrangement according to the invention for improving the energy efficiency of the district heating network comprises - a district heating pipeline, which is formed from insulated district heating pipes, and - additional insulation of the district heating pipe, which is arranged around the district heating pipe, which additional insulation of the district heating pipe comprises - an insulation case, which comprises a base part and a cover part with surfaces that can be fitted against each other, whereby combined, an elongated space is formed between the base part and the cover part in the longitudinal direction of the base part and the cover part, in which the district heating pipe can be arranged in the elongated space, and which elongated space corresponds in its cross-section to the cross-section of the district heating pipe, and/or - insulation grit, which is arranged around the district heating pipeline, in which arrangement the bottom part and the cover part of the insulation case, and the insulation grit comprises — expanded polystyrene (EPS), extruded polystyrene (XPS) and/or polyurethane (PIR/PUR).

An arrangement according to an advantageous embodiment of the invention comprises polyurethane-insulated district heating pipes and additional insulation or additional insulation of the district heating pipe, which are arranged around the polyurethane-insulated district heating pipe. In one embodiment according to the invention, the arrangement comprises foamed polyurethane-insulated single-pipe cables 2Mpuk and/or two-pipe cables Mpuk and additional insulation/insulations of the district heating pipe, which are arranged around the district heating pipes.

In the arrangement according to the invention, additional insulation or additional insulations are used,

S whose purpose is to improve existing polyurethane insulation

Energy efficiency of N district heating pipes, such as 2Mpuk of foamed single-pipe lines and 5 Mpuk of two-pipe lines. In accordance with the invention

S 30 — the additional insulation used in the arrangement is additional insulation separate from the district heating pipe,

I which can be installed around district heating pipes. According to the invention = additional insulation can be installed either during the construction of a new network or

N it can be foot-mounted on existing district heating networks

S to reduce the heat loss of district heating pipes.

S 35 > The additional insulation according to the invention is based on the fact that it can be made from a cheaper insulation material than in district heating pipes — commonly used polyurethane insulation. The polyurethane in the district heating pipes can withstand very high temperatures and its insulation ability is good, so the temperature on the outside of the insulated district heating pipe has already dropped to a range that insulation materials other than polyurethane materials can also withstand. In this way, the district heating pipe according to the invention — the additional insulation is typically — made of a cheaper insulation material, such as expanded polystyrene (EPS) or extruded polystyrene (XPS), which guarantee suitable insulation together with the polyurethane insulation in the district heating pipe itself. EPS and XPS are very resistant to additional insulation — the required temperatures. However, the additional insulation according to the invention can also be made of polyurethane (PIR/PUR), if the temperatures of the application require it.

The additional insulation used in the arrangement according to the invention is easy to manufacture and install. Thanks to the additional insulation, it is not necessary to increase the polyurethane insulation layer in the district heating pipe itself, but the insulation can be easily increased by installing a separate additional insulation around the pipe. Thus, the arrangement according to the invention enables an easy and cost-effective way to improve the energy efficiency of the district heating network.

Brief description of the patterns

In the following, the invention is explained in more detail = by referring to — the attached drawings, in which Figure 1 shows — the — invention — in accordance with an — embodiment

The additional insulation of the district heating pipe used in the S arrangement, which

N comprises an insulation case formed from a base part and a cover part, 5 figure 2 shows the additional insulation of the district heating pipe according to figure 1

S 30 in cross-section, with the cover part and the bottom part of the insulation case

I placed against each other, = figure 3 of an arrangement according to another embodiment of the invention,

N where the additional insulation comprises an insulation case which is arranged

S around the district heating pipe,

S 35, figure 4 shows an arrangement according to one embodiment of the invention, > where the insulating casing forming the additional insulation is arranged around two district heating pipes, and figure 5 shows an arrangement according to another embodiment of the invention, in which insulating gravel is arranged around the district heating pipe. 5 —Detailed explanation of the invention

District heating pipes typically comprise a flow pipe made of steel, polyurethane insulation around the flow pipe and an outer protective cover made of polyethylene. Other types of structures are also possible in district heating pipes, and the arrangement and additional insulation according to the invention are designed — for use — with all types of — insulated district heating pipes, — preferably — district heating pipes containing a polyurethane insulation layer. — The additional insulation of the district heating pipe used in the arrangement according to the first embodiment of the invention comprises an insulation casing, which typically consists of two parts: a cover part and a bottom part.

The lid part and the bottom part of the insulation case forming the additional insulation comprise surfaces that can be fitted against each other, so that when matched, an elongated space is formed between the bottom part and the cover part in the longitudinal direction of the bottom part and the cover part, in which the district heating pipe can be arranged in the elongated space, and which elongated space corresponds in cross-section to the cross-section of the district heating pipe. The cover part of the insulation case is compatible with the bottom part, so that together they form a case where the insulated district heating pipe can be arranged. An elongated closed space is formed between the lid part and the bottom part of the insulation case, where the district heating pipe is

S adjustable and with the district heating pipe installed in the cover part and

It is surrounded by insulating material between the N bottom parts. The cover part 5 and the bottom part of the insulating case are typically shaped so that they fit tightly against

S 30 — district heating pipe. = = The elongated space formed between the bottom part and the cover part of the insulating case

The cross-section of N corresponds to the cross-section of the district heating pipe, typically

The elongated space S is a circle in cross-section. The cross section is the surface,

S 35 which is = substantially — perpendicular = to the lengthwise direction of the insulation case. > The cross-section diameter of the elongated space may vary. The insulating case according to the invention can be easily manufactured taking into account different pipe sizes by changing the diameter of the cross-section of the elongated space formed between the cover part and the bottom part.

The lid part and the bottom part of the insulation case according to the invention typically comprise — expanded polystyrene (EPS), extruded polystyrene (XPS) and/or polyurethane (PIR/PUR) According to an advantageous embodiment of the invention, the lid part and the bottom part are made of expanded polystyrene (EPS) and/or extruded polystyrene ( XPS) These are cheaper materials than polyurethane and their temperature resistance is — sufficient for the properties required for additional insulation. However, the insulation case can also be made of polyurethane or the additional insulation can be made of a material that includes, for example, polyurethane grit.

The insulating casing according to the invention has a longitudinal direction that corresponds to the longitudinal direction of the district heating pipe. The length of the insulation case can vary and it can be manufactured in different dimensions. Insulation boxes can be installed in the district heating pipe | in the longitudinal direction in a row tightly against each other to form a uniform — additional insulation. In the arrangement according to the invention, the insulation boxes can be arranged as a unit or they can be used for additional insulation of the district heating pipeline only if arranged at certain points.

The surfaces of the lid part and the bottom part of the insulation case that come against each other typically have designs that match each other in order to achieve a tight connection. — Designs may vary.

S According to one embodiment of the invention, the bottom part of the insulating case and/or

N cover part could have been formed from two or more pieces. 5 According to an advantageous embodiment of the invention, the bottom part of the insulating case is

S 30 is formed as one unit and the cover part is formed

I as one unified piece. a

N The bottom part of the insulation case according to one embodiment of the invention and/or

The cover part S is coated at least as much as the outer surface of the insulation case

S 35 — in part. In one embodiment of the invention, the bottom part and/or > cover part of the insulating case is coated on all surfaces. The insulation case can be coated with a waterproof and/or strength-enhancing coating. if you want a mechanically more durable additional insulation and/or improve the insulation's water resistance.

According to an advantageous embodiment of the invention, the bottom part of the insulation case is designed to have a flat bottom. This makes it easier to install and use the insulation box, as it stays firmly in place in the pipe trench during installation. The design of the outer surfaces of the insulation case according to the invention can vary, but preferably the bottom part has a flat bottom. — The insulation thickness of the bottom part and the cover part of the insulation case according to the invention is typically 50-300 mm, measured from the middle of the cross section of the bottom part or the cover part. The insulating case can easily be manufactured in different thicknesses and the thickness is chosen according to the intended use. —In an arrangement according to one embodiment of the invention, the insulation box can have a place for two or more district heating pipes, or the insulation box has two or more elongated spaces in the longitudinal direction of the bottom part and the cover part, in which elongated spaces the district heating pipes can be arranged. If the insulation case comprises two or more — elongated spaces, the cross-sectional diameter of the elongated spaces can be the same in all elongated spaces, or the elongated spaces may have been formed for pipes of different cross-section sizes, in which case the cross-sectional diameter of the elongated spaces is different from one another. The material of the — additional insulation according to the invention "enables the insulation case to be easily modified according to the intended use. The arrangement and insulation case according to the invention is therefore easy to implement for various purposes.

OF

N For changes in the direction of the district heating pipe, the insulating housing used in the 5 arrangement according to the invention can also be manufactured as corner pieces.

S 30 — Additional corner insulations can be manufactured, for example, to match pipe corners

I with standard degrees 15°, 30°, 45°, 60°, 75” and 90°. a

N In the arrangement according to the second embodiment of the invention, there is insulating gravel

S arranged around the district heating pipeline to form additional insulation.

S 35 — Insulation grit comprises expanded polystyrene (EPS), extruded > polystyrene (XPS) and/or polyurethane (PIR/PUR) According to one embodiment of the invention, the insulation grit can additionally comprise ceramic foam, lightweight gravel and/or glass foam.

According to one embodiment of the invention, a protective cover is arranged around the insulation grit, i.e. the insulation grit is inside the protective cover. When insulating gravel is used as additional insulation, the district heating pipe is completely or almost completely excavated and a protective cover is placed in the trench, and then the trench is filled with insulating gravel so that the district heating pipe remains inside the insulating gravel. Typically, insulation grit is on all sides of the district heating pipe. —A protective cover is not necessary in all cases if the trench is well drained or it can otherwise be assumed to be moderately dry.

According to one embodiment of the invention, the insulating powder may also contain a binder, such as PU foam or the like. The binder swells slowly, forming a uniform compact structure with the insulating grit, which has a clearly better insulating capacity than the base soil.

According to one embodiment of the invention, the additional insulation of the district heating pipe can comprise both an insulation casing and insulating gravel around the district heating pipe.

The additional insulation used in the arrangement according to the invention can be installed either during the construction of a new network or it can be retrofitted to existing district heating networks to reduce the heat loss of district heating pipes. District heating pipes, whose insulation has weakened or — the insulation layer is damaged, can be repaired with the additional insulation of the arrangement according to the invention, without having to replace the district heating pipe with a new one

S to minimize heat losses in the heating network. I saw it according to the invention

With the N arrangement, the lifetime of the existing district heating networks 5 can be extended without changing the district heating pipes.

S 30

I The arrangement according to the invention also enables insulation of the connection points of the district heating pipes, whereby the connection point remains inside the additional insulation, where

The N joint can have a district heating pipe without polyurethane insulation. Here

According to the invention, the insulation case can also act as a mold

S 35 — for extruding polyurethane foam around the joint. 5

According to one embodiment of the invention, the system also comprises a sensor wire with which e.g. pipeline water leaks. This can be installed when additional insulation is installed. — Detailed explanation of the pictures

The pictures use the same reference numbers for the corresponding parts.

Figure 1 shows the insulation case 1 of a district heating pipe used in an arrangement according to a first embodiment of the invention, which comprises a base part 2 and a cover part 3, which have surfaces 4a, 4b that can be fitted against each other. Figure 2 shows a cross-section of the insulation case of the district heating pipe according to Figure 1, where the bottom part 2 and the cover part 3 are placed against each other, so that an elongated space 5 is formed between them — in the longitudinal direction A of the bottom part and the cover part, in which the district heating pipe can be arranged and which elongated space 5 corresponds in cross-section to the district heating pipe — cross section. The typically elongated space 5 is circular in cross-section.

Figure 3 shows an arrangement according to another embodiment of the invention, where the district heating pipe 6 is placed between the bottom part 2 and the cover part 3 of the insulating case.

Figure 4 shows an arrangement according to one embodiment of the invention, in which the insulating housing 1 of the district heating pipe is arranged around two district heating pipes 6, 7.

OF

N The bottom parts 2 of the district heating pipe insulation casings shown in Figures 1-4 are 5 designed to have a flat bottom.

S 30

Figure 5 shows the arrangement according to the second embodiment of the invention = for additional insulation of the district heating pipe. District heating pipe 6 is additionally insulated

N by placing protective cover 9 and insulating gravel 8 in the trench 10. Insulating gravel 8

S is in the trench so that it surrounds the district heating pipe 6. Protective cover 9

S 35 — is placed around insulation grain 8. Finally, trench 10 is filled > in the normal way.

Claims (12)

Protection requirements 1. Arrangement for improving the energy efficiency of a district heating network, — characterized in that the arrangement comprises - a district heating pipe system, which is formed by insulated district heating pipes (6, 7), and - a district heating pipe's additional insulation, which is arranged around an insulated district heating pipe (6, 7) , which additional insulation includes - an insulation cover (1), which includes a bottom part (2) and a lid part (3), which have surfaces (4a, 4b) that can be fitted against each other, whereby when they are together it fits between the bottom part ( 2) and the lid part (3), an elongated space (5) is formed in the longitudinal direction (A) of the bottom part and the lid part, in which elongated space a district heating pipe (6, 7) can be arranged and which longest space (5) corresponds to its cross-section to the cross-section of the district heating pipe, and/or - insulation crusher (8), which is arranged around the district heating pipe system, in which arrangement the bottom part (2) and cover part (3) of the insulation casing (1) and the insulation crusher comprise expanded polystyrene (EPS), extruded polystyrene (XPS) and/or polyurethane ( PIR/PUR). 2. Arrangement according to protection requirement 1, characterized in that the bottom part (2) and/or cover part (3) of the insulating cover (1) is surface-coated at least on the part that forms the outer surface of the insulating cover. 3. Arrangement according to protection requirement 1, characterized in that the bottom part (2) and/or cover part (3) of the insulation cover (1) is coated on all its surfaces. S tt 4. Arrangement according to one of the preceding protection requirements, characterized <Q in that the bottom part (2) of the insulating cover (1) is shaped to have a flat bottom. No. 30 E 5. Arrangement according to any of the preceding protection requirements, characterized LO in that the insulation thickness of the bottom part (2) and cover part (3) of the insulation cover (1) is = 50-300 mm, matte at the midpoint of the N cross-section of the bottom part or the cover part. S 35 6. Arrangement according to any of the preceding protection requirements, characterized in that the insulation cover (1) has two or more elongated spaces (5) in the longitudinal direction (A) of the bottom part (2) and the cover part (3), in which elongated spaces district heating pipes (6, 7 ) can be arranged. 7. Arrangement according to any of the preceding protection requirements, characterized in that the cross-section of the longest space (5) formed between the bottom part (2) and the cover part (3) of the insulating cover (1) is round. 8 Arrangement according to one of the preceding protection requirements, characterized in that the opposite surfaces (4a, 4b) of the bottom part (2) and the cover part (3) of the insulation cover (1) comprise matching designs to achieve a tight joint. 9 Arrangement according to one of the preceding protection requirements, characterized in that the bottom part (2) and cover part (3) of the insulating cover (1) are made of expanded polystyrene (EPS) or extruded polystyrene (XPS). 10. Arrangement according to any of the preceding protection requirements, characterized in that the insulation crusher (8) additionally comprises ceramic foam, slatted gravel and/or foam glass. 11. Arrangement according to any of the preceding protection requirements, characterized in that a protective blanket has been arranged around the insulation crusher (8). n 12. Arrangement according to any of the preceding protection requirements, characterized N by the fact that there is a binder among the insulation crush (8). N S O N I = LO N 5 N N O N 5