MD4789C1 - Method and device for processing medical waste - Google Patents

Abstract

The invention relates to a method and a device for processing medical waste for disinfection and conversion of said waste into components, useful for recycling.The device, according to the invention, comprises a body (1), a hopper (2) for medical waste, a shredder (3), connected to a transport auger (6), placed in the body, on which are installed heating elements (7) and a waste-forming plate (11). At the same time, on the body of the auger (6) are mounted a condenser (15) and a gas capture system (10), equipped with a fan (16), communicating by means of pipes (13) with an additional air heating unit (12), with a gas filtration and removal unit (14) and with the hopper (2).The method, according to the invention, consists in preheating the said device and medical waste (4), loaded into the hopper (2) with sealing and regulating the air flow in the device, shredding the waste, transporting, heating thereof to a temperature of 190°C and simultaneously squeezing the shredded waste with obtaining the necessary shapes depending on the pressure and the size of the outlet from the body of the auger (6), capture of condensed steam, filtration and discharge of released gases into the atmosphere.

Description

The invention relates to a device and process for processing medical waste for disinfecting and transforming said waste into useful components for recycling, for example in the form of melted plastic mass, which can be used for the production of various plastic products.

Since medical waste is a carrier of infections, it must be disinfected. The respective infectious wastes are secondary products following medical or veterinary treatment. Several categories of waste are known for which the given process and device is intended:

1. Sharp objects, which include cutting-cutting waste, such as: needles, syringes, blades, scalpel, catheters, droppers, etc.;

2. Waste whose collection and disposal are subject to special measures regarding the prevention of infections, including infectious waste, such as: gloves, probes, compresses, dressings and other single-use products.

Various medical waste processing procedures are known, which consist of long-term cyclical realization and maintenance of products at different stages in different sections, at different temperatures with high values and high energy consumption. After disinfection, the sections are washed with a chemical disinfectant solution, which reduces the duration of their operation, and they become waste, which needs to be processed. As a result of the processing of medical waste, a considerable volume of gases, vapors, and pungent solutions is formed, which needs to be burned or decomposed.

A process of thermal decomposition of waste containing polyvinyl chloride is known, which consists in shredding the polymer waste, subject to processing, transporting it in a reactor together with a fraction of oil for pyrolysis, heating the solution up to a temperature of about 210 °C, at which hydrogen chloride (HCl) is released and released from the process, transport of the remaining solution whose temperature rises to 480-600°C into the reactor, decomposition of the hydrocarbon mixture into fractions, condensation and return of part of the fraction heavy oil, required for waste processing, in the halogenation reactor to obtain a mixture of polymer granules and heavy oil [1].

The disadvantages of the given process consist in its long-term cyclic realization with the long-term maintenance of waste at different stages, the need to use the condensation and fractionation system to obtain a heavy fraction of oil, a fact that guides the entire process of thermal processing and decomposition of waste to obtain energy, but not to disinfect this waste. Also, to carry out the procedure, it is necessary to use additional energy, at the same time, the gas filtration system is missing, which leads to environmental pollution. After carrying out the process at high temperatures of up to 250°C, approx. 10% of chlorine is released from the initial waste, within the temperature limits of 250-300°C, approx. 37% of chlorine is released, and at temperatures above 350°C, the total mass of emitted chlorine corresponds to 88.4% of the initial waste content.

The closest solution to the claimed process is a process of using biological medical waste which consists of loading medical waste into the incineration chamber, sealing it, preventive heating of the waste in the upper part of the use chamber, burning of solid residues in the lower part from the bottom of the chamber, neutralization of released gaseous products, filtering and evacuation of released gases into the atmosphere [2].

The disadvantages of this process consist in its long-term cyclic realization with the maintenance of waste at different stages, at different temperatures, which leads to high energy consumption. As a result of the process, a considerable volume of gases, vapors and harmful solutions are formed that need to be burned or decomposed.

The closest solution to the claimed device is a medical waste processing device, which consists of a hopper, a lifting device, a shredding device, a conveying device, a microwave generator, a sterilization chamber, a download device and a control panel. A safety chamber is formed between the shredder and the sterilization chamber. A gas detection device is installed on the side surface of the security camera. The discharger is equipped with a sorting device, which is fixed at its discharge end. Also, the sterilization chamber of the device is equipped with a fire extinguisher [3].

The disadvantages of this device are the complicated construction, which requires additional technological phases for the sorting of medical waste, before and after sterilization, and the narrow spectrum of the microwave generator used for sterilization, does not ensure the disinfection of metallic objects such as: needles of syringes and droppers, scalpels disposable with metal blade and plastic handle.

The problem that the invention solves consists in simplifying the stages of the process and the construction of the device, reducing the cost price for the processing and disinfection of medical waste, as well as ensuring the ecological protection of the environment.

The device for processing medical waste, according to the invention, removes the disadvantages mentioned above in that it contains a housing, with a hopper for medical waste, hermetically closed with a lid, and fixed on a shredding device, mounted on the housing, and united with an actuation mechanism, fixed on the casing, and through an intermediate hopper with a conveyor screw, which is executed with a variable pitch, located in a body, equipped with an inlet and a waste outlet, and united with an actuation mechanism, fixed on the housing. Heating elements are installed on the body of the auger and, from the side of the waste outlet, a plate for their formation, at the same time on the body of the auger, on the side of the waste outlet, a gas capture system and a condenser with a condensate collection block. The gas capture system is equipped with a fan, which communicates through pipes with an additional air heating block, with a gas filtration and exhaust system and with the bunker.

The process of processing medical waste, according to the invention, removes the disadvantages mentioned above in that it consists in the prior heating of the mentioned device and the medical waste loaded in the hopper, with the sealing and regulation of the air flow in the device, the shredding of the waste into pieces with uniform dimensions of 10-20 mm, transportation, heating to a temperature of 190° and simultaneous pressing of the shredded waste to obtain the necessary shapes depending on the pressure values and the size of the outlet in the body of the conveyor screw. Capturing the condensed steam, filtering and venting the released gases into the atmosphere.

The technical result of the invention consists in ensuring the ecological protection of the environment in the process of processing and disinfecting medical waste, as well as simplifying the stages of the process and the construction of the device.

The invention is explained by the drawings in fig. 1 and 2, which represent:

- fig. 1, frontal view of the medical waste processing device;

- fig. 2, side view of the medical waste processing device.

The medical waste processing device contains the housing 1 (fig. 1, 2), on which the hopper 2 is installed, in which the medical waste 4 is loaded, hermetically closed with the lid 17, and fixed on the shredding device 3, mounted on the housing 1 , and the drive mechanism 8, fixed on the casing 1. The shredding device 3 is executed with several rows of knives for shredding the waste 4. The shredding device 3 is connected through the intermediate hopper 5 to the conveyor screw 6, which is executed with variable pitch , located in the body, equipped with the waste inlet and outlet, and united with the drive mechanism 9, fixed on the casing 1. On the body of the auger 6 are installed heating elements 7 and the plate 11 for the formation of waste, installed from the side the waste outlet. On the body of the auger 6, on the side of the waste outlet, the gas capture system 10 and the condenser 15 with the condensate capture block are mounted. The gas capture system 10 is equipped with the fan 16, which communicates through the pipes 13 with the additional air heating block 12, with the gas filtration and exhaust system 14 and with the bunker 2.

The medical waste processing device works in the following way.

First, the device and medical waste 4 are heated with the help of the heating elements 7 and the additional air heating block 12, the waste 4 is usually not sorted, but brought in polyethylene bags with a predetermined volume and loaded into the hopper 2, from the top by opening the cover 17 and closing it with sealing and adjusting the air flow in the device. Gradually the waste slides axially towards the shredding device 3, which has the ability to grab the waste 4 and shred it. In the given case, shredding means obtaining the ground material into pieces with uniform dimensions that do not exceed the dimensions of approximately 10-20 mm. Shredding device 3 is equipped with two rows of waste shredding knives 4, which rotate at 50 revolutions per minute, being operated by an actuation mechanism 8. After shredding medical waste 4, its volume is reduced by approximately two times . After which the shredded pieces of infectious medical waste 4 fall into the intermediate hopper 5, from which they are retrieved with the help of the auger 6, which is in a cylindrical body, thus ensuring the transport of the ground waste in the axial direction. Gradually the waste, moving in the axial direction of the screw 6, is heated to a temperature of 190° and simultaneously pressed. Due to the variable pitch of the screw 6, the pressure values and the size of the waste outlet, the formation of waste of the desired shape and density takes place (small section in combination with high pressing pressure will form products of high density, and vice versa).

As it moves along the body of the conveyor screw 6, releases occur, which include steam and gases (CO2, CO, H2S, NH3, HCl). The steam and gases obtained when heating the waste are evacuated through the gas capture system 10 and the condenser 15, which through the condensate capture block condenses the steam, and the gases with the help of the fan 16 through pipes 13 and the filter system are evacuated from the device.

As can be seen from fig. 1 the device provides a seal that prevents the leakage of materials and gases both at the entrance and at the exit. To control the air flow, the gas filtration and exhaust system 14 and the pipes 13 are used. With the help of the additional air heating block 12, a sufficient temperature is maintained in the pipes 13 for the destruction of viruses. In the pipes 13, air filters are placed transversely that prevent the exit of bacteria. The outlet pipes regulate the transfer of air flow into and out of hopper 2. To regulate the air flow, the fan 16 is used, it creates negative gas pressure, which prevents the exit of the polluted gas from the device.

The practical realization of the procedure is argued by the research, which was carried out on an experimental device with electric heating with a temperature verification system. Polyvinyl chloride (PVH) granules with dimensions of 2-3 mm were used as research samples, pieces of PVC pipes with dimensions of 2-3 mm were used as elements of influence of the filling.

Following the experimental research, the conclusion was formulated that, when medical waste is heated up to a temperature of 350°C, the initial mass of the waste decreases by approx. 65%, including 86.4% of the initial mass of HCl, when heated up to a temperature of 550°C, the mass of HCl released reaches the value of 99.5%.

The heating of the waste following the experiment was carried out in stages with temperatures of: 250, 300, 350°C. At each stage, the gases were passed through a gas analyzer, where the volume of chlorine (Cl) and the volume of hydrogen chloride (HCl) were then determined.

The composition of the initial product is presented in table 1.

Table 1

Waste composition Composition, % mass Amount of heat absorbed during the heating process Q, MDj/kg Carbon (C) Hydrogen (H) Chlorine (Cl) Water vapor (Ad) others PVH granules 40.8 5.2 48.7 0.4 - 22.6 PVH pipe pieces 38.6 4.2 46.0 10.06 0.4 21.2

In relation to the fact that the chlorine substance is emitted in larger quantities compared to the other substances, it was considered after the experiment to expose only the data of the chlorine substance, which in turn being extremely toxic, and in connection with hydrogen forms chloride of hydrogen (HCl).

It was established that when heating the waste up to a temperature of 250°C, approx. 10% of chlorine is removed from the total volume of chlorine from the initial mass of waste, in the temperature range of 250-300°C, approx. 37% of chlorine is released from the volume total chlorine from the initial mass of waste, at a temperature of 350°C approx. 88.4% of chlorine is released from the total volume of chlorine from the initial mass of waste. From these experimental researches it was concluded that the temperature of 190°C is more rational and optimal, which ensures the sterilization of medical waste and reduces the concentration of released gases, at the same time a greater mass of medical waste is obtained, which serves as raw material for industrial products.

Thus, the purpose of the given invention, which consists in ensuring the simplification of the stages of the medical waste disinfection process, reducing the cost price of the medical waste processing device and ensuring ecological protection, is achieved by:

- reducing the emission of harmful gases into the atmosphere, excluding the alkaline aqueous solution for washing the device compartments;

- the practical recycling of organic components at about 90% of the initial volume of waste and of metal at about 100%;

- reduction of the gases emitted following the processing of medical waste, ultimately ensuring an increased protection of the environment.

The economic effect is ensured due to the reduction of the mass and dimensions of the device, thus reducing its cost price, at the same time, the duration of operation of the device is increased due to the use of effective temperature in the waste melting area and the reduction of corrosion due to the impact of gases and salts emitted in the process waste processing. The compensation of energy consumption takes place, due to the reconversion of part of the gases emitted during the melting of waste, which are directed to the initial area of the process. The economic effect is obtained to a large extent due to the reuse of waste as raw material for the formation of products, as for example for plastic elements for sewerage networks.

1. RU 2556934 C2 2015.07.20

2. RU 2645057 C1 2018.02.15

3. CN 200987791 Y 2007.12.12

Claims (2)

1. Device for processing medical waste, which contains a housing (1), with a hopper (2) for medical waste, hermetically closed with a lid (17), and fixed on a shredding device (3), mounted on the housing (1), and united with an actuation mechanism (8), fixed on the casing (1), and through an intermediate hopper (5) with a conveyor screw (6), which is executed with variable pitch, located in a body, equipped with an inlet and a waste outlet, and united with an actuation mechanism (9), fixed on the casing (1); heating elements (7) are installed on the body of the auger (6) and, on the side of the waste outlet, a plate (11) for their formation, also on the body of the auger (6), on the side of the waste outlet, are mount a gas capture system (10) and a condenser (15) with a condensate capture block; the gas capture system (10) is equipped with a fan (16), which communicates through pipes (13) with an additional air heating block (12), with a gas filtration and exhaust system (14) and with the bunker (2). 2. Process for processing medical waste, which consists in preheating the device, defined in claim 1, and the medical waste (4) loaded into the hopper (2), with sealing and regulation of the air flow in the device, shredding the waste into pieces with uniform dimensions of 10-20 mm, transportation, heating to a temperature of 190°C and simultaneous pressing of the shredded waste to obtain the necessary shapes depending on the pressure values and the size of the outlet in the body of the conveyor screw (6); capture of condensed vapors, filtering and venting of released gases into the atmosphere.