CN201135886Y - Refrigeration and microwave irradiation incorporated microwave chemical reaction device - Google Patents

Abstract

The utility model relates to a microwave chemical reaction device in the chemical research and chemical industry field, in particular to a microwave chemical reaction for the research and the pilot experiment and the mass production amplification under the low temperature condition. The utility model provides the microwave chemical reaction device which integrates the refrigeration and the microwave irradiation into a whole, which comprises a microwave irradiating cavity, an embedded type microwave reaction vessel, a microwave power supply, magnetron and a refrigerating device, wherein the embedded type microwave reaction vessel is arranged in the microwave irradiating cavity, the microwave irradiating cavity is directly connected with the refrigerating device through which the microwave irradiating cavity can be continuously refrigerated, and the microwave power supply and magnetron is connected with the microwave irradiating cavity. The microwave chemical reaction device has the advantages that the high strength and high density microwave irradiation can be provided, the speed of the chemical reaction is largely enhanced, simultaneously, the reaction system is also under the low temperature or the ultra-low temperature condition, thus the sufficient reaction activity energy is provided under the low temperature condition, the reaction speed is enhanced, and the destructive effects of the molecular structure, the activity and the morphology of the reactant or the target object because of the high temperature are overcome.

Description

Refrigeration and microwave irradiation integrated microwave chemical reaction apparatus

Technical field

The utility model relates to the microwave chemical reaction apparatus in Essential Chemistry research and the chemical field, particularly relates to the microwave chemical reaction apparatus of repercussion study, pilot scale and the volume production amplification of all microwave chemicals that need carry out under the lower temperature condition.

Background technology

In traditional heat chemistry system, improve chemical reaction velocity mainly by increasing temperature of reaction system, still, improve the heat chemistry system of temperature of reaction system by the conduction of energy, become the forward proportionate relationship between temperature and the energy, the simultaneous temperature that promptly increases energy also can improve thereupon.And the problem that stability of molecule reduces can appear in the raising of temperature of reaction system.Therefore, be not enough to provide sufficient reaction activity under the cryogenic conditions, reaction speed is too slow, and high temperature forms the destruction to molecular structure, activity, form.So under lower safe temperature condition, improving the productive rate and the reaction speed of chemical reaction and optimizing response path is the difficult problem of chemical research and chemical field always.

Microwave reaction has fast, the good selective of speed with respect to the ordinary hot chemical reaction, but the design of microwave current chemical devices, only being confined to replace with microwave energy the thermochemical techniques thinking of heat conduction energy, still is to improve temperature of reaction system by increasing microwave power.There is the problem of stability of molecule equally with traditional heat chemistry system, be not enough to provide sufficient reaction activity under the cryogenic conditions, and high temperature forms the destruction to molecular structure, activity, form.Though on this basis, proposition is also arranged,, the technical thought by the contact-making surface that increases reaction vessel and cold air is arranged also sending into the thinking that heats in the microwave cavity again after the sample cooling by cooling off the feed system of material in advance.But on the basis of common microwave chemical reaction, material is carried out microwave irradiation after pre-cooled, the temperature that can not change reaction system under the microwave action raises and fluctuation, real reaction temperature course and microwave irradiation condition also can't quantize and reappear at all, because microwave acts on reaction system with the light velocity, material moment after pre-cooled is returned to the normal temperature state identical with common microwave reaction original state, its subsequent process is equal to common microwave reaction, remain and utilize microwave that reactant mixture matter is carried out direct irradiation, improve by microwave power that the pattern of mixture temperature reacts, essential variation does not take place with the difference of traditional heat conduction mode of heating in its mode of heating.

The CoolMate system that has only U.S. CE M company that is used for the research of low-temperature microwave chemical reaction condition at present, it adopts the jacketed reaction pipe, utilization adds dry ice-n-hexane mixture and reduces reaction temperature in jacket pipe, but can only carry out synthesis under normal pressure, and reaction tube volume maximum is 7mL only, can only carry out the repercussion study of denier, and the cost of control reaction condition is too high.

The utility model content

The purpose of this utility model is exactly at above-mentioned the deficiencies in the prior art, a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus are provided, it can provide high strength, highdensity microwave irradiation, when significantly improving chemical reaction velocity, reaction system is under low temperature or the condition of ultralow temperature, thereby under cryogenic conditions, provide sufficient reaction activity, improve reaction speed, overcome the destruction of Yin Gaowen reactant or object molecular structure, activity, form.

For achieving the above object, the utility model is by the following technical solutions: a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus are provided, it comprises the microwave irradiation chamber, embedded microwave reaction container, microwave power supply and magnetron, refrigerating plant, described embedded microwave reaction container is arranged in the microwave irradiation chamber, the microwave irradiation chamber with can the refrigerating plant of microwave irradiation chamber continuous cooling directly be linked to each other, microwave power supply and magnetron link to each other with the microwave irradiation chamber.

As of the present utility model a kind of preferred, said apparatus is provided with a control device that has central processing unit, and described microwave power supply and magnetron link to each other with the central processing unit of control device.

As of the present utility model a kind of preferred, above-mentioned refrigerating plant comprises coolant circulating device, compressor and the refrigerant flow rate sensor that links to each other in turn.

As of the present utility model a kind of preferred, above-mentioned embedded microwave reaction container is connected by the input/output interface that has microwave yoke stream ring with the microwave irradiation chamber.

As of the present utility model a kind of preferred, the connecting interface place in above-mentioned embedded microwave reaction container and microwave irradiation chamber is provided with the sealing device that guarantees that refrigerant flows in the microwave irradiation chamber.

As of the present utility model a kind of preferred, devices such as the sample introduction of the input/output interface of above-mentioned Embedded microwave reaction container by having yoke stream ring and outside, liquid feeding, aerating, cleaning, discharging are connected.

As of the present utility model a kind of preferred, the material of above-mentioned Embedded microwave reaction container is corrosion resistant PFA material, quartz or the Pyrex boronation glass to microwave.

As of the present utility model a kind of preferred, above-mentioned Embedded microwave reaction container shapes is reactor shape, U-shaped, O shape, spirality or Double-spiral.

As of the present utility model a kind of preferred, above-mentioned microwave power supply and magnetron are one or more.

As of the present utility model a kind of preferred, above-mentioned microwave frequency is 915MHz or 2450MHz.

As of the present utility model a kind of preferred, above-mentioned microwave irradiation chamber is outside equipped with heat-insulation layer.

As of the present utility model a kind of preferred, but above-mentioned embedded microwave reaction container links to each other with the efficient nothing axle recirculation unit of anti-microwave leakage.

As of the present utility model a kind of preferred, the microwave irradiation chamber is full of refrigerant.

As of the present utility model a kind of preferred, above-mentioned heat-insulation layer is ceramic fibre heat-insulation layer or the composite filled heat-insulation layer of quartz fibre.

As of the present utility model a kind of preferred, nonpolar low temperature, ultralow temperature flowable state medium that above-mentioned refrigerant absorbs for no microwave.

As of the present utility model a kind of preferred, above-mentioned refrigerant is liquid nitrogen, dry ice-n-hexane mixed liquor, dry ice-heptane mixed liquor, environment friendly refrigerating fluid or the Compressed Gas through cooling off.

As of the present utility model a kind of preferred, above-mentioned control device carries out data by a central processing unit to be handled and feed back control system, automatically adjust described microwave power and refrigerant circulation rate according to the reaction condition of setting, to keep stable reaction temperature and microwave power.

Compared with prior art, the utility model adopts the beneficial effect of technique scheme to be:

The utility model can improve the efficient of chemical reaction effectively under lower temperature conditions, specifically mainly show the following aspects.

1, substantially all be by adopting the heat chemistry system method of energy conduction, improve temperature of reaction system, increase reactant molecule energy, thereby quickening reaction process in traditional Essential Chemistry research and the chemical field; Or replacing the thermochemical techniques route of heat conduction energy with microwave energy, it only by increasing microwave power, improves temperature of reaction system, accelerates reaction process.And temperature of reaction system is too high, has formed the destruction to molecular structure, activity, form again, and the stability of reactant molecule is descended thereupon, and has increased effects such as temperature-sensitive side reaction.The utility model has thoroughly changed this conventional art thinking, adopted the reverse proportion technique of energy, but keep the specific temperature regime of reaction system by the continuous fast circulation of the real-time monitoring of refrigerant, the superpower microwave energy that directly acts on reactant molecule is provided simultaneously, obtaining under the condition of sufficient microwave irradiation thereby make at reactant, reaction system still keeps stable safe temperature, make kinetics situation generation basic change, the activation energy that reactant directly obtains to exceed the quata adds, simultaneously still can effectively keep reactant and target produce molecular conformation and stability of structure at the quickening reaction process, integrality, and effectively reduce even eliminate the temperature-sensitive side reaction of synthetic and extractive reaction.

2, microwave reaction has fast, the good selective of speed with respect to the ordinary hot chemical reaction, but the design limitation of microwave current chemical devices still is by increasing the scheme that microwave power improves temperature of reaction system in the thermochemical techniques thinking that replaces heat conduction energy with microwave energy.Have the problem of stability of molecule equally with traditional heat chemistry system, reaction speed is too slow under the cryogenic conditions, and high temperature forms the destruction to molecular structure, activity, form.Though on this basis, proposition is also arranged recently,, the thinking by the contact-making surface that increases reaction vessel and cold air is arranged also sending into the thinking that heats in the microwave cavity again after the sample cooling by cooling off the feed system of material in advance.On the basis of common microwave chemical reaction, material is carried out microwave irradiation after pre-cooled, the temperature that can not change reaction system under the microwave action raises and fluctuation, real reaction temperature course and microwave irradiation condition also can't quantize and reappear at all, because microwave acts on reaction system with the light velocity, material moment after pre-cooled is returned to the normal temperature state identical with common microwave reaction original state, its subsequent process is equal to common microwave reaction, remain and utilize microwave that reactant mixture matter is carried out direct irradiation, improve by microwave power that the pattern of mixture temperature reacts, essential variation does not take place with the difference of traditional heat conduction mode of heating in its mode of heating.

The utility model device can be full of the refrigerant that circulates continuously the integrated microwave irradiation chamber of whole insertion reaction container, circulate continuously by refrigerant and to keep the specific temperature regime of reaction system, the superpower microwave energy that directly acts on reactant molecule is provided simultaneously, in fast reaction speed, system temperature is maintained safe low-temperature condition, guarantee reactant and target product molecular conformation and stability of structure, and effectively reduce even eliminate the temperature-sensitive side reaction.

3, the CoolMate system that has only U.S. CE M company that is used for the research of low-temperature microwave chemical reaction condition at present, it adopts the jacket type reaction tube, and utilization adds dry ice-n-hexane mixture and reduces reaction temperature in jacket pipe, but can only carry out synthesis under normal pressure.In addition, because of the interior heat characteristic of the sub-cooled of jacket pipe and microwave irradiation certainly leads to thermograde difference in the reaction system, CoolMate reaction tube diameter and volume can't amplify at all, and maximum is 7mL only, can only carry out the repercussion study of denier.

The utility model device can be full of the refrigerant that circulates continuously the integrated microwave irradiation chamber of whole insertion reaction container, by using the utility model people's utility model patent: air lifting reverse circulation agitating apparatus, reactant can obtain to stir fully and mixing in reaction tube, becomes a reality thereby the strong microwave energy irradiation of low temperature chemical reaction is amplified.

The utility model device can also with utility model people's an other utility model patent: building block system microwave chemical reaction amplifying device combines, realize the linear dischargeable capacity (volume) that increases the microwave irradiation chamber, can improve the scale of low temperature-ultralow temperature microwave chemical reaction to greatest extent, be applied to use until amplifications such as suitability for industrialized production from the research of low-temperature microwave chemical reaction condition, condition pilot scale.

Following experimental data is in order to illustrate compared with prior art, and the utility model adopts technique scheme beneficial effect in practice.

1, the beneficial effect in organic polymer is synthetic

Poly-lactic acid in high molecular weight (PLA): adopt this device that L-lactic acid is carried out direct polycondensation, catalyst amount is 0.05wt% only, only 70 ℃ of reaction temperatures, and reaction time 40min can obtain molecular weight up to 18 * 10 ⁴The PLLA of g/mol, optical purity 99.5%.

Above parameter all is better than the very high two-stage polymerization method of cost (lactide ring-opening polymerisation) preparation PLA: the synthetic PLA condition of lactide ring-opening polymerisation microwave is: catalyst amount 0.25wt%, 120 ℃ of reaction temperatures, reaction time 60min, molecular weight of product 10 * 104g/mol, optical purity about 90%.

(catalyst amount is bigger more to be better than conventional microwave lactic acid direct polycondensation reaction, under 160-180 ℃ of high temperature, react 100-120min, molecular weight is about below 60000, and optical purity can only reach about 70%), reason is the racemization that exists under the long-time hot conditions.

2, the beneficial effect in nanometer is synthetic

Au nanometer rods, nano wire synthesize: (HAuCl4-glycol system) adopts this device, only need at 60 ℃, high-intensity microwave irradiation 15 minutes, nanometer rods, the nano wire yield that can obtain 160 ℃ of microwave irradiation 60min of conventional microwave device are better than conventional microwave device.

3, the beneficial effect in medicine synthetic (the synthetic Suzuki reaction of bulk drug)

For the higher reaction of steric hindrance, this device improves more obvious than conventional microwave reactor productive rate.

4, the beneficial effect in the biological effective components extraction

Several method is to the comparison of total saponin(e effect of extracting in the genseng:

Method name	Solvent	Extraction temperature	Extraction times	The extraction time	Total saponin(e yield
						Reflux extraction	Methyl alcohol	80℃	3 times	3h	4.93％
Ultrasonic extraction	Water-saturated n-butanol	30℃	2 times	1h	5.01％
						Microwave abstracting	Irradiation/the solvent extraction of methyl alcohol solvent-free microwave	90/40℃	2 times	30min	5.02％
The extraction of this device	Methyl alcohol homogenate microwave irradiation/microwave solvent extraction	60/30℃	1 time	20min	5.59％

Description of drawings

Fig. 1 the utility model system block diagram;

Fig. 2 microwave irradiation cavity configuration schematic diagram;

Fig. 3 double helix reaction vessel structural representation;

Fig. 4 single-screw reaction vessel structural representation;

Fig. 5 U type/O type reaction vessel structural representation;

Fig. 6 still reaction structure of container schematic diagram;

Fig. 7 refrigeration system/coolant circulating system structural representation;

Fig. 8 control device structural representation.

1-microwave irradiation chamber; The 2-anticorrosive coat; 3-microwave power supply and magnetron; The 4-heat-insulation layer; The embedded microwave reaction container of 5-; The last access interface of 6-; Access interface under the 7-; The last refrigerant interface of 8-; Refrigerant interface under the 9-; The 10-charging adds gas port; 11-bridge-type communicating pipe; The 12-locking device; 13-does not have an agitating device; The 14-refrigeration system; The 15-coolant circulating system; The 16-refrigerant cycle apparatus; The 17-compressor; 18-cold-producing medium flow sensor; The 19-refrigerant replenishes interface; The 20-safety valve; 21-refrigerant storage tank; The high and low limit of 22-refrigerant detects and warning device; 23-refrigerant circulating pump; 24-refrigerant flow rate sensor; The 25-control device; The 26-central processing unit; 27-microwave power supply and magnetron control system; 28-temperature, pressure, flow, PH control system.

The specific embodiment

Below in conjunction with the drawings and specific embodiments device of the present utility model is done to introduce further, but not as to qualification of the present utility model.

As shown in Figure 1, be system block diagram of the present utility model.The utility model can comprise microwave irradiation chamber and the embedded microwave reaction container of device in the microwave irradiation chamber, and the available microwave frequency in microwave irradiation chamber is 915MHz or 2450MHz.Microwave power supply and magnetron, refrigerating plant, temperature feedback system and control device, the microwave irradiation chamber with can the refrigerating plant of microwave irradiation chamber continuous cooling directly be linked to each other, the refrigerant that circulates is provided continuously and is full of whole microwave irradiation chamber by coolant circulating device, refrigerating plant, reaction vessel is surrounded by the high-efficiency coolant of continuous-flow all the time, reaching and to keep specific low-temp reaction condition, and minimum reaching-100 ℃.Microwave power supply and magnetron link to each other with the microwave irradiation chamber, and reactant can obtain high-intensity microwave irradiation energy.Control device can be controlled the temperature in microwave irradiation chamber by temperature feedback system.

As shown in Figure 2, be microwave irradiation cavity configuration schematic diagram.Anticorrosive coat 2 is arranged on the outer surface in microwave irradiation chamber 1, outside the anticorrosive coat 2 is heat-insulation layer 4, microwave power supply and magnetron 3 link to each other with the microwave irradiation chamber, embedded microwave reaction container 5 is arranged in microwave power supply and the magnetron 3, the top of embedded microwave reaction container 5 is provided with access interface 6, and the bottom is provided with down access interface 7; Last access interface 6, down all be provided with yoke stream ring on the access interface 7, be connected with devices such as the sample introduction of outside, liquid feeding, aerating, cleaning, dischargings.Refrigerant interface 8 is set above the microwave irradiation chamber 1, refrigerant interface 9 is set down below.The microwave irradiation chamber 1 outer heat-insulation layer 4 that is provided with can be selected the heat-insulation layer of ceramic fibre material or the heat-insulation layer of quartz fibre composite filling material.

As shown in Figure 3, be double helix reaction vessel structural representation.The double helix reaction vessel is arranged in the microwave irradiation chamber 1, its top is provided with charging and adds gas port 10, charging has added gas port 10 outside devices locking device 11, the flexible pipe 12 of bridge-type adds gas port 10 with two chargings of double helix reaction vessel and is connected, double helix reaction vessel bottom is provided with and has or not an agitating device 13, belongs to the efficient nothing axle recirculation unit that can prevent microwave leakage.Reaction container materials selects can certainly similarly other material of same performance be arranged to the material modified PFA of teflon microwave, that have the good resistance permeance property, quartz or Pyrex boronation glass.

As shown in Figure 4, be single-screw reaction vessel structural representation, Fig. 5 is U type/O type reaction vessel structural representation, and Fig. 6 is a still reaction structure of container schematic diagram.Can see that these several differences with Fig. 3 double helix reaction vessel only are that the shape of reaction vessel is different, other structure is identical with the double helix reaction vessel.

As shown in Figure 7, be refrigeration system/coolant circulating system structural representation.Refrigeration system 14 comprises the refrigerant cycle apparatus 15 that links to each other in turn, compressor 16, cold-producing medium flow sensor 17.Coolant circulating system 18 comprises that refrigerant replenishes interface 19, safety valve 20, and refrigerant storage tank 21, the high and low limit of refrigerant detects and warning device 22 refrigerant circulating pump 23, refrigerant flow rate sensor 24.Refrigerant generally selects not have nonpolar low temperature, the ultralow temperature flowable state medium that microwave absorbs, and can be liquid nitrogen, dry ice-n-hexane mixed liquor, dry ice-heptane mixed liquor, environment friendly refrigerating fluid, the Compressed Gas through cooling off.

As shown in Figure 8, be the control device structural representation.Control device 25 comprises central processing unit 26, and microwave power supply and magnetron control system 27 link to each other with central processing unit 26 respectively with temperature, pressure, flow, PH control system 28.Microwave power supply and magnetron 3, coolant circulating system 18 and refrigerating plant 14, temperature, pressure, flow, various response parameter checkout gears such as flow velocity are all by microwave power supply and magnetron control system 27 and temperature, pressure, flow, PH control system 28 links to each other with central processing unit 26 respectively, but central processing unit write-in program control software is added up various response parameters, computing, and by the PID mode, automatically adjust microwave power and refrigerant circulation rate according to the reaction condition of setting, reach accurate control response parameter, when making reactant obtain superpower microwave irradiation purpose, make conventional thermal chemical reaction temperature maintenance in safe temperature, minimumly can reach-100 ℃.

The utility model also can be called a kind of microwave chemical reaction apparatus utility model with another name of utility model people and combine, the linearity that can realize microwave irradiation chamber dischargeable capacity simultaneously increases (volume), can improve the scale of low temperature-ultralow temperature microwave chemical reaction to greatest extent, be applied to use until amplifications such as suitability for industrialized production from the research of low-temperature microwave chemical reaction condition, condition pilot scale.

The above is preferred embodiment of the present utility model only, is not to be used for limiting practical range of the present utility model; If do not break away from spirit and scope of the present utility model, the utility model is made amendment or is equal to replacement, all should be encompassed among the protection domain of claim of the present utility model.

Claims (15)

1, a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: it comprises the microwave irradiation chamber, embedded microwave reaction container, microwave power supply and magnetron, refrigerating plant, described embedded microwave reaction container is arranged in the microwave irradiation chamber, the microwave irradiation chamber with can the refrigerating plant of microwave irradiation chamber continuous cooling directly be linked to each other, microwave power supply and magnetron link to each other with the microwave irradiation chamber.

2, according to described a kind of refrigeration of claim 1 and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: also be provided with a control device that has central processing unit, described microwave power supply and magnetron link to each other with the central processing unit of control device.

3, according to described a kind of refrigeration of claim 1 and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: described refrigerating plant comprises coolant circulating device, compressor and the refrigerant flow rate sensor that links to each other in turn.

4, according to claim 1 or 2 described a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: described embedded microwave reaction container is connected by the input/output interface that has microwave yoke stream ring with the microwave irradiation chamber.

5, according to claim 1 or 2 described a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: the connecting interface place in described embedded microwave reaction container and microwave irradiation chamber is provided with the sealing device that guarantees that refrigerant flows in the microwave irradiation chamber.

6, according to claim 1 or 2 described a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: described Embedded microwave reaction container is connected with sample introduction, liquid feeding, aerating, cleaning, the drawing mechanism of outside by the input/output interface with yoke stream ring.

7, according to claim 1 or 2 described a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: the material of described Embedded microwave reaction container is corrosion resistant PFA material, quartz or Pyrex boronation glass to microwave.

8, according to claim 1 or 2 described a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: described Embedded microwave reaction container shapes is reactor shape, U-shaped, O shape, spirality or Double-spiral.

9, according to claim 1 or 2 described a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: described microwave power supply and magnetron are one or more.

10, according to claim 1 or 2 described a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: described microwave irradiation chamber is outside equipped with heat-insulation layer.

11, according to claim 1 or 2 described a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: but described embedded microwave reaction container links to each other with the efficient nothing axle recirculation unit of anti-microwave leakage.

12, according to claim 1,2 or 3 described a kind of refrigeration and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: described microwave irradiation chamber is full of refrigerant.

13, according to described a kind of refrigeration of claim 10 and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: described heat-insulation layer is ceramic fibre heat-insulation layer or the composite filled heat-insulation layer of quartz fibre.

14, according to described a kind of refrigeration of claim 12 and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: nonpolar low temperature, ultralow temperature flowable state medium that described refrigerant absorbs for no microwave.

15, according to described a kind of refrigeration of claim 14 and microwave irradiation integrated microwave chemical reaction apparatus, it is characterized in that: described refrigerant is liquid nitrogen, dry ice-n-hexane mixed liquor, dry ice-heptane mixed liquor, environment friendly refrigerating fluid or the Compressed Gas through cooling off.

Images