CN107560014A - Zero waste gas high pressure dehumidification system for runner and method - Google Patents

Abstract

The invention discloses a kind of zero waste gas high pressure dehumidification system for runner and method, the system includes air compressor, divides air-valve, processing crosswind machine, processing side cooler, mixer selector valve, processing crosswind road, rotary wheel dehumidifying area, regeneration crosswind road, regeneration crosswind machine, regeneration side cooler, rotary wheel regeneration area, air outlet, driving motor, desiccant wheel；It is connected with the air compressor on the processing crosswind road in turn, described divides air-valve, the processing crosswind machine, the processing side cooler, the mixer selector valve, the rotary wheel dehumidifying area, the air outlet.The present invention realizes recycling for efficient dehumidifying under runner condition of high voltage and system air.

Description

Zero waste gas high pressure dehumidification system for runner and method

Technical field

The present invention relates to a kind of system and method in gas dehumidification field, in particular it relates to a kind of zero waste gas high pressure runner Dehumidification system and method, it shunts Posterior circle utilization to needing dry compressed air to carry out.

Background technology

Rotary wheel dehumidifying technology belongs to an important branch of field of air conditioning, is the Typical Representative of heating dehumidifying, in recent years, turns Wheel dehumidifying relies on the advantages such as its simple and compact, operational efficiency are high, moisture removal is big, progressively turns into the focus of research.From civilian room Interior dehumidifying, the freezer to vegetables and fruits is dried, then is air-dried to pharmaceutical factory etc., and dehumidification system for runner is widely used to live and given birth to In production.In addition, desiccant wheel is also applied in the special dimension of compressed air depth dehumidifying.High relative humidity in compressed air Moisture content can gradually be separated out during tube-cooled, corrosion is caused to pipeline equipment, influence air compressor machine and other set with gas Standby performance and service life, therefore it is necessary that processing, which is dried, in the compressed air exported to air compressor machine.Compared to Conventional air-conditioning is run, and when desiccant wheel is applied to compressed air drying, operating condition is changed into high pressure operating mode from open type atmospheric pressure, The absorption of solid drier and desorption ability will change, and under high pressure working environment, the adsorption capacity of runner gets a promotion.

Rotary wheel dehumidifying technology use cellular structure desiccant wheel, using be attached to the solid drier on runner sill as Sorbing material, the moisture handled in air of adsorption penetration runner, is then entered with high temperature dry air to aqueous runner part Row regeneration.Desiccant wheel is rotated with the fixed cycle by motor driving, moisture absorption regeneration actions are continuously repeated, so as to provide drying Air.Widely used heater carries out rotary wheel regeneration after being heated to air in dehumidification system for runner at present, increases energy consumption.Together When, because the drier moisture pick-up properties of desiccant wheel under normal pressure is limited, it may be difficult to reach the requirement of some depth dehumidifying standard.

Found through being retrieved to the open source literature of prior art, to solve the above problems, Chinese Patent Application No. is A kind of 201120466369.3 " afterheat recycling system of rotating wheel dehumidifier unit " patent is by being removed in the runner of double runner structure In wet unit, the temperature of outgoing air at rear class runner is recycled, prime runner heat supply is given, reduction energy consumption is played to whole system Effect, although compared with conventional rotor system, energy consumption decreases, however system can not realize zero waste gas discharge, be simultaneously The deficiency that volume is larger, construction is complicated, cost is higher in itself be present in system；Chinese Patent Application No. is 201510005727.3 " low grade residual heat reclaiming type energy-saving dehumidifier group " patent is by installing a recuperation of heat runner additional, being carried out using low grade residual heat Desiccant wheel regenerates, and reduces final leaving air temp, although the Energy Efficiency Ratio of dehumidification system increases, system bulk is larger, and The dehumidification rate of runner could not be improved.

The content of the invention

The technical problems to be solved by the invention are to provide a kind of zero waste gas high pressure dehumidification system for runner and method, and it is used After compressor carries out air pretreatment, high-pressure hot air is shunted；Most of air is by cooler, at least partially through turning Take turns the reproduction operation that renewing zone carries out runner；By the air of regenerative process, converge after cooling with above-mentioned most of air, as Processing air is dehumidified into rotary wheel dehumidifying area, is finally conveyed to user, realize efficient dehumidifying under runner condition of high voltage with And system air recycles.

The present invention is that solve above-mentioned technical problem by following technical proposals：A kind of zero waste gas high pressure rotary wheel dehumidifying system System, it includes air compressor, divides air-valve, processing crosswind machine, processing side cooler, mixer selector valve, processing crosswind road, rotary wheel dehumidifying Area, regeneration crosswind road, regeneration crosswind machine, regeneration side cooler, rotary wheel regeneration area, air outlet, driving motor, desiccant wheel；

It is connected with the air compressor on the processing crosswind road in turn, described divides air-valve, the processing crosswind machine, institute State processing side cooler, the mixer selector valve, the rotary wheel dehumidifying area, the air outlet；

Divide air-valve, the regeneration crosswind machine, the rotary wheel regeneration area, institute described in being connected with turn on the regeneration crosswind road State regeneration side cooler and the mixer selector valve；

The described point of air-valve connection processing crosswind road and the regeneration crosswind road；

The rotary wheel regeneration area connection regeneration side cooler；

The driving motor connects the desiccant wheel；

The rotary wheel dehumidifying area, rotary wheel regeneration area are all located on desiccant wheel；

The surface of the desiccant wheel is provided with solid dehumidifying material.

Preferably, the pressure-air of the air compressor outflow flows through a point air-valve and shunted, the sky in the regeneration crosswind road Air-flow flows back in the mixer selector valve after the rotary wheel regeneration area, the renewing zone cooler.

Preferably, the air compressor, divide air-valve, processing crosswind machine, processing side cooler, mixer selector valve, processing crosswind Road, rotary wheel dehumidifying area, regeneration crosswind road, regeneration crosswind machine, regeneration side cooler, rotary wheel regeneration area, air outlet, driving motor are all It is connected with a power supply module, for being carried to the air compressor of system, blower fan, cooler, runner motor and following module Power supply power.

Preferably, air pressure sensing module is connected with an air pressure adjustment module, and air pressure adjustment module is used Whole device is maintained under the pressure environment of setting numerical value in control air compressor；

Air-valve is divided to be connected with a first air flow control module, the first air flow control module passes through adjusting air valve The size of middle air flow cross sectional area, regulation is controlled to air mass flow；

Processing crosswind machine is connected with a first wind speed measurement module, and the first wind speed measurement module is to the air stream in air channel Dynamic speed is detected；

First wind speed measurement module is connected with first speed adjusting module, and the first speed adjusting module is examined by reading The speed air flow of survey, adjusted to setting value；

Processing side cooler is connected with first temperature control modules, and the first temperature control modules are connected cooler Temperature at mouthful is controlled；

Mixer selector valve is connected with a second air flow control module, and the second air flow control module is connected also by tune The size of air flow cross sectional area in air-valve is saved, regulation is controlled to air mass flow；

Processing crosswind road is connected with a first temperature and humidity sensing module, and the first temperature and humidity sensing module is to runner treatment region Detected and sampled with the entrance humiture of renewing zone；

First temperature and humidity sensing module is connected with a first pressure detection module, first pressure detection module to runner at The inlet pressure of reason area and renewing zone is detected and sampled；

Rotary wheel dehumidifying area is connected with a drier humidity detecting module, and drier humidity detecting module is done to runner inside The humidity of drying prescription is detected and sampled；

Drier humidity detecting module is connected with an oneself state detection module, oneself state detection module oneself state Detection module；

Regeneration crosswind road is connected with a second temperature and humidity sensing module, and the second temperature and humidity sensing module is also to runner processing The entrance humiture of area and renewing zone is detected and sampled；

Second temperature and humidity sensing module is connected with a second pressure detection module, and second pressure detection module is also to runner The inlet pressure for the treatment of region and renewing zone is detected and sampled；

Regeneration crosswind machine is connected with a second wind speed measurement module, and the second wind speed measurement module is also to the air in air channel Flowing velocity is detected；

Second wind speed measurement module is connected with second speed adjusting module, and the second speed adjusting module is also by reading The speed air flow of detection, adjusted to setting value；

Regeneration side cooler is connected with a second temperature control module, and second temperature control module is also to cooler outlet The temperature at place is controlled；

Driving motor is connected with a rotational speed regulation module, and rotational speed regulation module is used for the regulation to runner rotating speed；

Air outlet is connected with a humidity detecting module, and humidity detecting module is used for the sky for detecting user terminal at outlet of rotary wheel Air humidity degree, and then evaluate the operational effect of desiccant wheel；

Humidity detecting module is connected with a personal-machine interactive module, and human-computer interaction module is used for user terminal for temperature, wet Degree, the parameter setting of pressure condition and numerical value are shown；

Human-computer interaction module is connected with a storage module, and setting state and supplemental characteristic of the storage module to user are carried out Storage.

The present invention also provides a kind of zero waste gas high pressure rotary wheel dehumidifying method, and it comprises the following steps：Pending air is from sky After air compressor comes out, into dividing air-valve, in air-valve is divided, pending air with certain proportion be divided into processing side air and Regeneration side air (such as 1：3)；Regeneration side air flows into rotary wheel regeneration by regenerating crosswind road in the presence of crosswind machine is regenerated Area, after being flowed out from rotary wheel regeneration area, regeneration side cooler is flowed through, and enter mixer selector valve；Side air is handled after dividing air-valve to flow out, Processing side cooler is flowed through in the presence of crosswind machine is handled, and enters mixer selector valve；Two strands of air flow out after mixer selector valve mixing, By handling crosswind road, into rotary wheel dehumidifying area, user is sent to finally by air outlet.

Compared with prior art, the present invention has following beneficial effect：

First, under condition of high voltage, the absorption property in runner except wet stock is obviously improved, and the present invention is compressed using air Machine provides hyperbaric environment for gas dehumidification process, and compared to runner under normal pressure, dehumidifying effect is stronger, is adapted to the dehumidifying of higher standard will Ask.

Second, the present invention is used as regeneration gas using the shunting of air compressor exit gas, eliminates heater and provides again The link of heat, compared with common desiccant wheel system, reduce energy expenditure and space hold needed for regenerative heater.

3rd, the present invention compared with common dehumidification system for runner, saves pending air flow to rotary wheel regeneration area The input and discharge of regeneration gas, realize zero waste gas effect, meanwhile, the gas of renewing zone backflow reduces cooler and is used to drop Energy consumption needed for low high temperature high pressure process gas temperature.

Brief description of the drawings

The detailed description made by reading with reference to the following drawings to non-limiting example, further feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is the theory diagram of zero waste gas high pressure dehumidification system for runner of the invention.

Embodiment

Present pre-ferred embodiments are provided below in conjunction with the accompanying drawings, to describe technical scheme in detail.

As shown in figure 1, zero waste gas high pressure dehumidification system for runner of the invention includes air compressor 1, divides air-valve 2, processing side Blower fan 3, processing side cooler 4, mixer selector valve 5, processing crosswind road 6, rotary wheel dehumidifying area 7, regeneration crosswind road 8, regeneration crosswind machine 9, Regenerate side cooler 10, rotary wheel regeneration area 11, air outlet 12, driving motor 13, desiccant wheel；

It is connected with the air compressor on the processing crosswind road in turn, described divides air-valve, the processing crosswind machine, institute State processing side cooler, the mixer selector valve, the rotary wheel dehumidifying area, the air outlet；

Divide air-valve, the regeneration crosswind machine, the rotary wheel regeneration area, institute described in being connected with turn on the regeneration crosswind road State regeneration side cooler and the mixer selector valve；

The described point of air-valve connection processing crosswind road and the regeneration crosswind road；

The rotary wheel regeneration area connection regeneration side cooler；

The driving motor connects the desiccant wheel；

The rotary wheel dehumidifying area, rotary wheel regeneration area are all located on desiccant wheel；

The surface of the desiccant wheel is provided with solid dehumidifying material.

The pressure-air of the air compressor outflow flows through a point air-valve and shunted, and the air in the regeneration crosswind road flows through institute Flowed back after stating rotary wheel regeneration area, the renewing zone cooler in the mixer selector valve.

Air compressor exports and divides air-valve entrance to be connected, and divides air-valve one outlet to be connected with the import of rotary wheel regeneration area, Another outlet of air-valve is divided to be connected with processing side cooler entrance, the outlet of rotary wheel regeneration area regenerates side cooler entrance with another After being connected, processing side cooler outlet, regeneration side cooler outlet all access mixer selector valve entrance, and access runner in mixer selector valve outlet removes Wet area's import, the air after output dehumidification treatments is exported by rotary wheel dehumidifying area.

The air compressor 1, divide air-valve 2, processing crosswind machine 3, processing side cooler 4, mixer selector valve 5, processing crosswind road 6th, rotary wheel dehumidifying area 7, regeneration crosswind road 8, regeneration crosswind machine 9, regeneration side cooler 10, rotary wheel regeneration area 11, air outlet 12, biography Dynamic motor 13 is all connected with a power supply module, for the air compressor to system, processing crosswind machine, processing side cooler, Regenerate crosswind machine, regeneration side cooler, runner motor, driving motor, desiccant wheel and electric power is provided.

The air compressor 1 is connected with an air pressure sensing module, and air pressure sensing module compresses to air The air in machine exit carries out piezometry；

Air pressure sensing module is connected with an air pressure adjustment module, and air pressure adjustment module is used to control sky Whole device is maintained under the pressure environment of setting numerical value by air compressor；

Air-valve 2 is divided to be connected with a first air flow control module, the first air flow control module is by adjusting wind The size of air flow cross sectional area in valve, regulation is controlled to air mass flow；

Processing crosswind machine 3 is connected with a first wind speed measurement module, and the first wind speed measurement module is to the air in air channel Flowing velocity is detected；

First wind speed measurement module is connected with first speed adjusting module, and the first speed adjusting module is examined by reading The speed air flow of survey, adjusted to setting value；

Processing side cooler 4 is connected with first temperature control modules, and the first temperature control modules are connected to cooler The temperature in exit is controlled；

Mixer selector valve 5 is connected with a second air flow control module, the second air flow control module be connected also by The size of air flow cross sectional area in adjusting air valve, regulation is controlled to air mass flow；

Processing crosswind road 6 is connected with a first temperature and humidity sensing module, and the first temperature and humidity sensing module is to runner processing The entrance humiture of area and renewing zone is detected and sampled；

First temperature and humidity sensing module is connected with a first pressure detection module, first pressure detection module to runner at The inlet pressure of reason area and renewing zone is detected and sampled；

Rotary wheel dehumidifying area 7 is connected with a drier humidity detecting module, and drier humidity detecting module is to runner inside The humidity of drier is detected and sampled；

Drier humidity detecting module is connected with an oneself state detection module, oneself state detection module oneself state Detection module；

Regeneration crosswind road 8 is connected with a second temperature and humidity sensing module, the second temperature and humidity sensing module also to runner at The entrance humiture of reason area and renewing zone is detected and sampled；

Second temperature and humidity sensing module is connected with a second pressure detection module, and second pressure detection module is also to runner The inlet pressure for the treatment of region and renewing zone is detected and sampled；

Regeneration crosswind machine 9 is connected with a second wind speed measurement module, and the second wind speed measurement module is also to the sky in air channel Flow of air speed is detected；

Second wind speed measurement module is connected with second speed adjusting module, and the second speed adjusting module is also by reading The speed air flow of detection, adjusted to setting value；

Regeneration side cooler 10 is connected with a second temperature control module, and second temperature control module also goes out to cooler Temperature at mouthful is controlled；

Driving motor 13 is connected with a rotational speed regulation module, and rotational speed regulation module is used for the regulation to runner rotating speed；

Air outlet 12 is connected with a humidity detecting module, and humidity detecting module is used to detect user terminal at outlet of rotary wheel Air humidity, and then evaluate the operational effect of desiccant wheel；

Humidity detecting module is connected with a personal-machine interactive module, and human-computer interaction module is used for user terminal for temperature, wet Degree, the parameter setting of pressure condition and numerical value are shown；

Human-computer interaction module is connected with a storage module, and setting state and supplemental characteristic of the storage module to user are carried out Storage.

In present system, after carrying out air pretreatment using compressor, high-pressure hot air is shunted；It is most of empty Gas is by cooler, at least partially through the reproduction operation of rotary wheel regeneration area progress runner；By the air of regenerative process, after cooling Converge with above-mentioned most of air, dehumidified as processing air into rotary wheel dehumidifying area, be finally conveyed to user, realized and turn Efficient dehumidifying and system air under wheel condition of high voltage recycle.Pass through described split regeneration, two kinds of backflow dehumidifying Process, it is possible to achieve the zero waste gas discharge of rotary wheel dehumidifying；Said apparatus can realize the dehumidifying of runner under condition of high voltage, also can use In the dehumidification treatments to air compressor tail gas.

Zero waste gas high pressure rotary wheel dehumidifying method of the invention comprises the following steps：

The pressure environment numerical value that air compressor 1 is set according to user, boosting processing is carried out to initial air.After boosting Air after air compressor 1 comes out, into dividing air-valve 2；

Wherein, air pressure sensing module gives the air pressure feedback detected to air pressure adjustment module, air pressure The pressure that power adjustment module inputs according to human-computer interaction module sets numerical value, controls air compressor to change air pressure.

In air-valve 2 is divided, by adjusting the size of air outlet, pressure-air is divided into processing side with certain proportion Air and regeneration side air；

Wherein, the processing side and regeneration side air mass flow ratio that air flow control module is set according to human-computer interaction module, To dividing air-valve to be controlled, the size of air-out open area is adjusted.

Regeneration side air flows into rotary wheel regeneration area 11 by regenerating crosswind road 8 in the presence of crosswind machine 9 is regenerated；

Wherein, the wind speed regenerated in crosswind machine is fed back to speed adjusting module, speed adjusting module by wind speed measurement module The regeneration crosswind speed setting numerical value inputted according to human-computer interaction module, control are regenerated in blower fan to change regeneration crosswind speed；

Wherein, the aerial temperature and humidity detected is fed back to man-machine interaction by temperature and humidity sensing module at rotary wheel regeneration side entrance Module is shown.

Side air is regenerated after the outflow of rotary wheel regeneration area 11, flows through regeneration side cooler 10, and enter mixer selector valve 5；

Wherein, side temperature control modules are regenerated according to the setting in human-computer interaction module to treatment temperature, it is empty to regeneration side Gas carries out cooling regulation.

Processing side air flows through processing side cooler 4 in the presence of crosswind machine 3 is handled, gone forward side by side after dividing air-valve 2 to flow out Enter mixer selector valve 5；

Wherein, the wind speed handled in crosswind machine is fed back to speed adjusting module, speed adjusting module by wind speed measurement module The processing crosswind speed setting numerical value inputted according to human-computer interaction module, control are regenerated in blower fan to change regeneration crosswind speed；

Wherein, setting of the side temperature control modules according to treatment temperature in human-computer interaction module is handled, to handling side air Carry out cooling regulation.

Two strands of air flow out after the mixing of mixer selector valve 5, by handling crosswind road 6, into rotary wheel dehumidifying area 7；

Wherein, air flow control module goes out according to the setting of flow in human-computer interaction module to runner treatment region entrance Flow be adjusted；

Wherein, wherein, temperature and humidity sensing module and air pressure sensing module will detect at runner processing side entrance Aerial temperature and humidity and air pressure feedback are shown to human-computer interaction module；

Wherein, the drier humidity detected is fed back to man-machine interaction mould by the drier humidity detecting module inside runner Block is shown.

Finally, the air after processing is sent to user by air outlet 12；

Wherein, the air humidity that humidity detecting module detects user terminal feeds back to human-computer interaction module and shown, As the standard for judging rotary wheel dehumidifying ability.

Present invention work mainly includes two processes：First process is that pending air is compressed in air compressor Journey：After pending air under normal pressure compresses in air compressor machine, become pressure high temperature hot gas, and by dividing wind under fan action Valve.Second process is by rotary dehumidifier process after pressure-air shunts：(1), HTHP air is through undue air-valve, shunting After going out sub-fraction, the reverse renewing zone for entering desiccant wheel；In renewing zone, in the presence of regenerated heat, desiccant wheel base material Moisture in the hydrous desiccant of surface attachment is absorbed by HTHP air to be taken out of, realizes the regeneration of drying material；Renewing zone Air contained water out, cooled down into cooler.(2) air-valve exit other end major part HTHP air, is divided, Cooler cooling is directly over, and the air come out with cooler in (1) converges, afterwards by the treatment region of runner, by runner Substrate surface solid dehumidifying material adsorption moisture；Dry air is finally conveyed to user.

Particular embodiments described above, technical problem, technical scheme and the beneficial effect of the solution to the present invention are carried out It is further described, should be understood that the specific embodiment that the foregoing is only of the invention, be not limited to The present invention, within the spirit and principles of the invention, any modification, equivalent substitution and improvements done etc., it should be included in this Within the protection domain of invention.

Claims (5)

1. a kind of zero waste gas high pressure dehumidification system for runner, it is characterised in that it includes air compressor, divides air-valve, processing crosswind Machine, processing side cooler, mixer selector valve, processing crosswind road, rotary wheel dehumidifying area, regeneration crosswind road, regeneration crosswind machine, the cooling of regeneration side Device, rotary wheel regeneration area, air outlet, driving motor, desiccant wheel；

It is connected with the air compressor on the processing crosswind road in turn, described divides air-valve, the processing crosswind machine, the place Manage side cooler, the mixer selector valve, the rotary wheel dehumidifying area, the air outlet；

Be connected with turn on the regeneration crosswind road it is described divide air-valve, the regeneration crosswind machine, the rotary wheel regeneration area, it is described again Raw side cooler and the mixer selector valve；

The described point of air-valve connection processing crosswind road and the regeneration crosswind road；

The rotary wheel regeneration area connection regeneration side cooler；

The driving motor connects the desiccant wheel；

The rotary wheel dehumidifying area, rotary wheel regeneration area are all located on desiccant wheel；

The surface of the desiccant wheel is provided with solid dehumidifying material.

2. zero waste gas high pressure dehumidification system for runner as claimed in claim 1, it is characterised in that the air compressor outflow Pressure-air flows through a point air-valve and shunted, and the air in the regeneration crosswind road flows through the rotary wheel regeneration area, renewing zone cooling Flowed back after device in the mixer selector valve.

3. zero waste gas high pressure dehumidification system for runner as claimed in claim 1, it is characterised in that the air compressor, divide wind Valve, processing crosswind machine, processing side cooler, mixer selector valve, processing crosswind road, rotary wheel dehumidifying area, regeneration crosswind road, regeneration crosswind Machine, regeneration side cooler, rotary wheel regeneration area, air outlet, driving motor are all connected with a power supply module, for the sky to system Air compressor, processing crosswind machine, processing side cooler, regeneration crosswind machine, regeneration side cooler, runner motor, driving motor, remove Wet runner provides electric power.

4. zero waste gas high pressure dehumidification system for runner as claimed in claim 3, it is characterised in that the air compressor and one Air pressure sensing module is connected, and air pressure sensing module carries out piezometry to the air in air compressor exit；

Air pressure sensing module is connected with an air pressure adjustment module, and air pressure adjustment module is used to control air pressure Whole device is maintained under the pressure environment of setting numerical value by contracting machine；

Air-valve is divided to be connected with a first air flow control module, the first air flow control module is hollow by adjusting air valve The size of flow of air cross-sectional area, regulation is controlled to air mass flow；

Processing crosswind machine is connected with a first wind speed measurement module, and the first wind speed measurement module is to the air flow speed in air channel Degree is detected；

First wind speed measurement module is connected with first speed adjusting module, and the first speed adjusting module is by reading detection Speed air flow, adjusted to setting value；

Processing side cooler is connected with first temperature control modules, and the first temperature control modules are connected to cooler outlet Temperature be controlled；

Mixer selector valve is connected with a second air flow control module, and the second air flow control module is connected also by regulation wind The size of air flow cross sectional area in valve, regulation is controlled to air mass flow；

Processing crosswind road is connected with a first temperature and humidity sensing module, and the first temperature and humidity sensing module is to runner treatment region and again The entrance humiture in raw area is detected and sampled；

First temperature and humidity sensing module is connected with a first pressure detection module, and first pressure detection module is to runner treatment region Detected and sampled with the inlet pressure of renewing zone；

Rotary wheel dehumidifying area is connected with a drier humidity detecting module, and drier humidity detecting module is to runner internal desiccant Humidity detected and sampled；

Drier humidity detecting module is connected with an oneself state detection module, the detection of oneself state detection module oneself state Module；

Regeneration crosswind road be connected with a second temperature and humidity sensing module, the second temperature and humidity sensing module also to runner treatment region with The entrance humiture of renewing zone is detected and sampled；

Second temperature and humidity sensing module is connected with a second pressure detection module, and second pressure detection module is also to runner processing The inlet pressure of area and renewing zone is detected and sampled；

Regeneration crosswind machine is connected with a second wind speed measurement module, and the second wind speed measurement module is also to the air flow in air channel Speed is detected；

Second wind speed measurement module is connected with second speed adjusting module, and the second speed adjusting module detects also by reading Speed air flow, adjusted to setting value；

Regeneration side cooler be connected with a second temperature control module, second temperature control module also to cooler outlet at Temperature is controlled；

Driving motor is connected with a rotational speed regulation module, and rotational speed regulation module is used for the regulation to runner rotating speed；

Air outlet is connected with a humidity detecting module, and the air that humidity detecting module is used to detect user terminal at outlet of rotary wheel is wet Degree, and then evaluate the operational effect of desiccant wheel；

Humidity detecting module is connected with a personal-machine interactive module, and human-computer interaction module is used for user terminal for temperature, humidity, pressure The parameter setting and numerical value of power condition are shown；

Human-computer interaction module is connected with a storage module, and setting state and supplemental characteristic of the storage module to user are stored up Deposit.

A kind of 5. zero waste gas high pressure rotary wheel dehumidifying method, it is characterised in that it comprises the following steps：Pending air is from air pressure After contracting machine comes out, into air-valve is divided, in air-valve is divided, pending air is divided into processing side air and regeneration with certain proportion Side air；Regeneration side air flows into rotary wheel regeneration area by regenerating crosswind road in the presence of crosswind machine is regenerated, from rotary wheel regeneration After area's outflow, regeneration side cooler is flowed through, and enter mixer selector valve；Processing side air is after dividing air-valve to flow out, in processing crosswind machine In the presence of flow through processing side cooler, and enter mixer selector valve；Two strands of air flow out after mixer selector valve mixing, by handling crosswind Road, into rotary wheel dehumidifying area, user is sent to finally by air outlet.