BR102017005749A2 - solar energy drying equipment - Google Patents

Abstract

solar drying equipment for wood. The present invention pertains to the renewable energy technology sector, and relates more specifically to equipment that uses solar energy to dry wood by circulating hot air in an enclosed environment. Such a solution is characterized by containing a storage space, pvc built-in heat exchanger, a fan / exhaust fan, photovoltaic plates, temperature control and control panel. The equipment is intended to optimize the calorific value of the wood by reducing the moisture present in the logs or chips. Therefore, it is proposed that through the circulation of hot air from the sun-heated ducts, the humidity of these logs is substantially reduced, aiming at a more efficient burning and reducing energy costs.

Description

(54) Title: WOOD DRYING EQUIPMENT THROUGH SOLAR ENERGY (51) Int. Cl .: F26B 3/28 (73) Holder (s): PRO-TEACHING ASSOCIATION IN SANTA CRUZ DO SUL (72) Inventor (s) : ITALO ROSA POLICENA; JORGE ANDRE RIBAS MORAES (85) Start date of the National Phase:

03/21/2017 (57) Abstract: EQUIPMENT FOR DRYING WOOD THROUGH SOLAR ENERGY. The present invention belongs to the technological sector of renewable energies, and refers, more specifically, to an equipment that uses solar energy to dry wood through the circulation of hot air in a closed environment. Such a solution is characterized by containing a storage space, heat exchanger made of PVC, a fan / extractor, photovoltaic plates, temperature control and control panel. The equipment is intended to optimize the calorific value of the wood by reducing the moisture present in the logs or chips. Therefore, it is proposed that through the circulation of hot air from the ducts heated by the sun, the moisture of these logs is substantially reduced, aiming at a more efficient burning and with reduction of energy costs.

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EQUIPMENT FOR DRYING WOOD THROUGH SOLAR ENERGY

Technological sector of the invention [01] The present invention belongs to the technological sector of renewable energies, and refers, more specifically, to an equipment that uses solar energy to dry wood through the circulation of hot air in a closed environment.

Known state of the art [02] It is known that the quality of wood for energy generation is related to its moisture content and specific density. The higher the moisture content, the lower its combustion power, resulting from the phenomenon of water evaporation that consumes energy during the process. According to studies carried out, eucalyptus right after cutting can present 40 to 70% humidity and such levels may vary over time during the drying period.

[03] The climatic conditions of each season and the position of the pile in relation to the sun and wind can be considered as the main variables that directly interfere in the humidity of the material. However, even when the logs are placed under the same conditions, there is a great tendency for them to have different moisture contents. Therefore, since the moisture content of the logs used to generate energy is a determining factor for combustion efficiency, it is apparent that a means is needed to supply logs with the lowest possible moisture content.

[04] The wood moisture reduction process can be considered complex due to the specific characteristics of the material in question. It is known that after harvesting the wood, the material tends to lose free water to the medium in which it is stored, until the lumen of the cells is completely emptied, establishing a balance of moisture between the material and the medium. However, to always keep the balance, once the material

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2/8 is relocated to another environment with a higher relative humidity content, the logs tend to absorb moisture.

[05] That is, the wood, due to its absorption characteristics and other properties, generally remains in a constant exchange of humidity with the medium in which it is deposited. Therefore, the quality control of the wood drying process to an adequate moisture content is one of the most important factors in its use, even when the wood is used as a fuel, or transformed into coal. Thus, the use of the appropriate technology to carry out the drying of the wood is essential to obtain high rates of energy conversion.

[06] Energy-efficient integrated systems aimed at reducing moisture in materials such as firewood and grains are widespread. An example can be seen in Patent No. PI 1006310-2 A2 “Drying and disinfecting station for wet materials, such as notably biosolids from sewage and urban waste treatment plants, with the use of solar energy and of biogas for its operation, in which it is proposed to use solar energy and energy from biogas to heat a fluid that circulates in pipes. Such pipes are located under the floor of a patio where the material to be processed is laid out and covered with a transparent plastic canvas in order to enhance the thermal effect of both the floor and the sunstroke. A similar invention is described in invention patent No. BR 10 2015 008860 4 A2 - “Hybrid system for generating hot air for indirect drying of grains with solar support”, in which a system for generating hot air for drying grains is proposed indirectly and hybridly, without the grains coming into contact with the contaminated gases from the burning of fuel (solid, liquid or gaseous) and with the option of using solar energy to preheat the drying air. However, these alternatives do not use solar energy through the use of photovoltaic cells to reduce the humidity of solids as a single source. That is, the solutions provide for other additional energy sources. In addition, solutions

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3/8 described in both documents differ from the present invention, which aims to optimize the drying of the firewood used in steam generation in boilers through the use of a system that can be mobile or fixed, for a better use of this natural resource. It is still worth mentioning that such technologies do not propose a system that is easily coupled to a truck, the vehicle most used to transport the material in question.

[07] Already in invention patent no. PI 8400663-3 A2 - “Solar drying oven”, only solar energy is used for drying solids. The greenhouse consists of a drying chamber with walls and ceilings made of transparent materials, a mirror for reflecting the sun's rays and a solar air preheater. In patent no. PI 9707283-4 A2 - “Solar oven for drying wood”, a wooden structure or other material covered with plastic canvas is used. The plank-shaped wood is stacked in partitions according to an inverted "V", allowing circulation by natural air convention. External air enters through a lower side opening and rises to the top of the greenhouse due to the heating of the side wall. This hot air descends through the boards, causing gradual drying. However, the aforementioned inventions differ from the present patent in that they do not have heat exchangers and forced hot air circulation to optimize the drying process. [08] Patent document No. BR 10 2015 008865 5 - “Hybrid equipment for the generation of indirect hot air for grain dryers with the option of solar support” can also be cited. This solution proposes an equipment for the generation of hot air to dry grains in an indirect and hybrid way, so that the grains do not come into contact with the contaminated gases from the burning of fuel with the option of using solar energy to preheat the drying air. . However, in such technology, solar energy is used for preheating grain drying and still requires other fuel sources in addition to solar energy. In addition, similarly, the proposed system is not a mobile device and is also not easily coupled to a log transport vehicle.

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4/8 [09] Utility model MU 8502342-6 - “Arrangement provided in a greenhouse system for drying tobacco leaves”, describes a system for reusing part of the temperature that passed through the upper yards, added to the heat of the roof heated by the sun and added at the bottom next to the pipes. However, the system in question is intended for drying tobacco leaves and is not a mobile device. In addition, the control and circulation system is not powered with photovoltaic plates. The patent document PI 0206329-8 - “Solar dryer for drying agricultural products” describes a system to collect the energy from the sun to heat the air that will be used in the dehydration of products, using a collector and a dryer. solar. Said collector is constituted of flexible plastic having a transparent face to the radiation and the other impermeable. However, in this document a small system is proposed, which does not contain large loads of firewood, does not use photovoltaic plates to supply the energy used with the control part, is not easily coupled to a truck. The same drawbacks can be pointed out in relation to the technology described in patent document PI 0700672-1 - “Industrial Solar Dryer”.

[010] Patent document PI 1105947-8 - “Mechanical dryer by heating solar and indirect electric energy”, proposes a system for drying solid material through the conversion of solar and / or electric energy, into thermal energy and transfer of heat produced for a mechanical drying set, using thermal fluid. However, it is a fixed device that uses electricity indirectly, uses heated water, a very high number of components and is not yet easily coupled to a transport vehicle. [011] Finally, patent documents No. PI 9303302-8 and PI 9803396-4, entitled “Solar wood dryer” and “Process for solar drying of goods that can be stacked and solar dryer ¹ , respectively, can be cited '. However, such solutions offer fixed devices, which do not have an internal temperature control. In addition, the fans do not

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5/8 are moved through the photovoltaic plates and the solar collector is not made by means of a heat exchanger. Finally, such solutions are not easily coupled to a log transport vehicle.

[012] In summary, the solutions above present different solids drying systems, however they either use fuel burning at some stage of the process or do not use heat exchangers and forced air circulation. In addition, the state of the art is not known, equipment for drying firewood based on the heating of air in heat exchangers formed by tubes, the hot air being sucked by means of a fan that also operates by solar energy.

News and objectives of the invention [013] The present solution aims to remedy the current drawbacks present in the state of the art and present a way to improve the use of natural resources (reforestation wood) used for steam production. The equipment in question has the function of drying the firewood to achieve adequate moisture levels through solar energy.

[014] The invention is based on the passage of air through a heat exchanger composed of tubes that are heated by solar radiation. The air is sucked from the storage environment and directed to the piping by means of a fan, when passing through these tubes the air is heated. The heated air returns to the environment completing the cycle, this process continues until thermal equilibrium occurs.

[015] The invention described here has the characteristic of constituting a space for storing the firewood, heat exchanger in the form of “S” in PVC tubes, a fan / extractor for suctioning the air, photovoltaic plates designed to supply energy for the operation of the fan, temperature control by sensors and a control panel. Therefore, the equipment proposed in the present invention increases energy efficiency by reducing the moisture present in logs or wood chips, currently used in boilers.

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Description of the attached drawings [016] In order that the present invention is fully understood and carried out by any technician in the technological sector, it will be described in a clear, concise and sufficient manner, based on the attached drawings, listed below, which illustrate and subsidize the material required in this specification:

[017] Figure 1 represents the top view of the equipment for drying wood by means of solar energy.

[018] Figure 2 represents the isometric view of the equipment for drying wood using solar energy.

Detailed description of the invention [019] The present innovation introduces a new system for drying wood, which uses hot air circulation in the wood storage environment, using only solar energy. Such an invention has the intention of reducing the energy used in the production of steam using wood as fuel, since the evaporation of water absorbs energy during the combustion process.

[020] For this, a system was developed consisting of a storage space (1), a heat exchanger (2), preferably in an “S” shape, in tubes of resistant material, preferably PVC (polyvinyl chloride) , where the air circulates and is heated. The system also has a fan (3) whose rotation can vary from 100 to 800 RPM’s, which is responsible for sucking the air, passing it through the heat exchanger and returning it to the environment where the wood is. The fan is sized according to the storage volume, that is, the greater the total length of the heat exchanger tubes, the greater the air flow provided by the fan, and is fed by a set of photovoltaic plates (4), the which brings the possibility of mobility between reforestation farms, as it does not require the use of any external energy source and makes the system totally independent.

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A control panel (6) is used to control the fan and to monitor the temperatures (5) (by means of sensors, preferably the type J thermocouple sensors and the air humidity sensor) of the incoming and outgoing air so that one of the sensors is arranged at the entrance of the heat exchanger (2) and the other at the exit of the same (2) and, in addition, at least three other sensors arranged inside the storage space (1), as well as the temperature inside the storage environment, causing the engine to start and stop, keeping the system at a pre-established temperature. This is necessary due to the fact that if the internal temperature is too high, the firewood can burn. That is, the control panel (6) will monitor the temperatures inside the storage space, being responsible for reading the values acquired by the sensors (5) and will activate the fans; there is also a display with this information for system operators.

[021] Aiming at mobility and ease of acquisition, the system was developed and designed for application in containers, which are of relatively low cost and do not require any changes for transport in trucks. The system was designed so that, in the need for transport, the control and heating devices can be easily removed from the Container.

[022] The storage environment can be fixed or mobile, when mobile the installation of the heating system is done in Container, which can be dimensioned according to the need. For fixed installations, an industrial building properly closed with metal cover is required. The control system is the same as the mobile system, differing only in the installed power.

[023] It is important to note that the figures and description made do not have the ability to limit the forms of execution of the inventive concept now proposed, but rather to illustrate and make understandable the conceptual innovations revealed in this solution. Thus, descriptions and images must be interpreted

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8/8 in an illustrative and non-limiting way, and there may be other equivalent or analogous ways of implementing the inventive concept now revealed and that do not escape the protection spectrum outlined in the proposed solution.

[024] This report deals with the design of wood drying equipment using solar energy, which is new, inventive step, descriptive sufficiency, industrial application and, consequently, covered with all the essential requirements for granting the privilege pleaded.

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Claims (6)

1. WOOD DRYING EQUIPMENT THROUGH SOLAR ENERGY which comprises a wood drying equipment consisting of storage space (1), heat exchanger (2), fan (3), set of photovoltaic plates (4), set temperature and humidity sensors (5) and control panel (6) characterized by being heated by solar radiation, the air being sucked from the storage space (1) and directed to the heat exchanger (2) through a fan (3 ); the activation of the fan (3) performed by the control panel (6) through the monitoring of temperature and humidity sensors (5) and the energy to operate the fan (3) provided by photovoltaic plates (4); wherein said heat exchanger (2) is formed by polyvinyl chloride tubes; . 2. WOOD DRYING EQUIPMENT THROUGH SOLAR ENERGY according to claim 1, and further characterized by the fan (3) being dimensioned according to the storage volume, being able to operate at an angular speed between 100 and 800 rpm. 3. WOOD DRYING EQUIPMENT THROUGH SOLAR ENERGY according to claim 1, and further characterized by having at least one sensor at the entrance and one at the exit of the heat exchanger (2) and at least three other sensors arranged inside the storage space (1). 4. WOOD DRYING EQUIPMENT THROUGH SOLAR ENERGY according to claims 1 and 4, and further characterized by the temperature sensor preferably a type J thermocouple sensor. 5. WOOD DRYING EQUIPMENT THROUGH SOLAR ENERGY according to claim 1, and further characterized by having photovoltaic plates (4) sized according to the storage volume. Petition 870170018708, of March 21, 2017, p. 13/36 2/2 6. WOOD DRYING EQUIPMENT THROUGH SOLAR ENERGY according to claim 1, and further characterized by the system installation being carried out in a mobile container or fixed installations. Petition 870170018708, of March 21, 2017, p. 14/36 1/1