BR102016010600A2 - industrial plant and process for making material by recycling inert waste from the melting system - Google Patents

Abstract

industrial plant and process for making material by recycling inert waste from the melting system characterized by inert waste that goes to a mill where it is ground into a homogeneous granulometry product which is deposited in trays arranged on a lifting table, following to a loading rack and then led to a heating press at a temperature of 200 ° C, where they are pressed for approximately 15 minutes to form impenable plates, which are directed to a cooling press, following to a discharge table where the plate repair and storage.

Description

“INDUSTRIAL PLANT AND PROCESS FOR MAKING MATERIAL THROUGH RECYCLING INERT WASTE FROM THE FUSION SYSTEM”. 001 This patent application refers to an "INDUSTRIAL PLANT AND PROCESS FOR MAKING MATERIAL THROUGH INERT WASTE RECYCLING" which was developed to provide an industrial plant via thermal fusion system, intended for the process of reusing inert waste, for the production of materials for various uses, through the final disposal environmentally correct, excluding their random disposal in the environment. 002 Said Inert Waste Recycling Plant, resulting from the process of decharacterization and separation of electro-electronic materials, among others, called "technological waste", characterized as inert waste: various plastics, rubber, glass, foam, Styrofoam, fiber, ACM (Aluminum composite material), among them the Tetrapack packaging and Blister etc, has an efficient thermal fusion system, which fuses inert residues, in the form of plates, totally impermeable, which can be used in the manufacture of various products, including There are sidings, pallets, decks, vases, dumpsters, fence posts, playgrounds, kiosks, various furniture etc.

State of the Art 003 Environmental legislation requires compliance with standards for the proper disposal of solid waste of all classes in order to prevent imminent environmental collapse if severe measures are not taken and implemented. In this context, several directions or strands fit, with emphasis on landfills, composting and incineration. Basically, incineration is based on the combustion of waste / waste, being a technique that is acceptable to some extent, but demands high investments explained by the need for strict control of the emission of pollutant gases generated by combustion, especially in the case of toxic waste. A priori, incinerators not only solve the toxic waste into other forms, some with greater toxicity than the original material. 005 An effective solution for the reuse of this difficult to decompose inert waste that, so far, had no environmentally correct destination and undoubtedly an essential system in the prevention of pollution and preservation of the planet and its species. 006 According to the NBR-10 004 standard of ABTN - Brazilian Association of Technical Standards, the wastes are classified as: Class I - Hazardous: those that present risks to the environment and require special treatment and disposal, or that present risks to the environment. public health. Non-Inert Class II: These are basically wastes with the characteristics of household waste. Class III - Inert: Waste that does not degrade or decompose when disposed of on the ground, is waste such as construction debris, demolition debris, stones and sand removed from excavations. Waste included in Classes II and III may be incinerated or disposed of in landfills, provided they are prepared for such purpose and are subject to environmental controls and monitoring. Waste Class 008 I - Hazardous, may only be disposed of in landfills constructed specifically for such waste, or must be burned in special incinerators. This class includes waste from rural areas, basically pesticide or herbicide packaging, and waste generated in the chemical and fan-pharmaceutical industries. Another classification of waste by origin can also be presented: household, commercial, sweeping and open market waste, health and hospital services; ports, airports and iron and road terminals, industrial, agricultural and rubble. 010 The description of these types and their responsibility for their management are as follows: 011 Household: The one that originates from the daily life of households, consisting of food sectors (such as fruit peel, vegetables, etc.), spoiled products, newspapers and magazines, bottles, general packaging, toilet paper, disposable diapers and a wide range of other items. It also contains some waste that may be toxic. Commercial: 012 The one originated from various commercial and service establishments such as supermarkets, banking establishments, shops, bars, restaurants etc. Waste from these establishments and services has a strong component of paper, plastics, miscellaneous packaging and employee cleanliness such as paper towels, toilet paper, etc. Public: These are those originating from the services of: urban public cleaning, including all road sweeping residues, beach, gallery, stream and land cleaning, tree pruning waste etc .; cleaning of fairgrounds, consisting of miscellaneous vegetable waste, packaging etc. Health and hospital services: These are septic wastes, ie containing or potentially containing germ pathogens. They are produced in health services such as hospitals, clinics, laboratories, pharmacies, veterinary clinics, health clinics, etc. These are needles, syringes, gauze, bandages, cotton, removed organs and tissues, culture media and animals used for testing, coagulated blood, disposable gloves, expired drugs, synthetic resin instruments, X-ray photographic films, etc. Aseptic waste from these sites, consisting of paper, food preparation waste, general cleaning waste (powders, ashes, etc.), and other materials that do not come into direct contact with patients or the previously described septic waste, are considered to be household . Ports, airports, bus and rail terminals: they constitute septic waste, ie those that contain or potentially contain pathogenic germs, brought to ports, bus terminals and airports. Basically, they originate from hygiene material, personal cleanliness and food scraps that can carry diseases from other cities, states and countries. Also in this case, aseptic waste from these sites is considered as household waste. 013 Industrial: One originated in the activities of various branches of industry, such as metallurgical, chemical, petrochemical, stationery, food etc. Industrial waste is quite varied and can be represented by ashes, iodine, oils, alkaline or acidic residues, plastics, paper, wood, fibers, rubber, metal, slag, glass and ceramics. This category includes the vast majority of waste considered toxic, as well as ACM (Aluminum Composite Material), including the Tetrapack packaging and the Blister, which is the name of the carton pack. 014 Composed of a cardboard or plastic film that serves as the basis for the fixation of the product within a plastic blister (the blister) usually shaped like the contours of the product. The word blister comes from English and means bubble, which is shaped by Vacuum Forming or Thermoforming processes using PVC or PET plastic films, with thicknesses ranging from 0.15 mm to 0.60 mm. These two materials offer better transparency than other plastics. The plastic is adhered to the carton by the Blister Varnish using a blister sealing machine. 015 Blister packs are used to pack products such as toothbrushes, radio batteries, small toys, electrical and electronic components and a multitude of other products. There are double-sided blister packs with front or back or lid and bottom, also known as blister clamp shell. 016 Some call it a blister bag. Agricultural: Solid residues from agricultural and livestock activities, such as fertilizer packaging, pesticides, feed, crop residue, etc. In various regions of the world, this waste is already a growing concern, notably the huge amounts of animal manure generated on intensive livestock farms. 017 Also the packaging of various agrochemicals, generally highly toxic, have been the target of specific legislation, defining the care in their final destination and sometimes co-responsible the manufacturer of these products. Rubble: Residues from construction: demolitions and remains of works, excavation soils etc. Rubble is generally an inert, reusable material. 018 We have estimated data regarding the decomposition time of the Waste deposited in landfills or in different places not suitable for disposal, environmentally correct: Paper: 3 to 6 months; Journal: 6 months; Wooden Toothpick: 6 months; Cigarette Stump: 20 months; Nylon: More than 30 years; Gum: 5 years; Pieces of Cloth: 6 months to 1 year; Biodegradable Disposable Diaper: 1 year; · Common Disposable Diaper: 450 years old; Plastic Cup: 50 years old; Steel Can: 5 years; Bottle Cap: 150 years old; Styrofoam: 8 years; Plastic: 100 years; Plastic Bottle: 400 years old; Tire: 600 years old; Glass: 4,000 years. 019 In the case of ocean disposal, the estimated time of Waste Decomposition varies according to the same: Paper Towel: 2 to 4 weeks; Cardboard Box: 2 months; Matchstick: 6 months; Fruit Remains: 1 year; Journal: 6 months; Disposable Diaper: 450 years old; Biodegradable Disposable Diaper: 1 year; Steel Can: 10 years; Aluminum Can: Does not corrode; Cigarette Butt: 2 years; Plastic Cup: 50 years old; Plastic Bottle: 400 years old; Condom: 300 years old; Piece of Painted Wood: 13 years old; Styrofoam Buoy: 80 years old; Nylon Line: 650 years; Glass: indefinite time; Radioactive Waste: 250 years or older. 020 Regarding the legal aspect we have the Law No. 12.305 / 10, which establishes the National Policy of Solid Waste (PNRS) is very current and contains important instruments to allow the necessary advance to the country in facing the main environmental, social and economic problems arising from the improper management of solid waste. It provides for the prevention and reduction of waste generation, with the proposal of the practice of sustainable consumption habits and a set of tools to increase the recycling and reuse of solid waste (which has economic value and can be recycled or reused). ) and the environmentally sound disposal of waste (which cannot be recycled or reused). It establishes the shared responsibility of waste generators: manufacturers, importers, distributors, traders, citizens and holders of urban solid waste management services in Logistics. 021 Reverse waste and post-consumer packaging. It creates important goals that will contribute to the disposal of dumps and institutes planning tools at the national, state, micro-regional, inter-municipal and metropolitan and municipal levels; It also requires individuals to draw up their Solid Waste Management Plans. 022 It also places Brazil on a level playing field with the major developed countries in terms of the legal framework and innovates with the inclusion of waste pickers in both Reverse Logistics and Selective Collection. In addition, PNRS instruments will help Brazil achieve one of the goals of the National Climate Change Plan, which is to achieve a waste recycling rate of 40 ° / o in 2016. 023 The current state of the art anticipates some documents patents dealing with solid waste treatment, such as PI 0104060-0 "Process of Incineration of Emission Products from Industrial Waste Production". Provides a new incineration temperature control process in response to changes in emission products and waste streams results in optimal and reliable control of the incineration process and resulting incineration emissions, capital and operating costs are significantly reduced. , as a result. 024 PI 0601690-1 "Integrated System for Solid Waste Treatment and Disposal" which aims to integrate its collection, treatment and disposal processes; eliminate the generation of environmental liabilities; increase the efficiency and effectiveness and quantity of reusable products during and after the destination route. It entails the reception of waste in the treatment plant; pre-selection of the same waste; the crushing of organic material; accelerated composting; incineration; the treatment of gases, ashes and liquid effluent; and the generation of raw materials and products reusable by society. 025 PI 0803036-7 "Process for Plasma Technology Reactor-Based Solid Waste Treatment" has a traditional configuration in the arrangement of the set comprising: combustor (furnace, combustion chamber and reactor or burner), afterburner, treatment gas and exhaust (chimney). This process, however, differs from the others by its original characteristics, being the most important the use of reactor with claimed plasma technology. 026 The above documents anticipate systems / equipment of considerable size, even when comparing plasma models, and in the first two cited, which work with combustion, there is excessive generation of gases, which explains the advantageous dimensions and high investment in the system. filtering is not always effective. The present invention is based on the total reuse of inert waste, such as miscellaneous plastics, rubber, foam, Styrofoam, fiber, acrylic, blisters, glass, etc., arising from the process of de-characterization and separation of technological waste. The resulting material comes in the form of completely impermeable plates that can be used in the manufacture of various products, including sidings, pallets, vases, fence posts, playgrounds, kiosks, various furniture etc. An innovation with regard to materials that, after reprocessed, become raw material for the manufacture of new products. 028 The flow charts presented at the end of this report demonstrate, step by step, the process of recycling inert waste such as miscellaneous plastics, rubber, foam, Styrofoam, fiber, acrylic, blisters, glass, etc. from the decharacterization process and technological waste separation. 029 The sequence shows the steps developed in the industrial plant, via thermal fusion system, intended for the process of reusing inert waste, for the production of materials for various uses, through the final environmentally correct disposal, excluding their random disposal in the environment. environment: 1. Operate control panels and check operation. 2. Feed the mill with plastic casings and / or various inert materials. 3. Distribute the ground plastics and / or inert waste to the tray. 4. Raise the shape to the load rack. 5. Bring the pan to the heating press at 200 ° C. 6. Press the mold, wait 15 minutes. 7. Transfer the form to the cooling press, where two operators will be required for this step. 8. Bring the tray to the unloading table. 9. Refill the plates. 10. Store the plates for later manufacture of various products. 030 In order to obtain a perfect understanding of what has been developed, illustrative drawings are attached to which numerical references are made together with the following detailed description, where: 031 Figure 1 shows a schematic plan view. 032 As the figures and their details illustrate, the “INDUSTRIAL PLANT AND PROCESS FOR MAKING MATERIAL THROUGH INERT WASTE RECYCLING” is comprised of inert waste (1) following to a mill (2) where it is crushed into a homogeneous particle size product (3) which are deposited in trays arranged on a lifting table (4), following to a load rack (5) and subsequently conveyed to a heating press (6) at a temperature of 200 ° C. , where they are pressed for approximately 15 minutes forming impermeable plates (7), which are directed to a cooling press (8), following to a discharge table (9) where the plates (7) are drawn and stored in a compartment. (10). Based on what is described and illustrated, we can see that the “INDUSTRIAL PLANT AND PROCESS FOR MAKING MATERIAL THROUGH INERT WASTE RECYCLING” has enormous advantages, as the present invention is, as is clear from the above explanation. Exactly solve the serious problem of the environment and the inappropriate disposal of inert waste and, above all, give the environmentally correct disposal of this type of waste. 034 Even because, effective awareness of the need for reuse is one of the most important factors in this new stage for environmental protection, as it is not part of the culture of most people, issues that may require any kind of personal effort in favor of the community. . 035 Normally one sees the human being wanting more and more comfort and modernity, without analyzing the future price for the next generations regarding the quality of life. Any project aimed at environmental protection will not be successful if there is no awareness of all the people involved, the community, the businessmen, the rulers, in short, of all human beings, because the environment is for everyone. 036 By meeting all the requirements that define the invention patent, the following claims being as follows.

CLAIM

Claims (2)

1- “INDUSTRIAL PLANT AND PROCESS FOR MAKING MATERIAL THROUGH RECYCLING INERT WASTE FROM THE FUSION SYSTEM” characterized by inert waste (1) going to a mill (2) where it is ground to a homogeneous particle size product (3 ) which are deposited in trays arranged on a lifting table (4), following to a load rack (5) and subsequently led to a heating press (6) at a temperature of 200 ° C, where they are pressed for approximately 15 minutes conforming. waterproof plates (7), which are directed to a cooling press (8), following to a discharge table (9) where the plates (7) are drawn and stored in a compartment (10). 2- “INDUSTRIAL PLANT AND PROCESS FOR MAKING MATERIAL THROUGH RECYCLING INNER WASTE FROM THE FUSION SYSTEM” characterized by the resulting material set up totally impermeable plates, which can be used in the manufacture of various products, including sidings, pallets, vases, fence posts, playgrounds, kiosks, miscellaneous furniture etc., which can be reprocessed, becoming raw material for the manufacture of new products.