JP2005066483A - Reaction method for organic reactant by supercritical fluid or subcritical fluid and apparatus therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a treatment method for an organic substance, or the like, in a supercritical state, or the like, capable of stable carrying out a reaction of the organic substance, or the like, and decomposition of a hardly decomposable substance by carrying out the chemical reaction in the supercritical state or a subcritical state near a first time even by a plurality of times, and an apparatus therefor. <P>SOLUTION: In a reaction engine, a fluid vapor with the substance to be reacted introduced into a cylinder 3 is compressed by operating a compression plunger 4, and after the chemical reaction of the substance to be reacted by this compression is completed, the compression plunger 4 is operated in a reverse direction to reduce the temperature and the pressure of the fluid vapor, and an intake/exhaust stroke is periodically carried out by removing out the fluid containing the obtained product from the cylinder and blowing-in the new fluid vapor into the cylinder. The reaction method for the organic reactant, or the like, by a supercritical fluid or a subcritical fluid is characterized in that driving of an intake/exhaust valve in this reaction engine 2 is temporarily stopped to repeatedly operate the compression and expansion against the introduced fluid vapor by a plurality of times. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a reaction method of an organic substance or the like using a supercritical fluid or a subcritical fluid, and a reaction apparatus therefor. Specifically, the present invention relates to a reaction method and a reaction apparatus for performing an organic substance or the like such as biomass as a substance to be reacted, and performing a decomposition process or a gasification process on the substance to be reacted with a supercritical fluid or a subcritical fluid. .

  As a method for decomposing substances to be reacted such as organic substances such as biomass, a method of decomposing with supercritical water or subcritical water has been developed in place of the former chemical oxidation method, photo-oxidation method and combustion method. (Patent Document 1).

  In addition, as a reaction method of an organic substance or the like using a supercritical fluid or a subcritical fluid, for example, the critical condition of water, that is, supercritical water having a critical temperature exceeding 374 ° C. and a critical pressure exceeding 218 atm. And a method of decomposing a reaction substance such as paraffinic hydrocarbon and benzene is also known (Patent Document 2).

  In Patent Document 2, for example, by rapidly heating high-pressure water in which an organic substance such as wood powder is dispersed and maintaining a supercritical or subcritical state for a certain time, a chemical reaction in a supercritical state or a subcritical state is performed. Discloses a reaction apparatus capable of performing a saccharification reaction of wood flour into sugar. That is, means for compressing fluid vapor to obtain a supercritical fluid or subcritical fluid, means for bringing the supercritical fluid or subcritical fluid into contact with a reactant such as an organic substance, and performing a chemical reaction, and this chemical reaction And a means for expanding and depressurizing a fluid containing a product generated by the reaction.

Further, in Patent Document 2, means for compressing a fluid vapor to obtain a supercritical fluid or subcritical fluid, and means for causing a chemical reaction by bringing the supercritical fluid or subcritical fluid into contact with a reactant such as an organic substance. And a means for expanding and depressurizing a fluid containing a product generated by this chemical reaction, and a piston (compression plunger) provided in the cylinder, and by operating the piston (compression plunger) The fluid vapor with the substance to be treated is compressed, and after completion of the chemical reaction, the piston (compression plunger) is operated in the opposite direction to lower the temperature and pressure, and the resulting fluid fluid containing the product is removed from the cylinder and renewed. A method and apparatus for operating periodically by blowing fluid vapor into a cylinder is disclosed.
Japanese Patent Publication No. 1-38532 JP 2002-263465 A

  However, in such a conventional supercritical fluid or subcritical fluid reactor, the supercritical water conditions necessary for the treatment of the reactant such as an organic reactant are controlled by controlling the rotational speed of the reaction engine. Although it is necessary to hold for a certain period of time, there is no conventional method for controlling the reaction processing time in the reaction engine.

  In industrial reactors for handling supercritical conditions of high-temperature and high-pressure fluids that can efficiently implement reactors such as organic substances using supercritical fluids or subcritical fluids, the rotational speed of the reaction engine in the reactor is slowed down. Then, when compressing the introduced fluid vapor, the pressurization and heating performance of the fluid vapor deteriorates, and it is difficult to maintain the temperature and pressure high, and it is maintained for a long time necessary for processing with the supercritical fluid or subcritical fluid. It is difficult to do. For example, although it depends on the state of the vapor fluid and the compression ratio, even if it is compressed at 300 rpm, the supercritical state can be obtained in about 0.03 seconds. For example, it is necessary to reduce the pressure to 100 rpm or the like, but if this is done, leakage from the seal portion becomes large and it becomes difficult to obtain a sufficiently high pressure.

  Therefore, the present invention repeats compression and expansion a plurality of times without discharging the fluid vapor containing the reactant that has been compressed and expanded at a rotational speed at which leakage from the seal member is kept low, and tries to obtain a predetermined time in the total processing time. To do. Further, in the multiple processing in the reaction engine, the temperature and pressure of the supercritical fluid realized after the second time are lower than the first time due to leakage from the sliding surface of the cylinder and heat radiation from the wall surface. There are also drawbacks.

  Therefore, the present invention makes it possible to maintain a supercritical state or subcritical state of a fluid for a longer time, and in a plurality of treatments, a supercritical state or a subcritical state close to the first time after the second time. By carrying out chemical reactions, it is possible to stably carry out reaction treatments such as organic substances for gasifying organic waste such as wood flour, and decomposition treatments of difficult-to-decompose substances such as dioxins and PCBs. An object of the present invention is to provide a method and apparatus for treating an organic reactant in a supercritical state or a subcritical state.

  In order to achieve the above object, a reaction method of an organic reactant or the like using a supercritical fluid or a subcritical fluid according to the present invention includes a cylinder and a compression plunger provided in the cylinder, and the cylinder is operated by operating the compression plunger. Compress the fluid vapor with the reactants introduced into it, and after the chemical reaction of the reactants by this compression is finished, operate the compression plunger in the reverse direction to lower the temperature and pressure of the fluid vapor, and the resulting production In a reaction engine that periodically drives the intake / exhaust valves by taking out fluid containing substances from the cylinder and blowing new fluid vapor into the cylinder, the intake and exhaust strokes in this reaction engine are temporarily stopped and introduced. It is characterized in that the compressed / expanded operation with respect to the fluid vapor is repeated a plurality of times.

  According to the reaction method of the present invention, the intake / exhaust stroke in the reaction engine is temporarily stopped, and compression / expansion of the introduced fluid vapor is repeated a plurality of times, so that the fluid vapor introduced into the cylinder has a high temperature. It is possible to maintain the high pressure supercritical state or subcritical state for a longer time (for example, about 0.03 seconds × 3 = 0.09 seconds). Thus, by maintaining the supercritical fluid or subcritical fluid for a longer period of time, it becomes possible to decompose organic waste materials such as wood flour, chemical substances such as dioxin and PCB, and the like.

  The reaction method of an organic reactant or the like using a supercritical fluid or a subcritical fluid according to the present invention includes a method in which new fluid vapor is replenished into the cylinder each time compression / expansion is repeated in a reaction engine. Furthermore, the reaction method of the organic reactant by the supercritical fluid or subcritical fluid of the present invention automatically or forcibly opens the reaction engine intake valve when the internal pressure of the cylinder falls below the intake pressure. A method of replenishing the fluid vapor into the cylinder. Furthermore, a method is provided in which a circuit set higher than the intake steam and a second intake valve are provided as new fluid vapor and the cylinder is replenished.

  According to this reaction method, at the time of repeated compression / expansion in the reaction engine, a new fluid vapor is replenished into the cylinder every time compression / expansion is performed, thereby compensating for the leakage of the fluid vapor, and further the cylinder of the reaction engine. It is possible to eliminate heat dissipation in the case of In this case, when the internal pressure of the cylinder further falls below the intake pressure, the intake valve of the reaction engine is opened at the same time, and new fluid vapor is replenished into the cylinder, so that in the second and subsequent compressions, 1 It is possible to obtain the supercritical state or subcritical state of the fluid more reliably in a state close to the second time.

  In the present invention, as an apparatus for performing a reaction method of an organic reactant or the like using the supercritical fluid or the subcritical fluid, the apparatus includes a cylinder and a compression plunger provided in the cylinder, and is introduced into the cylinder by operating the compression plunger. Compressed fluid vapor with the reactants, and after the chemical reaction of the reactants due to this compression is completed, the compression plunger is operated in the reverse direction to rapidly lower the temperature and pressure of the fluid vapor, and the product obtained In a reaction engine that periodically performs intake and exhaust strokes by taking out the fluid containing the inside of the cylinder and blowing new fluid vapor into the cylinder, the reaction engine is provided with a valve operating mechanism for driving and stopping the intake and exhaust valves And a second intake valve that introduces a steam set higher than the intake steam into the cylinder, and the second intake valve is connected to the reactor. Includes configurations wherein the of introducing high vapor into the driven cylinder timing which stops driving the intake and exhaust valves together with synchronizing with the driving timing.

  According to this reaction apparatus, the intake and exhaust valves can be driven and stopped by driving a valve mechanism provided in the reaction engine. By synchronizing the drive timing of the valve operating mechanism and the drive timing of the reaction engine, the intake and exhaust strokes in the reaction engine are temporarily stopped, and the compression / expansion of the introduced fluid vapor is repeated a plurality of times. it can. As the valve operating mechanism, in addition to the camshaft type, an electromagnetic valve type or a hydraulic type can be used.

  The reaction device for organic reactants using the supercritical fluid or subcritical fluid according to the present invention has a camshaft that is driven by fitting / removing with a pin or the like as the valve operating mechanism. Further, it includes a configuration in which the intake and exhaust strokes in the reaction engine are driven and stopped by controlling the driving and stopping of the camshaft.

  As described above, the reaction method of organic substances and the like using the supercritical fluid or subcritical fluid of the present invention and the apparatus thereof are configured, so that the following effects are exhibited. According to the present invention, the drive of the intake / exhaust valve of the reaction engine in the reaction apparatus is temporarily stopped, and the compression / expansion of the introduced fluid vapor is repeatedly performed a plurality of times. Because it is treated with a critical fluid, it can be used for various types of decomposition or gasification treatment with supercritical fluids or subcritical fluids even for difficult-to-decompose wastes such as dioxins and PCBs, and organic wastes such as wood flour. It is possible to cope with the material to be processed. In addition, when the compression / expansion of the fluid vapor is repeated a plurality of times, a new fluid vapor is replenished into the cylinder each time the compression / expansion is performed. By matching the timing, the amount of leakage of fluid vapor in the reaction engine is compensated, and the amount of heat released from the wall surface of the cylinder, etc. is effectively compensated, and the problems due to leakage and heat dissipation due to the new fluid vapor are sufficiently eliminated. Can do. Thereby, in the reaction engine, the compression and expansion can be repeated in a state close to the first time after the second time.

  The reaction method of an organic substance or the like using the supercritical fluid or subcritical fluid of the present invention can be performed by the above-described reaction apparatus of the present invention.

  Next, the best mode for carrying out the present invention will be described with reference to the drawings. FIG. 1 shows the configuration of a reaction apparatus 1 for organic reactants using supercritical fluid or subcritical fluid according to the present invention. Hereinafter, water is used as a fluid in the reaction apparatus 1, but other than that, as a steam fluid for obtaining a supercritical fluid or a subcritical fluid, for example, carbon dioxide, nitrous oxide, freon 12, freon 13, It is also possible to select and use ethane, ethylene, propane, propylene, butane, hexane, methanol, benzene, toluene, ammonia and other various substances.

  The reaction apparatus 1 is provided with a reaction engine 2 including a cylinder 3 and a compression plunger 4 provided in the cylinder 3. The plunger 4 is a broad concept including a piston.

  In the reaction engine 2, the compression plunger 4 is operated to introduce water vapor from a boiler or the like, and the water vapor is compressed to a supercritical or subcritical state. The reactant is brought into contact with the supercritical or subcritical water vapor to cause a chemical reaction in the reactant. Next, after completion of the chemical reaction in the reaction object, the compression plunger 4 is operated in the reverse direction to rapidly reduce the temperature and pressure of the steam to freeze the reaction, and discharge from the cylinder 3 to further reduce the pressure to liquefy the water vapor. The obtained water is taken out together with the product of the reactant. Again, by operating the compression plunger 4 in the same manner as described above, new steam is blown into the cylinder 3. In the reaction engine, such an intake and exhaust stroke can be operated periodically.

  In order to maintain the airtightness between the compression plunger 4 and the inner peripheral surface of the cylinder 3, a seal ring 4b is provided around the upper head 4a. Further, a reaction chamber 5 is provided in the upper part of the cylinder 3 so as to face the compression plunger top surface 4a. Further, the cylinder 3 is provided with an intake valve 6 and an exhaust valve 7 of the reaction engine 2 facing the reaction chamber 5. In the reaction engine 2, a cylinder head 10 is provided on the upper portion of the cylinder 3. An intake hole 11 and an exhaust hole 12 are formed in the cylinder head 10 at a position where the intake valve 6 and the exhaust valve 7 in the reaction engine 2 are provided at the bottom. The cylinder head 10 may have a second intake valve.

  The intake valve 6 and the exhaust valve 7 are opened and closed in the vertical direction via tappets 14 provided on the respective valves. The intake valve 6 and the exhaust valve 7 are connected to the cylinder head 10. The elastic force by the spring 13 provided in the upper part of is added in the closing direction.

  A cam shaft 15 is provided perpendicular to the cylinder 3 on a cam shaft mount 18 provided on the cylinder head 10. The cam shaft 15 is provided with two cams 16 at different angles on the shaft. As the cam shaft 15 rotates, the cams 16 are brought into contact with the tappets 14 at the same timing to be lifted. The intake valve 6 or the exhaust valve 7 is opened and closed by causing the cam 16 to contact and lift the tappet 14 at the corresponding position.

  The cam shaft 15 is fixed to move in the axial direction by a cam shaft mount 18. A timing pulley 19 is provided at one end of the cam shaft 15 via a flange 17. A timing belt 21 is provided in the timing pulley 19, and the cam shaft 15 is rotated around the shaft by the timing belt 21.

  At the left end of the camshaft 15, a collar 22 for moving a pin 23 for integrating the timing pulley 19 and the camshaft 15 is provided. The timing pulley 19 is provided with one or a plurality of pins 23 and springs 23a, and each pin 23 urges the flange portion 22a of the collar 22 leftward by the spring 23a. The collar 22 is connected in contact with the protrusion at the substantially central portion of the lever 24. One end of the lever 24 is supported in a swingable state by a support arm 25 provided on the cam mount 18. A solenoid 26 is provided above the cam mount 18, and the drive shaft 27 is moved in the axial direction based on the solenoid 26. The lever 24 is swung by the movement of the drive shaft 27.

  When the lever 24 is swung rightward, each pin 23 moves to the right against the urging force of the spring 23 a, and a notch 20 provided in advance in a flange 17 provided integrally with the camshaft 15. As shown in FIG. 2, the end of the pin 23 is fitted to the cam shaft 15 so as to be integrated with the timing pulley 19 and driven. In this case, of the plurality of pins 23, only one pin can be fitted into the notch 20 of the flange 17, and the other pins are for preventing the color from being twisted. Further, when the lever 23 is swung in the reverse direction, each pin 23 is removed from the notch portion of the flange 17 by the elastic force of the spring 23a, and the cam shaft 15 is stopped. Of course, the timing pulley 19 continues to rotate. In this case, the notch 20 is set so that the stop phase of the camshaft 15 is a phase in which the intake valve 6 and the exhaust valve 7 are closed.

  In the reaction engine 2 configured as described above, the cam shaft 15 rotates and the cam 16 presses the tappet 14 to open the intake valve 6 and introduce water vapor into the reaction chamber 5 of the cylinder 3. . Thereafter, when the compression plunger 4 is operated and compression and expansion at a predetermined high temperature are repeated a plurality of times, a peak a in the compression characteristic A is obtained during the compression as shown in FIG. In the vicinity of the peak a of the compression characteristic A, a supercritical state or a subcritical state of the introduced water vapor is obtained.

  However, this supercritical or subcritical state of water vapor is only maintained for a very short time t (for example, 0.03 seconds) when the repetition speed of the compression plunger 4 is 300 rpm. Therefore, when the substance to be reacted is a hardly decomposable substance such as dioxin or PCB, or an organic waste such as wood flour, it is difficult to decompose or gasify it within this short time. is there.

  In the reaction engine 2 in the reaction apparatus of the present invention, the lever 24 is controlled to move leftward, and the camshaft is stopped at a predetermined phase, whereby the contact state between each tappet 14 and the camshaft 15 is changed. When the intake valve 6 and the exhaust valve 7 in the reaction engine 2 are closed, the drive of the intake valve 6 and the exhaust valve 7 is temporarily stopped. Therefore, it becomes possible to repeat the compression / expansion with respect to the water vapor previously introduced into the reaction chamber 5 of the cylinder 3 a plurality of times. In FIG. 3, the intake / exhaust period is indicated by α, and the intake / exhaust stop period is indicated by β.

  When the compression / expansion with respect to the previously introduced water vapor is repeated a plurality of times as described above, the compression / expansion with respect to the same introduced water vapor is repeated for the time of t times × the number of repetitions during the intake / exhaust stop period β. As a result, the same water vapor introduced into the reaction chamber 5 is continuously accumulated in its supercritical state or subcritical state. By maintaining and continuing the supercritical state or subcritical state with respect to water vapor for a long time, the material to be treated such as dioxins and PCBs, and organic waste such as wood powder is decomposed, Alternatively, gasification treatment can be performed.

  The stop time of the intake / exhaust stroke in the reaction engine 2 is not constant because it varies depending on the type of the target reactant. For example, when the reactant is an organic waste powder such as wood powder or a hardly decomposable substance such as dioxin, a reaction in which the supercritical water state is about 0.1 seconds for the treatment of the reactant. I need time.

  By the way, when the reaction substance is processed by the reaction engine 2 described above, in the reaction chamber 5 of the cylinder 3, the water vapor leaks from the sliding surface of the compression plunger 4 or releases heat from the wall surface of the cylinder 3. There is a problem that the temperature and pressure in the supercritical state or subcritical state after the second time in 2 are lower than the first time.

  In order to solve these problems, the present invention solves the problem by replenishing the water vapor before compression lost due to water vapor leakage or heat dissipation each time. That is, when the internal pressure in the cylinder 3 is lower than the intake pressure of the water vapor, the intake valve is opened and new water vapor is supplied into the cylinder, so that it is possible to compensate for water vapor leakage and heat radiation in the reaction engine. Become. Thereby, even in the second and subsequent compressions, the supercritical state or subcritical state close to the first time can be secured in the reaction engine, and the process on the reactant can be performed completely.

It is a partial longitudinal cross-sectional front view of reaction apparatuses, such as an organic reactant by the supercritical fluid or subcritical fluid of the best form for implementing this invention. It is a side view explaining the fitting state of the color | collar in reactors, such as an organic reactant by the supercritical fluid or subcritical fluid of the best form for implementing this invention. It is a figure which shows the characteristic curve and its peak at the time of compression in reaction apparatuses, such as an organic reactant by the supercritical fluid or subcritical fluid of the best form for implementing this invention.

Explanation of symbols

1 Reactor (including steam generating boiler, piping, etc. not shown)
2 Reaction Engine 3 Cylinder 4 Compression Plunger 4a Compression Plunger Top 4b Seal Member 5 Reaction Chamber 6 Intake Valve 7 Exhaust Valve 10 Cylinder Head 11 Intake Hole 12 Exhaust Hole 13 Spring 14 Tappet 15 Cam Shaft 16 Cam 17 Flange 18 Cam Shaft Mounting Base 19 Timing pulley 20 Notch portion 21 Timing belt 22 Collar 22a Collar flange portion 23 Pin 23a Spring 24 Lever 25 Support arm 26 Solenoid 27 Drive shaft

Claims (5)

  It consists of a cylinder and a compression plunger provided in the cylinder, and by operating the compression plunger, the fluid vapor with the reactant introduced into the cylinder is compressed, and after the chemical reaction of the reactant by this compression is completed The compression plunger is operated in the opposite direction to lower the temperature and pressure of the fluid vapor, the fluid containing the obtained product is taken out from the cylinder, and new fluid vapor is blown into the cylinder to periodically perform the intake and exhaust strokes. In the reaction engine to be operated, the drive of the intake / exhaust valve in the reaction engine is temporarily stopped, and compression / expansion with respect to the introduced fluid vapor is repeatedly performed a plurality of times. Reaction methods for organic reactants.   The method for reacting an organic reactant or the like with a supercritical fluid or a subcritical fluid according to claim 1, wherein only the intake valve is driven and new fluid vapor is replenished into the cylinder at the time of repeated compression / expansion in the reaction engine.   When the internal pressure of the cylinder falls below the intake pressure, the intake valve is automatically or forcibly opened, and the intake valve mounting load is set or a drive mechanism is provided so that new fluid vapor is supplied into the cylinder. A method for reacting an organic reactant or the like with the supercritical fluid or subcritical fluid according to claim 2.   It consists of a cylinder and a compression plunger provided in this cylinder. By operating the compression plunger, the fluid vapor with the reactant introduced into the cylinder is compressed, and the chemical reaction of the reactant by this compression is completed. Later, the compression plunger is operated in the opposite direction to lower the temperature and pressure of the fluid vapor, the fluid containing the obtained product is taken out from the cylinder, and new fluid vapor is blown into the cylinder to periodically take in and out the exhaust stroke. In this reaction engine, the reaction engine is provided with a valve operating mechanism for driving and stopping the intake and exhaust valves, and a second intake valve for introducing steam set higher than the intake steam into the cylinder. The second intake valve is synchronized with the drive timing of the reaction engine and is driven at the timing when the intake / exhaust valve is stopped. Reactor organic reactants such as with supercritical fluid or subcritical fluid and introducing the high vapor.   As the valve mechanism, a camshaft that is driven by engagement with a pin is provided in the reaction engine, and the intake and exhaust of the reaction engine is controlled by controlling the drive and stop of the camshaft by fitting and disengaging the pin to the camshaft. 5. The reaction apparatus for reacting an organic reactant with a supercritical fluid or a subcritical fluid according to claim 4, wherein the stroke is driven and stopped.

Images