FI100968B - Method for treating biodegradable waste and composting equipment - Google Patents

Description

100968

The invention relates to a process for the treatment of biodegradable waste as defined in the preamble of claim 1, and to a process for the treatment of biodegradable waste and to a composting apparatus for the treatment of biodegradable waste.

The invention also relates to a composting apparatus as defined in the preamble of claim 2.

As is well known, municipal wastewater, calculated directly to nature, has very strong negative effects. At present, toilet waste is discharged by means of rinsing water through a sewer to a wastewater treatment plant and the water further treated in this way into the water system. However, especially in sparsely populated areas, there is a need to replace sewer systems with dry toilet systems that do not use 15 clean water to transport both liquid and solid biodegradable household waste and clearly aim to limit transport to a tank a short distance from a dry toilet.

Numerous biological dry toilets and dry toilet systems are already known. The dry toilet can be implemented in such a way that the toilet seat includes a composting space, such as e.g. FI patent publication 89259 discloses. The problem then, however, is that the toilet seat becomes relatively complicated and expensive. Arranging such toilet seats in a terraced or apartment building also requires its own special solutions, e.g. ventilation and emptying of the composting space. Another solution is one in which the toilet seats have a simple structure and in which the aim is to transfer the toilet waste without additional water to the waste collection container through the waste channel, e.g. FI patent application 900 572 discloses. The problem with such systems is most obviously odors and also the collection tank system. The collection containers are to be filled, replaced with empty containers and taken for emptying. This is not an efficient and good arrangement compared to current water toilet systems, for example. It is advantageous to aim for a system 30 for the treatment of biodegradable waste, in which the waste is collected through dry toilets and other waste collection points directly in the composting tank for further treatment, such as e.g. FI patents 54594 and 54595 contain e.g. Fig. The problem with dry toilet systems in general and similar biodegradable waste treatment facilities in general is the ratio of organic solid waste to liquid waste; the proportion of liquid waste should be reduced before the actual 2 100968 composting. Otherwise, the conditions for successful composting are reduced; the waste to be composted must be an airy waste mass in which aerobic bacteria have good operating conditions. Efforts have been made to find a solution to this problem, e.g. by separating the solid waste to be composted from the liquid waste-5, e.g. in connection with toilet seats or later by means of filtration systems arranged in connection with the collection tank. It should be noted, however, that a workable and reliable method and arrangement, in particular to address the above problems, has not been implemented in practice.

The invention relates to a new method for the treatment of biodegradable waste, the particular purpose of which is to remove excess water from the waste sludge in order to increase its dry matter content before the actual composting.

The method according to the invention for the treatment of biodegradable waste is characterized by the elements set out in the characterizing part of claim 1.

The invention also relates to a composting apparatus for carrying out a method for treating biodegradable waste. This composting plant is characterized by the features set out in the characterizing part of claim 2.

The advantage of the invention is that the method makes it possible to implement an efficient, continuous, water- and energy-saving solution, above all for the treatment of organic biodegradable waste.

A further advantage of the invention is that, on the basis of the method, a composting plant can be implemented in which the collection and treatment of organic waste can be carried out without interruption at all times, in which waste is also composted, especially in the same plant. The composting apparatus according to the invention is provided in connection with a pretreatment tank, such as a collection tank: a vacuum device for generating a vacuum, a pretreatment tank and a pretreatment heating device comprising a heat exchanger, in particular a heat pump, for removing excess water from the sludge.

In the following, the invention and its other advantages will be described with the aid of the accompanying drawing, which schematically shows the most preferred composting apparatus according to the invention.

3,100968

In this application, the composting apparatus comprises a pre-treatment tank 1 to which an inlet duct 2 is connected. A number of toilet seats 3 and e.g. 1 most preferably without rinsing water or with a very small dose of rinsing water.

Thus, the waste sludge is collected from one or more sources 3, 4 in the pretreatment tank 1. In this application, the pretreatment tank 1 comprises two collection tanks 6, 7. Waste waste sludge is collected in the first collection tank 6, while already collected waste sludge is pretreated in the second collection tank 7. The inlet duct 2 is connected to the first collecting tank 6 and this to the second collecting tank 7 via the connecting duct 8. A transfer device, such as a pump 9, is arranged in the connecting duct 8 for transferring waste sludge from the first collecting tank 6 to the second collecting tank 7.

A heating device 10 is arranged in connection with the pretreatment tank 1, in particular the second collection tank 7. The heating device 10 comprises a heat exchanger 11 arranged between the composting tank 21 and the pretreatment tank 1, in particular the second collection tank 7. The purpose of the heating device 10 is to remove excess water by means of heat by evaporation from the waste sludge in order to raise its dry matter content to the desired level. By means of the heat exchanger 11, the heat generated in the composting process 20 is transferred to the pretreatment tank 1, in particular to the second collection tank 7, in order to evaporate the excess water from the waste sludge before the actual composting process.

• The pretreatment tank 1, in particular the second collecting tank 7, is further connected via a channel 15 and a transfer device, such as a pump 16, to a mixing tank 17. Mixing means 18 are arranged in this mixing tank 25. The mixing means 18 include e.g.

rotating mixing arms in the mixing tank 17. The composting apparatus further comprises a device 19 for adding the bark and the corresponding additives to the waste slurry fed to the mixing tank 17. These devices 19 include, for example, a feed container 20, through the outlet opening of which a shell or the like can be dispensed 30 into the mixing container 17 in a suitable amount at a time.

The composting apparatus further comprises a composting tank 21 or, in general, a suitable composting space in which good conditions are provided for the composting process. The mixing tank 17 is connected to the composting tank 21 by means of a suitable transfer device, e.g. a conveyor such as a screw conveyor 22, for transferring the compostable waste mass from the mixing tank 17 to the composting tank 21. The composting tank 21 is provided with suitable openings 23 for sufficient air supply. The composting tank 21 is further provided with an outlet 24 for removing the finished compost from the composting tank.

The composting tank 21 and the mixing tank 17 can also be combined into one and the same composting tank, composting space or the like.

The heat exchanger 11 belonging to the heating device 10 is arranged between the composting tank 21 and the pretreatment tank 1 in the following manner. The first circuit of the heat exchanger 11, i.e. the heat intake circuit 12, is arranged in connection with the composting tank 21, while the second circuit, i.e. the heat transfer circuit 13, is arranged in the pretreatment tank 10, in particular in the second collection tank 7. The heat exchanger 11 further comprises a heat pump 14 and its in turn to the heat transfer circuit 13.

The composting apparatus further comprises a vacuum device 25, such as a vacuum pump, for generating a vacuum relative to normal atmospheric pressure in a pretreatment tank 15 1, in particular a second collection tank 7, which treats the collected waste sludge by heating to remove excess water. The vacuum device 25 is connected via an air duct 26 to a second collecting tank 7.

The composting apparatus includes a control and monitoring unit 27 connected to suitable sensors, such as temperature sensors, and actuators to other composting apparatus 20 to control and monitor its operation.

The composting apparatus according to the invention operates as follows. When the first collection tank 6 belonging to the pretreatment tank 1 is filled with waste sludge, the control and monitoring unit 31 commands the pump 9 to transfer the waste sludge to the second collection tank 7. When the appropriate amount of waste sludge has been transferred to the second collection tank 7, the pump 9 25 is stopped. The vacuum pump 25 is then started and a suitable vacuum, such as e.g. 0.5 bar, is placed in the second collection tank 7. It is assumed that the composting tank 21 contains a mixture of waste sludge and additives such as bark. mass. In composting processes, as is known, heat is generated. The heat exchanger 11 utilizes the heat of the composting process taken through the heat suction circuit 12 by transferring it by means of a suitable heat transfer medium through a heat pump 14 at an elevated temperature to the second collection tank 7 to the heat transfer circuit 13. The evaporation process is intensified by utilizing the vacuum formed in the collection tank 6. In this case, for example, at a pressure of 0.5 bar arranged in the collecting tank 7, the water boils already at a temperature of 40 °, from which low temperatures can be effectively used to evaporate water from the waste sludge. Since the dry matter content of the waste sludge in the initial situation may be of the order of 20% and when the goal is preferably to achieve a dry matter content of at least 50%, an efficient and energy-saving drying process by means of a sub-5 pressure device 25 and a heat pump 14 is required. When the desired dry matter content of the waste sludge is reached, the vacuum device 25 is stopped and normal air pressure is applied to the second collection tank 7. Thereafter, a pump 16 is started by means of the control and monitoring device 27 to transfer the dried waste sludge to the mixing tank 17. In the mixing tank 10 17 additives, such as shell, are added to the waste sludge from the feed tank 20 to provide an airy waste mixture. The dried waste slurry and additives are mixed in a mixing tank 17 by mixing means 18, after which the waste mass is transferred by a screw conveyor 22 to a composting tank 21, where the waste mixture is allowed to compost in a manner known per se.

The invention has been described above mainly in the light of one of its preferred application examples, but it is clear that the invention can be applied in many ways within the scope of the inventive idea defined by the appended claims.

Claims (4)

100968 A method for treating biodegradable waste, comprising removing water from a waste slurry utilizing the heat generated in the composting process to increase its dry matter content, then mixing the additive, such as a crust, with the waste slurry to form an airy waste mixture and composting the waste mixture in a manner known per se. that the water is removed from the waste sludge in a separate space (7) to which heat is transferred from the actual composting process and to which space (7) a vacuum is monitored to enhance the evaporation of the water. 10 A composting plant comprising - a pretreatment tank (1) in which the sludge is collected from one or more sources (3, 4); - a heating device (10) for removing water from the waste sludge to increase its dry matter content 15; - mixing means (18) for mixing an additive, such as a shell or the like, in the waste slurry to obtain an airy waste mixture; and - a composting tank (21) or the like, in which the waste mixture is allowed to compost in a manner known per se, characterized in that the pretreatment tank (1) comprises at least two collection tanks (6, 7), the first collecting tank (6) collecting waste sludge and the second collecting tank (6). 7) pre-treating the already collected waste sludge, and in connection with the second collecting tank (7) a heating device (10) is arranged, which heats the waste sludge in the collection tank (7), and the heating device (10) comprises a heat exchanger (11) arranged between the composting tank (21) and the second collecting tank (7), by means of which a heat exchanger (11) transfers the heat generated in the composting process to the second collecting tank (7) by means of a heat exchanger (11) and a vacuum device (25) is arranged in connection with the second collecting tank (7). a vacuum pump, to create a vacuum in another collecting tank n (7) to enhance water evaporation. 30 Apparatus according to claim 2, characterized in that the heat exchanger (11) comprises a heat pump (14). Apparatus according to claim 2 or 3, characterized in that the composting apparatus comprises a mixing tank (17) or the like, into which the dried waste sludge is transferred from the second collection tank (7), and in which mixing means (18) for additives such as a shell or the like for mixing with the waste slurry to provide an airy waste mixture. 7 100968