BR102013001140A2 - FIXED AND MOBILE PLANT FOR PROCESSING AND CARBONIZATION OF SOLID, PNEUMATIC AND URBAN SOLID WASTE WITH ELECTRIC POWER GENERATION - Google Patents

Abstract

FIXED AND MOBILE PLANT FOR PROCESSING AND CARBONIZATION OF SOLID, PNEUMATIC AND SOLID WASTE WITH ELECTRIC POWER GENERATION ", comprised of a main body formed from reception silos coupled to industrial crushers, which transform the solid waste into particles with granules in solid particles. from 2 to 4 cm, which are conducted through conveyor ducts with internally connected helical threads through feeding openings arranged in the upper front section, with hermetically closed and oxygen-free fixed pyrolysis chambers, which promote the biomass carbonization in the strip temperature from 400 to 500 degrees Celsius and controlled atmospheric pressure; these chambers are housed inside the carbonization furnaces and are equipped internally and centrally with rotors that move the biomass during the process, while lower sections have outlets communicating to conducting ducts that direct coal and particles s non-carbonisable as a function of temperature, for secondary conveyor ducts, internally equipped with helical threads, going to cooling chambers that pour them into separation chambers, where the fine coal of recyclable and non-recyclable particles is divided into storage drums a fixed plant, with the pyrolysis chambers in their upper rear sections, designing recovery ducts that feed volatile combustion chambers produced by the biomass transformation process; said recovery pipelines still supply the burners, while the combustion chambers are equipped with chimneys to exit the excess, and in fixed and mobile plants thermoelectric or microturbines can be coupled; the mobile plants are equipped with gas treatment chambers, coal outlet compartments and hydraulic locking trailers (potholes).

Description

“FIXED AND MOBILE PLANT FOR PROCESSING AND CARBONIZATION OF SOLID, PNEUMATIC AND SOLID SOLID WASTE WITH ELECTRIC POWER GENERATION”.

This patent application refers to a "FIXED AND MOBILE PLANT FOR PROCESSING AND CARBONIZATION OF SOLID, PNEUMATIC AND SOLID SOLID WASTE WITH ELECTRIC POWER GENERATION", which was developed for the purpose of providing a carbonization plant and pyrolysis of used, discarded tires, in addition to any type of solid urban and industrial waste, by carbonization of these wastes, in pyrolysis shafts or reactors of variable size, up to 200 Kg / hour capacity up to 2000 kg / h) Electricity generation is obtained from the release of the carbonization or pyrolysis system, gases and / or coal that, when ignited, generate high temperatures that expand a high viscosity fluid packed in the Fomo-coupled equipment. The latter, in turn, drives a turbine installed in the plant complex. Urban solid waste management has become a problem for public administrators. This is due to the expansion of urban areas, as a result of the accumulation of solid waste that has been increasing all the time, as tons of “garbage” are thrown daily in landfills known as “dumps”, without any proper treatment, generating some social and environmental problems. The world has been undergoing major climate changes, due to the behavior of man in relation to the environment. Due to the development of the countries, the industries started to use innovative technologies, bringing with it the increase of production and quality for their products and services, consequently making people consume more and more. This disordered growth of countries has been generating several environmental problems, due to the increasing accumulation of urban solid waste. The change in packaging use is one of the factors that contributes to the increase of these problems. Paper and glass containers were used more before, but the use of these materials did not degrade the environment as much as the materials used today, for example, petroleum-derived plastic, where it spends years decomposing in nature, perpetrating a big damage to the environment.

According to Miller (2008, p. 446), the United States produces one third of the world's solid waste and places more than half of it in landfills.

In Brazil, it is not very different. According to data from ALBFtEP (2009), 183 thousand tons of municipal solid waste were collected daily.

However, the biggest problem is not yet the huge amount of waste that is generated every day, but rather the final disposal of these wastes, where most of the solid waste is deposited in open dumps. This is an inadequate form of final disposal of solid waste, as it has no environmental protection measures for soil or public health.

Thus, it is understood that the importance in understanding to find economically viable and sustainable solutions is essential to establish policies focused on environmental management, with the concern of preserving the environment, as exemplified by CARDOSO (apud VALLE, 1995, p. 39), environmental management “consists of a set of well-defined and properly applied measures and procedures aimed at reducing and controlling the impacts a business has on the environment”. Environmental Management has a vision of organizing humanity's economic activities so that they make the best use of natural resources, causing the least environmental impact. The constant degradation of natural resources caused by human action causes human beings to begin to reflect on their relationship with the environment and unbalanced consumption related to the current economic system, seeking to find a balance that establishes their sustainable development. It is important to stress that, in recent decades, a new perception of the environmental crisis is being consolidated. Engels (1979, p. 183), in the nineteenth century, observed concern with the transformation of human behavior in relation to nature.

According to Zanetti (2003, p. 20), the concept of waste is different from trash, the word “trash” is a term that gives meaning to something that needs to be thrown far away and preferably as quickly as possible. In the matter of the concept of waste, this relationship changes, because people associate the term of waste with questions of reuse and recycling of various types of materials that have been discarded. The increase in waste has become a serious social problem, specifically in urban areas. In order to solve this problem, as well as address other global environmental issues, systems which burn waste, and utilize the heat produced by combustion, have been introduced.

Due to these and other untold inconveniences or inventor after studies and tests, he developed the “FIXED AND MOBILE PLANT FOR PROCESSING AND CARBONIZATION OF SOLID, PNEUMATIC AND SOLID WASTE WITH ELECTRIC POWER GENERATION” comprised of a main body formed from reception silos coupled with industrial crushers, which turn solid waste into particle sizes of 2 to 4 cm, which are conveyed through conveying ducts with integrally communicating helical threads through feed openings arranged in the upper front section with Hermetically sealed and oxygen-free fixed pyrolysis, which promotes the carbonization of biomass in the temperature range of 400 to 500 degrees Celsius and atmospheric pressure, said chambers are housed within the carbonization shafts and are internally and centrally equipped with rotors that move the biomass a during the process, while lower sections hold communicating outputs to conductive ducts that direct coal and non-carbonizable particles as a function of temperature to secondary conveyor ducts, which are fully endowed with helical threads, following to cooling chambers that dump them into separation chambers , where the fines of recyclable and non-recyclable particulate coal for storage drums are divided into a fixed power plant, and the pyrolysis chambers in their upper rear sections project recovery ducts that feed volatile combustion chambers produced by the transformation process. From the biomass, these recovery ducts still supply the burners, while the combustion chambers are equipped with chimneys for excess output, and in fixed and mobile plants can be coupled thermoelectric or microturbines. The mobile plants are equipped with gas treatment chambers, coal exit compartments and hydraulic locking trailers (pads).

In order to obtain a perfect understanding of what has been developed, illustrative drawings are attached, to which reference is made in conjunction with a following detailed description, where: Figure 1 shows a schematic view of the stationary plant. Figure 2 shows a schematic view of the mobile plant.

As shown in the drawings, we can see that the “FIXED MOBILE PLANT FOR PROCESSING AND CARBONIZATION OF SOLID, PNEUMATIC AND SOLID WASTE WITH ELECTRIC POWER GENERATION” characterized by a main body (1) formed from reception silos (2) ) coupled with industrial crushers (3), which turn solid waste into particle sizes of 2 to 4 cm, which are conveyed through conveying ducts (4) with integrally interconnecting helical threads (5) through feed openings (6 ) arranged in the upper front section (7), with hermetically closed and oxygen-free fixed pyrolysis chambers (8), which promote the carbonization of biomass in the temperature range of 400 to 500 degrees Celsius and controlled atmospheric pressure; said chambers (8) are housed within the carbonization shafts (9) and are internally and centrally equipped with rotors (10) that move the biomass during the process, while lower sections (11) have communicating outputs (12) to conductive ducts (13) directing the charcoal and non-carbonizable particles as a function of temperature to secondary conveyor ducts (14), which are integrally equipped with helical threads (15), followed by cooling chambers (16) which discharge them into separation chambers (17). ), where the fines of recyclable and non-recyclable particulate coal for storage drums (18) are divided into a fixed plant (19), with the pyrolysis chambers (8) in their upper rear sections (20) projecting ducts of recovery (21) feeding the volatile combustion chambers produced by the biomass transformation process; Said recovery ducts (21) also supply the burners (22), while the combustion chambers are provided with chimneys (23) for overflow, and thermoelectric (24) or microturbines (25) can be coupled to fixed and mobile plants. ), the mobile plants (50) are equipped with gas treatment chambers (26), coal exit compartments (27) and hydraulic locking wagons (28).

Based on what is described and illustrated we can say that “FIXED AND MOBILE PLANT FOR PROCESSING AND CARBONIZATION OF SOLID, PNEUMATIC AND SOLID WASTE WITH ELECTRIC POWER GENERATION” brings great advantages, since the system contemplates the tire industry, the industry in who need to dispose of their process waste, such as hospitals, shopping malls, waste collection and disposal industries, refrigerators, food distribution centers, agricultural farms, as well as municipal, state and federal governments. to contemplate the Power Generation industry. The community as a whole benefits from this system, with which clean alternative energy can be generated without harming the environment, greatly reducing the appearance of dumps and landfills and giving a final solution to the problem of urban and industrial waste.

It should be noted that the combustion chamber responsible for generating the thermal energy necessary for carbonization and the production of electric energy receives the volatiles through the recovery duct, which comes from the process of transforming the biomass by heat, together with the fines part. Coal produced in the process itself. This recovery duct will feed the burners that were previously supplied with coal fines. The thermoelectric generation can be accomplished by coupling a generator set consisting of cycle otto motor and electric generator or by using conventional rankine or organic rankine steam turbines, with powers compatible with the availability of thermal energy delivered by the thermal system. processing or even, external combustion engine operating with the stirling cycle.

In the mobile plant basically the same system is used in reduced size and capacity without the need for the cooling chamber or the separation chamber. The system comes mounted on a hydraulically locked platform or trailer (pads).

In fixed and mobile plants, a thermoelectric powered with an external combustion engine can be coupled taking advantage of its mechanical rotation and converting it to a gearbox that drives an electromagnetic generator. This thermoelectric is driven by heat derived from the combustion chamber of the system.

Depending on the characteristics of the plant, the typology and the amount of waste to be processed, it is possible to use coal fines with this thermoelectric or other with microturbines, forming a combined system, increasing the power generation capacity.

Because it is innovative and has constructive features not previously understood in the state of the art, it fits perfectly into the criteria that define the invention patent and are the following claims.

Claims (1)

1 - “FIXED AND MOBILE PLANT FOR PROCESSING AND CARBONIZATION OF SOLID, PNEUMATIC AND URBAN SOLID WASTE WITH ELECTRIC POWER GENERATION” characterized by a main body (1) formed from reception silos (2) coupled to industrial crushers (3) ), which convert solid waste into particle size 2 to 4 cm in size, which is conveyed through conveying ducts (4) integrally with connecting helical threads (5) through feed openings (6) arranged in the upper front section ( 7) with hermetically sealed and oxygen-free fixed pyrolysis chambers (8) which promote the carbonization of biomass in the temperature range of 400 to 500 degrees Celsius and controlled atmospheric pressure; said chambers (8) are housed within the carbonization shafts (9) and are internally and centrally equipped with rotors (10) that move the biomass during the process, while lower sections (11) have communicating outputs (12) to conductive ducts (13) directing the charcoal and non-carbonizable particles as a function of temperature to secondary conveyor ducts (14), which are integrally equipped with helical threads (15), followed by cooling chambers (16) which discharge them into separation chambers (17). ), where the fines of recyclable and non-recyclable particulate coal for storage drums (18) are divided into a fixed plant (19), with the pyrolysis chambers (8) in their upper rear sections (20) projecting ducts of recovery (21) feeding volatile combustion chambers produced by the biomass transformation process; Said recovery ducts (21) also supply the burners (22), while the combustion chambers are provided with chimneys (23) for overflow, and thermoelectric (24) or microturbines (25) can be coupled to fixed and mobile plants. ); the mobile plants (50) are equipped with gas treatment chambers (26), coal outlet compartments (27) and hydraulic locking wagons (28).