FI101104B - Combination of systems for sterilized hot water and combustion systems - Google Patents

Abstract

The invention concerns a combined sterilized hot water and combustion system. Heat from waste incineration and solar heat can be effectively used to economically produce sterilized hot water. Generator 1 for production of sterilized hot water consists of an upper vessel 2, an intermediate vessel 9 and a lower vessel 12, said vessels being connected to each other. The lower vessel 12 includes a combustion chamber 13, which is connected to the heating chambers 3, 10 positioned centrally in the upper vessel 2 and the intermediate vessel 9. A solar heat operated hot water preparer 32 is connected on the front of generator 1 to sterilize hot water. A sterilization arrangement 33 is designed to pass through the heating chambers 3, 10 in the upper and intermediate chambers 2, 9 to feed the hot water in the upper chamber 2 to a connected sterilization chamber 34 for sterilization by heating. A smoke elimination vessel 43 is arranged to dissolve the flue gases developed during combustion in water and the waste gases that leave the smoke elimination vessel 43 are fed to a reduction chamber 47 where they are reduced to oxygen by means of plants, etc. and where the oxygen is fed to the surrounding atmosphere. <IMAGE>

Description

, 101104

Combination of sterilized hot water system and combustion system. - A combination of a system for sterilizing the water and a system for sterilization.

The present invention relates to a combination of a sterilized hot water system and an incineration system which is well capable of efficiently utilizing the heat of incineration and solar heat.

10 In recent years, municipal waste has increased in volume and size so that it can no longer be disposed of with existing incineration systems, only having to be buried in the mountains or elsewhere. However, it has been said that such a disposal practice is only a matter of time when it was no longer possible to continue it. The waste, when buried in the mountains or highlands, travels through groundwater to the lowlands, where toxic groundwater persists for up to several decades. To date, waste-20 incinerators for domestic use have been commercially available but can only be used for small waste incineration. In addition to such commercial ... use of combustion plants due to their production of smoke

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'; is now banned even in local cities. Protruding smoke is also involved in air pollution.

: 25 Until now, various hot water generators have been sold for hot water · · ·, **: water production. However, they must use • · · ί:: valuable energy resources such as coal, gas and electricity. For energy saving purposes, hot water generating devices have also been available which harness solar energy. However, they highlight the problem of that

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• <many bacteria that are harmful even to livestock, li— * * regulate during heat absorption.

In accordance with the foregoing, the present invention seeks to provide a combination of a sterilized hot water system and an incineration system capable of producing sterilized hot water by efficiently utilizing both waste incineration heat and 2,101,104 solar heat, disposing of waste, large and small, and producing this sterilized hot water. enough to drink.

According to one aspect of the invention, there is provided a combination of a sterile hot water system and a combustion system, characterized in that it comprises a hot water generator consisting of an upper tank with a heating chamber in the central region communicating with a combustion chamber in the lower tank and a smoke hood. -10 a power pipe for directing smoke outside said heating chamber, an intermediate tank containing in its central region a heating chamber in communication with a combustion chamber in the lower tank and a lower tank containing said combustion chamber in its central region and two waste inlets 15, one for small waste and one for large waste, wherein said containers are arranged to communicate with each other through said heating chambers, and a sterilization device located in said upper container and said intermediate container; inside the heating chambers 20 for conducting water to a sterilization chamber in said upper tank where it is heated to a predetermined temperature required for sterilization.

According to another aspect of the invention, there is provided a combination of a sterilized hot water system and a combustion system, characterized in that it comprises hot water; a water generator consisting of an upper tank with a heating chamber in the central region communicating with the combustion chamber in the Alem-j *.> # 30 pulp tank and a smoke duct for directing smoke outside said heating chamber, an intermediate tank containing a heating chamber in the central region , which is connected to the lower

With a combustion chamber in a mill, and a lower tank containing said combustion chamber in its central region and two · waste inlets, one for small waste and the other for large waste, said tanks being arranged so as to be connected with each other through said heating chambers 3 101104, a solar thermal hot water generator connected to the inlet of the water in the lower tank and located in front of said hot water generator, and a sterilizer placed in a sterile upper where it is heated to a predetermined temperature required for sterilization.

The present invention will now be described to a large extent, but not exclusively, with reference to the accompanying drawings, in which:

Figure 1 is a centrally and longitudinal sectional view of the present system, and 15

Fig. 2 is a sectional view taken along line I-I of Fig. 1.

In Fig. 1, reference numeral 1 denotes a hot water generator 20 consisting of an upper tank, an intermediate tank and a lower tank, which are described below. The upper tank, marked 2, contains in its central region a heating chamber 3, which is connected to! with the combustion chamber inside the lower tank, which is described below. The heating chamber 3 includes a heat exchanger: ''25 4. Reference numeral 5 shows a smoke exhaust pipe for removing smoke from the heating chamber 3 outside. Float-type • · ·. * ·: The valve 6 is arranged to stop the supply of water from the • · · · ί, ί «'backflow heat-hot water generator, to supply the addition of fresh water. When the water level in the body 1 is below a predetermined level, the expansion membrane 7 is provided with an associated safety valve 8 adapted to detect the expansion of the membrane 7, thereby preventing the disintegration caused by the expansion.

35 The intermediate tanks 9, 9 contain in their central region a heating chamber ....: 10 in connection with the heating chamber in the lower tank, as well as the upper tank 2. The heating chamber 10 again contains a heat exchanger 11. As shown in the stack of two intermediate tanks 9, 9, 101104 4 may be 1 or 3 or more.

The lower tank 12 includes a combustion chamber 13 in its central region, and 5 is in operative communication with the intermediate tanks 9, 9 and the upper tank 2.

Reference numeral 14 denotes a large waste, such as lumber, inlet with an opening door 15, while reference numeral 16 to 10 represents a small waste inlet with a tilting chute 17 attached thereto. It is noted that making the waste chute 17 thus tilted to any desired angle is helpful for introducing waste. even easier.

Inside the waste chute 17 there is a rotating arm 19, which is so hollow that air can be sprayed out from its extreme end, it contains a helical vane 18 around it and is operated by given actuators. With this arrangement, the waste 20 can be guided well through the trough 17 into the inlet 16 by means of the wing 18, thereby preventing it from clogging the small: v. waste and maintaining the air circulation so well that the amount of oxygen can be increased for increased combustion. An additional fan for forced air circulation «« · · '25 may be provided.

I 1 I I I • · ·. *: In addition, the waste chute 17 includes a two-layer wall structure with inner and outer water channels 20 and 21 through which water flows alternately, allowing water to be transferred from the inner channel 20 to the outer channel 21 during combustion to prevent any drop in combustion power and the user from burns. .

| A water supply inlet pipe 22 for supplying water to the lower tank 12 '' is connected to a solar thermal hot water generator, described below, by means of a pipe 23. The igniter 24 is arranged to cause the waste to burn in the combustion chamber 13, and the grate 25 is fixedly arranged in an associated support 26 through which the water flows in the lower tank 12.

• · 101104 5 Dust and dandruff that settle to the bottom of the lower tank 12 is removed from the opening 27. The body 1 of the sterilized hot water generator is supported as shown in point 28.

Reference numeral 29 denotes an oil burner which is used when the waste to be burned in the fuel chamber 13 is reduced or not available at all.

Reference numeral 30 represents an electric heater used for the same purpose as mentioned in connection with the oil burner.

The upper tank 2, the intermediate tank 9 and the lower tank 12 are each coated on their sides and rear with insulating material 15 31 to prevent heat escaping therefrom, and the body 1 of the sterilized hot water generator is provided on its front side shines. When the present system 20 is used in cold regions, it is further provided with a sensor for measuring the water temperature in the solar hot water generator as well as the ambient temperature. This temperature sensor • · beeps when there is no difference between the water temperature and the ambient temperature or when the former is lower • · *: '25 than the latter, thus allowing the present system to be covered with insulating material either manually or • # ·. **: automatically, just like a blind. Should freezing occur ···: this is considered to be quite unlikely due to combustion - the water can be completely removed.

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The sterilizer 33 is arranged to sterilize hot water by heating it before use. Since a temperature of 83 ° C or higher is required for sterilization, hot water <111 'is directed from the upper tank 2 to the sterilization chamber, where it is sterilized and fed for use. It is noted that a sterilization time of 15 minutes is required at 83 ° C and the higher the temperature, the shorter this time. The water in the sterilization chamber is heated by the heat of combustion in the combustion chamber 13.

The sterilization chamber, marked 34, is centrally located through the heating chambers 3 and 10 5 of the upper tank 2 and the intermediate tank 9 through heat exchangers 4 and 11 and one end of the water pipe 35 is connected to the bottom of the sterilization chamber 34 and the other end protrudes from the roof of the heating chamber 3 in the upper tank 2. at its end with a flexible water pipe 38, the water inlet 37 of which is permanently located 10 at the level of the water surface by means of a float 36.

The hot water supply pipe 39 is connected at one end to the upper part of the sterilization chamber 34 and extends at the other end from the upper wall 15 of the heating chamber 3 in the upper tank 2. The air bubble outlet 40 is connected to the hot water supply pipe 39 along the length thereof, and a flow path diverter valve 41 is located at the junction of the air bubble outlet 40, allowing air bubbles to be removed from inside the sterilization chamber 34 through the air bubble outlet 40 except when hot. water is fed.

«1 · • ti •; The water temperature sensors 42 and 42 are arranged to detect

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the temperature of the hot water in the sterilization chamber 34, thereby actuating the temperature of the identified water of the igniter when the space is lower than the predetermined temperature. As already mentioned, sterilization should be for 15 minutes: at 83 ° C. The higher the temperature, the shorter the sterilization time, and the water temperature sensors 42, 42 serve to determine the sterilization time.

The smoke extraction tank 43 is arranged to prevent smoke generated during combustion from entering the atmosphere directly. The mixing fan 44 is arranged to mix water 45 into which the smoke is removed for dissolution. It is noted that

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the open end of the smoke extraction pipe 5 terminates in water in the smoke extraction tank 43. The connection 46 is arranged at the bottom of the smoke extraction tank 43 to remove soot precipitating therein.

101104 7

The oxygen reduction tank 47 with plants or trees 48 is arranged to reduce the exhaust gases leaving the smoke removal tank 43 to oxygen, which is then released into the atmosphere through the oxygen outlet 47a. The oxygen reduction tank 47 is connected to the smoke extraction tank 43 by means of a pipe 49.

The deodorant 50 is installed between the length of the connecting pipe 49 and 51 represents the pump.

The pipe 52 has one end connected to the pipe 49, between the length of the pipe 49 and the other end connected to the combustion chamber 13, their connection point being provided with a flow reversing valve 53.

By feeding the waste through the waste inlet 15 or 16 and igniting it, the waste burns in the combustion chamber 13 and generates heat, by which the water in the upper, intermediate and lower tanks 2, 9 and 12 is heated. In addition, the water is heated by a solar-co-thermal hot water generator 32. The hot water in the upper tank 20 is passed through the sterilization chamber 34, during which it is sterilized.

• * «'; On the other hand, the fumes which develop during combustion flow I I t ;; to the smoke extraction pipe 5 in the intermediate tank 9 and in the upper tank 2! 25 through the heating chambers 3 and 10 and is introduced into the water in a smoke extraction tank 43, where the fumes are dissolved in the water to remove soot. The carbon dioxide leaving the smoke removal tank 43 is reduced to oxygen in the oxygen reduction tank 47, which is then released into the atmosphere. At the same time j *. #> 30 when combustion is forcibly interrupted when the internal temperature of the combustion chamber reaches a predetermined temperature, ♦ • # the fumes that develop at this time are controlled by a flow * * reversing valve 53 and recirculated in a closed loop defined by the heating chambers 35 10, 3, a smoke extraction tank 43 and a pipe 52 for removal by a pump 51, during which no fresh air is supplied to the combustion chambers.

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a 101104 According to the present invention, constructed and used as mentioned above, it is possible to make hot water by efficiently utilizing both the heat of waste incineration and the heat of the sun. Thus, the present system is considerably more economical than conventional hot water production systems that use oil, electricity, etc., and thus contributes to energy savings. It is also possible to efficiently incinerate waste, either small or large, because the present system includes two waste inlets, for large-scale and small-scale waste. In addition, it is possible to prevent greater air pollution because it is unlikely for the present system to push fumes directly into the atmosphere. The hot water obtained by the present system, due to sterilization, is available as drinking water.

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Claims (7)

9 101104 A combination of a sterilized hot water system and a combustion system, characterized in that it comprises: a hot water generator (1) consisting of an upper tank (2) with a heating chamber (3) in the central region, connected to a combustion chamber (12) in the lower tank (12); 13) and a smoke duct (5) for directing smoke outside said heating chamber (13), an additional tank (9) containing in its central region a heating chamber (10) communicating with the combustion chamber (13) in the lower tank (12), and a lower tank (12) comprising said combustion chamber (13) in its central region and two waste inlets (14, 16), one (16) for small waste and the other (14) for large waste, said tanks (2, 9, 12) being arranged to communicate with each other through said heating chambers (3, 10), and a sterilization device (33) located in said upper container ä (2) and inside said heating chambers (10, 3) in the intermediate container (9) for conducting water to a sterilization chamber (34) in said upper container (2), where it is heated to a predetermined temperature required for sterilization. '·> · • * '25 2. A combination of a sterilized hot water system and a combustion system, characterized in that it comprises: • · a hot water generator (1) consisting of an upper tank • · · y: (2) with a heating chamber (10) in the central region, which communicates with a combustion chamber in the lower tank (12) and a smoke duct (5) for directing smoke out of said heating chamber (13), a small additional tank (9) containing in its central region a heating chamber is communicating with a combustion chamber (13) in the lower tank (12) and a lower tank (12) containing I '35 in the central region of said combustion chamber (13) and two waste inlets (14, 16), one for small (16) ) for waste and the other (14) for large waste, said containers (2, 9, 12) being arranged to communicate with each other via said heating chambers (3, 10), a solar thermal hot water generator (32) connected to the water inlet of the lower tank (12) and located in front of said hot water generator (1), and a sterilizer (33) located in said heating chambers (10, 3) in said upper tank (2) and intermediate tank (9) inside to supply water to a sterilization chamber (34) in said upper container (2), where it is heated to a predetermined temperature required for sterilization. 3. A system according to claims 1 or 2, the pivoting device of which is further adapted to the lowering capacity (43) of the present invention, and in the case of a total of 20 lowering devices (5) i nämnda vattenmassa med en omröringsfläkt (44), och en syrereduktionsbehällare (47) kopplad med nämnda rökavlägsningsbehällare (43) med hjälp av • <ett rör och i ikenken reduktionsbehällare (47) f Inns växter! ”! 25 or three (47), with a single reduction in the number of years' *, which reduce the reduction to three years. 4. · • · • · · * · '' 4. The system according to claim 1 or 2, kannetteck- • · · V * nat av, att a därtill hör en vändbar avfalleränna 30 (17) anordnad omkring det för smätt avsedda inloppet av in this case they do not contain (12) pictures of the end-ends (14, 16). A system according to claim 1 or 2, characterized in that it further comprises a smoke extraction tank (43) designed to contain a mass of water into which the end opening of said smoke extraction pipe (5) terminates and to disperse the flue gases fed therein. an oxygen reduction tank (47) connected to said smoke extraction tank (43) by means of a pipe (49) and wherein the reduction tank (47) .. contains plants or trees (47) with which said smoke extraction tank (47) .. the exhaust gases leaving the exhaust tank are reduced to oxygen. A system according to claim 1 or 2, characterized in that it further comprises a reversible gutter (17) arranged in said lower container. (12) • · ·! formed from said two waste inlets (14, 16 around the smaller waste inlet. 30 • «· 5. A system according to claims 1, 2 or 3, comprising 35 to 1 of 1: 1; nämnda nedre behällare (12) innefattar dessutom en oljebrän- Nare. • · 14 101104 A system according to claim 1, 2 or 3, characterized in that said combustion chamber (13) in said lower tank (12) further comprises an oil burner. | A system according to claim 1, 2, 3 or 4, characterized in that any or all of said upper (2), intermediate (9) and lower (12) tanks are provided with an electric heater or heaters. 11 101104 A system according to claim 1, 2, 3 or 4, characterized in that each of said upper (2), intermediate (9) and lower containers (12) is covered on its sides and rear with an insulating material (31). 5 • · • · • · · • · · · • · · • · 12 101104 1.Combination of the system for sterilization with a system and for the preparation, kännetecknat av, Fig. 5 for the purpose of: the safety generator (1) is best used for the operation (2), and the central heating chamber (3) and the safety chamber (12) that the rack channel (5) for 10 of the racks in the upper chamber (13) is used as a reference (9), and that the lower chamber (10) in the upper chamber (10) is connected to the same (12) ), and in addition to the provisions of this Regulation (12), each of the following 15 terms and conditions (13) are also included in the reference number (14,16), and (16) in the case of a source code (14), colors näm these arrangements (2, 9, 12) are arranged, but are also available via the transfer chamber (3, 10), and sterile-20 sorting arrangements (33) are provided by said transfer order (3, 10), and sterilizing arrangements (3, 10) 33) in addition to these upscale chambers (10, 3) and in this case: v. (2) och mellanbehällare (9) för att leda vattnet i nämnda • · | Other means (2) are used in the sterilization chamber (34), up to 25 times the sterilization temperature of the sterilization chamber. • · • · • · · *. *. * 2. A combination of a system for sterilizing and • · · V * a system for sterilizing, with the help of, for 30 months: · * · .. en a safety generator (1) best used for the operation of the 9 · * · *: (2), in the central part of the room with an operating chamber * (10) in the case of an operating room (12) in the main chamber (13) as well as in the runner (5) 35 for the rack in the building area (5) 13) an account for the use of a separate chamber (9), which means that it is not possible for a single chamber to be used as a means (12), for example, a separate chamber (12), and in the case of a separate body (12), these chambers (13) are also provided with a drop-off device (14, 16), which is (16) for a drop-off and a second (14) for scratch-offs, colors (2, 9, 12) of the anordnats, att de är i förbindelse m of the safety chambers (3, 10), in which the safety of the safety chambers (32) is connected to the power supply (12) and in the case of frameworks of these safety generators (1), and in the case of 33 sterilizers these measuring chambers (10, 3), and in this case (2) and in the same way (9) for the water supply (2) are in a sterilization chamber (34), in which case the heating temperature is sterilized at 15 ° C. 6. A system according to claims 1, 2, 3 or 4, having a rotating device, comprising one or more of these belts (2), a breast (9) and a net (12) provided with electric paints or devices . 5 7. A system according to claims 1, 2, 3 or 4, which comprises a plunger of the same type (2), of the same type (2), of the same (9) and of the same type (12) on the isolation of material 10 (31). '* · ♦ · • i · • t I * · <• · • · • · · • · • · · · · • • * • · · · · · · · · · · · · · · · · <11 «4 • 4