CN204731128U - A kind of pollution earth porosity and permeability test device - Google Patents

Abstract

The utility model relates to a kind of pollution earth porosity and permeability test device, belongs to environmental geotechnical technical field.This device comprises: framework, pressurized cylinder, mass-flow gas meter, displacement transducer, test specimen tube, six-way valve, gas standard room, pressure transducer and feeder.Mass-flow gas meter can monitor the gas flow by escape pipe; Displacement transducer is for testing the displacement of described piston rod, and pressure transducer is communicated with the second valve port of six-way valve, for the gaseous tension in monitoring test; Pressure transducer, displacement transducer, mass-flow gas meter are gathered automatically by computer, easy to operate accurately, work efficiency is high.This test unit integrates pollution earth porosity and permeability multiparameter synchronism detection, economic and practical, and simplicity of design is reasonable, compact conformation, and method of testing is simple and efficient to handle, can be Contaminants Transport in pollution earth and provides data reference and theoretical direction.

Description

A kind of pollution earth porosity and permeability test device

Technical field

The utility model relates to environmental geotechnical technical field, and particularly one pollutes earth porosity and permeability test device.

Background technology

" national Soil Pollution Investigation publication " (being called for short " publication ") issued in April, 2014, discloses national overall survey of soil result first." publication " is pointed out, " some areas soil pollution is heavier, and arable soil environmental quality causes anxiety, industry and mining discarded ground soil environment outstanding problem in China." soil pollution wide material sources, atmosphere pollution sedimentation, industrial waste water and sanitary sewage discharge, agriculture chemical such as to use at the pollution that all may cause soil.And wherein, the soil pollution that any stacking, incorrect process etc. of especially polluting earth with house refuse, dump slag, mud and sludge etc. cause is the most outstanding.

The pollution channel polluting earth is many, and harm object is wide, relates to field wide, and the environmental hazard that pollution earth brings and health effect have become the focus of international concern.Pollution earth safe handling and recycling relate to the sustainable development of resource, the energy, direct relation national economy and social development, and China will pollute earth and dispose the emphasis regulation object planned as " 12 ".

Porosity and permeability are the engineering properties indexs that Polluted Soil body weight is wanted.Porosity characterizes the macro-indicators polluting earth pore diameter distribution, it is the final reflection of the influence factors such as stress state, yield situation and stress level, porosity is the important parameter affecting porous medium inner fluid transmission performance, and permeability describes the basic parameter polluting contaminant transportation in earth.

But at present, about the patent polluting earth is less, major part utilizes about pollution earth site disposal or recycling treatment, and it is less about the report of the indoor test techniques and methods polluting earth, and there is no instrument and equipment for measuring the porosity and permeability of polluting earth, therefore need a kind of test unit of pollution earth porosity and permeability that can measure of development badly to fill a vacancy.

Utility model content

For above-mentioned Problems existing, the purpose of this utility model is that providing a kind of pollutes earth porosity and permeability test device.

The technical solution adopted in the utility model is:

A kind of pollution earth porosity and permeability test device, comprising: framework, pressurized cylinder, mass-flow gas meter, displacement transducer, test specimen tube, six-way valve, gas standard room, pressure transducer and feeder; Described pressurized cylinder comprises: cylinder body and piston rod; Described cylinder body is vertically fixed on the top of described framework; The piston head of described piston rod end is communicated with escape pipe; Described escape pipe is arranged mass-flow gas meter and flow control valve; Described piston rod arranges displacement transducer; Described test specimen tube is arranged on below described piston rod, the axis of described test specimen tube and the dead in line of described piston rod; Described test specimen tube is fixed on the bottom of framework by holder, and test specimen tube and holder screw thread are connected, and holder is bolted on the bottom surface of framework, are communicated with draft tube bottom described test specimen tube; Described draft tube is connected by threeway with gas outlet, first one end taken over; Described gas outlet is provided with exhaust valve; The other end of described first adapter is connected with the first valve port of described six-way valve; Second valve port of described six-way valve is communicated with described pressure transducer; 3rd valve port of described six-way valve is connected with described gas standard room by the second adapter; 4th valve port of described six-way valve is communicated with feeder by the first gas piping; Described first gas piping is provided with the first pressure regulator valve.

As preferably, described test unit also comprises cylinder driver, and described cylinder driver comprises: High Purity Nitrogen gas cylinder, the second pressure regulator valve and solenoid valve; Described High Purity Nitrogen gas cylinder is communicated with the air chamber of described cylinder body by the second gas piping; Described second pressure regulator valve is arranged on described second gas piping; Described solenoid valve is arranged between the second described pressure regulator valve and described cylinder body.

As preferably, described test unit also comprises electric cabinet; Described electric cabinet comprises: the first adjusting knob, the second adjusting knob, the 3rd adjusting knob, processor and display screen; Described first adjusting knob is communicated with described first pressure regulator valve by logical circuit; Described second adjusting knob is communicated with described second pressure regulator valve by logical circuit; Described 3rd adjusting knob is communicated with described flow control valve by logical circuit; Described processor is communicated with institute displacement sensors, pressure transducer and mass-flow gas meter by logical circuit; Described display screen is communicated with described processor;

Described processor comprises: the first processing unit and the second processing unit; Described first processing unit receives the displacement information of institute's displacement sensors, generates the length information of sample; Described first processing unit receive described pressure transducer obtain the first set point information and described test after pressure value information; Boyle's law is used to generate the volume of voids information of described sample; The value information of described porosity is generated according to the cumulative volume information of described sample and the volume of voids information of described sample;

Described second processing unit receives the displacement information of institute's displacement sensors, generates the length information of described sample; Described second processing unit receives the second set point information of described pressure transducer acquisition and the flow value information of described mass-flow gas meter acquisition; Described second processing unit, according to pressure value information, Viscosity Factor of Gas information, described second set point information and described flow value information in the length information of described sample and sectional area information, described escape pipe, uses computing permeability formula to generate the permeability value information of described sample.

The beneficial effects of the utility model are: the utility model adopts pressure transducer, displacement transducer, mass-flow gas meter are gathered by computer, make test condition be easy to control and test figure read convenient, accurately; Test unit integrates pollution earth porosity and permeability multiparameter synchronism detection, economic and practical; Solenoid valve can change the direction of pressurized cylinder lifting, is convenient to fill sample in test and tear sample open; Test figure gathers monitoring automatically by processor, and the program that the program composition that result of calculation processor is woven by the first processing unit and the second processing unit is good calculates automatically, and simple to operation, work efficiency is high.This test unit simplicity of design is reasonable, compact conformation, simple and efficient to handle, can be Contaminants Transport in pollution earth Practical Project and provides data reference and theoretical direction.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation that the utility model carries out porosity test.

Fig. 3 is the structural representation that the utility model carries out permeability test.

In figure: 1 High Purity Nitrogen gas cylinder, 2 second pressure regulator valves, 3 solenoid valves, 4 cylinder bodies, 5 displacement transducers, 6 mass-flow gas meters, 7 flow control valves, 8 electric cabinets, 9 pressure transducers, 10 gas standard rooms, 11 second adapters, 12 six-way valves, 13 first pressure regulator valves, 14 feeders, 15 first adapters, 16 holders, 17 test specimen tubes, 18 frameworks, 19 piston rods, 20 gas outlets, 21 escape pipes.

Embodiment

Below in conjunction with accompanying drawing, the utility model is explained in further detail:

A kind of pollution earth porosity and permeability test device, see accompanying drawing 1, this test unit comprises: framework 18, pressurized cylinder, mass-flow gas meter 6, displacement transducer 5, test specimen tube 17, six-way valve 12, gas standard room 10, pressure transducer 9 and feeder 14.Framework 18 is hollow steel structural framing.Pressurized cylinder is used for the pressurization of pollution soil sample, and the working pressure range of pressurized cylinder is 0-1Mpa.Pressurized cylinder comprises: cylinder body 4 and piston rod 19; Cylinder body 4 is vertically fixed on the top of framework 18, cylinder body 4 piston rod 19 under the effect of gases at high pressure and solenoid valve vertically declines or rises, the bottom even of the piston head of piston rod 19 end arranges multiple venthole, the top of multiple venthole is communicated with escape pipe 21, and escape pipe 21 is communicated with external environment.Mass-flow gas meter 6 is arranged on escape pipe 21, and for monitoring the flow value of the gas by escape pipe 21, the mensuration for permeability provides parameter more accurately.Mass-flow gas meter 6 front end arranges flow control valve 7, for opening or closing of Control Assay cylinder 17 gas outlet, when carrying out ferroxyl test, is closed by this flow control valve 7, and test specimen tube 17 is separated with extraneous.As a kind of preferred embodiment, comprise two mass-flow gas meters 6, be separately positioned on two arms, two arms are communicated with escape pipe 21 by three-way pipe, two mass-flow gas meter 6 front ends respectively arrange a flow control valve 7, two mass-flow gas meter 7 models and are respectively 500mL and 5000mL; When sample permeability is larger, select 5000mL flowmeter, close the gas circuit of 500mL flowmeter; When the sample permeability in testing is less, select 500mL flowmeter, close the gas circuit of 5000mL flowmeter.Displacement transducer 5 and piston rod 19 are connected, for testing the displacement of piston rod 19, generate displacement information, displacement information is for determining the cumulative volume of sample, the basifacial preseting length value of test specimen tube 17 deducts the length value that shift value is sample, and length value is multiplied by sectional area in bottom test specimen tube 17 and equals the cumulative volume of sample.Test specimen tube 17 is fixed on the bottom of framework 17 by base 16, and test specimen tube 17 and base 16 screw thread are connected, and base 16 is bolted on the bottom of framework 17.Test specimen tube 17 inside arranges accommodation space, coordinate with piston rod 19 and apply pressure to polluting soil sample, the height of accommodation space is preseting length value, namely test specimen tube 17 inside arranges table top, is accommodation space below table top, and the distance value of table top and bottom is preseting length value, platform basifacial test specimen tube 17 internal diameter equals the external diameter of piston rod 19 end cylindrical piston head, the axle center conllinear of test specimen tube 17 axle center and piston rod 19, test specimen tube 17 bottom even offers air admission hole, and air admission hole is communicated with draft tube.

As a kind of preferred embodiment, have corrosivity owing to polluting soil sample, therefore, the material selection 316L stainless steel of test specimen tube 17, has antiseptic and rustproof characteristic.The basifacial preseting length value of test specimen tube 17 is 300mm, and in bottom test specimen tube 17, the diameter in cross section is 100mm.

Six-way valve 12 is fixed on the bottom of framework, and the first valve port of six-way valve 12 is connected with the other end of the first adapter 15.Second valve port of six-way valve 12 is communicated with pressure transducer 9, for monitoring six-way valve 12 and the gaseous tension with six-way valve 12 connected space.3rd valve port of six-way valve 12 is connected with gas standard room 10 by the second adapter 11, and gas standard room 10 has the volume of setting.4th valve port of six-way valve 12 is communicated with feeder 14 by the first gas piping, for providing test gas, the first gas piping is arranged the first pressure regulator valve 13, by the requirement regulating the pressure of test gas to reach test setting.The improvement that 5th valve port of six-way valve 12 and the 6th valve port can be later stage test dress is provided convenience.Six-way valve 12 can realize the Measurement accuracy that a pressure transducer 9 measures gaseous tension in all processs of the test, has saved the cost of device.As a kind of preferred embodiment, comprise gas standard room 10,10, two, two gas standard rooms and be communicated with six-way valve 12 respectively by two adapters, the volume of one of them gas standard room 10 is 500mL, and the volume of another gas standard room 10 is 200mL.When sample is the object of the porosities such as similar clay, only selects the gas standard room of 200mL to carry out porosity testing experiment, trial value more accurately can be obtained like this.When the porosity of sample is larger, use above-mentioned two gas standard rooms to test simultaneously.Feeder 14 is ordinary nitrogen bottle.

Wherein, see accompanying drawing 2, when carrying out the porosity measurement of sample, sample presses closely by piston rod 19 in test specimen tube 17, close the first valve port of flow control valve 7 and six-way valve 12, open the 3rd valve port of the first pressure regulator valve 13 and six-way valve 12, feeder 14 is made to carry test gas in gas standard room 10, after pressure transducer 9 gaseous tension monitored in six-way valve 12 and gas standard room 10 reaches the first setting value, close the first pressure regulator valve 13 and stop conveying test gas, afterwards, the first valve port slowly opening six-way valve 12 makes the test gas in gas standard room 10 enter in test specimen tube 17, now, pressure transducer 9 is monitored and is generated the gas pressure value after testing balance, according to the force value after the volume of the volume of gas standard room 10, draft tube and the first adapter 15, the first setting value and test, use Boyle's law can determine the volume of voids of sample, the ratio of the cumulative volume of volume of voids and sample is the value of porosity.Boyle's law is P ₁v ₁=P ₂v ₂, P ₁for the test gas pressure before balance, be the first setting value, V ₁for the volume of gas standard room 10 and the line volume sum of the second adapter 11, add motion study by test unit known.P ₂for the test gas pressure after balance, be the force value after test, V ₂for V ₁volume, the line volume of the first adapter 15 and draft tube and test specimen tube 17 mesoporosity volume sum, add motion study by test unit known.Such equation can draw the volume of voids of sample in test specimen tube 17 after simplifying.Determined the cumulative volume of sample by displacement transducer 5, the porosity of sample can have been determined like this.

See accompanying drawing 3, when carrying out the permeability determination of sample, sample presses closely by piston rod 19 in test specimen tube 17, close the 3rd valve port of six-way valve 12, open the first pressure regulator valve 13, the first valve port of six-way valve 12 and flow control valve 7, feeder 14 is made to carry test gas in test specimen tube 17, test gas passes through draft tube, flow through the space of sample, enter escape pipe, enter external environment after gas coming through mass flowmeter 6 again, mass-flow gas meter 6 monitors the flow value of the test gas by escape pipe; The first adjusting knob is regulated to make the pressure in six-way valve 12 and draft tube remain the second setting value, by pressure transducer 9 mensurated gas composition pressure.According to flow value and the second setting value, use computing permeability formula can determine the permeability of sample; Wherein, computing permeability formula is k is permeability, and unit is m ²; P ₀for force value in escape pipe (being atmospheric pressure), unit is Pa; Q is the gas flow flowing through sample, and unit is mL/s; L is specimen length, and unit is m; A is specimen cross sectional area, and unit is m ²; P ₁for force value in draft tube, P ₁in draft tube force value equal described second setting value and atmospheric and, unit is Pa; μ is Viscosity Factor of Gas, and unit is μ Pas.

As preferably, the first adapter 15 is communicated with draft tube by three-way pipe, and three-way pipe is also communicated with gas outlet 20; Gas outlet 20 and external environment connect, gas outlet 20 arranges exhaust valve; After test completes, exhaust valve is opened, and the gas in test specimen tube 17 and the first adapter 15 is entered in external environment by gas outlet 20.

As preferably, test unit also comprises: cylinder driver, and cylinder driver comprises: High Purity Nitrogen gas cylinder 1, second pressure regulator valve 2 and solenoid valve 3.High Purity Nitrogen gas cylinder 1 is communicated with the air chamber of cylinder body 4 by the second gas piping, and high pure nitrogen enters air chamber rear drive piston rod 19 and declines or rise; Second pressure regulator valve 2 is arranged on the second gas piping, for controlling the pressure of the high pure nitrogen entering air chamber, realizing the different drafts of piston rod 19, can meet the needs of sample different tests scheme by different pressures; Solenoid valve 3 is arranged on the second gas piping, makes piston rod 19 realize declining or rising for the high pure nitrogen controlled in air chamber.

As preferably, test unit also comprises electric cabinet 8, and electric cabinet 8 comprises: the first adjusting knob, the second adjusting knob, the 3rd adjusting knob, processor and display screen.First adjusting knob is communicated with the first pressure regulator valve 13 by logical circuit, can regulate the aperture of the first pressure regulator valve 13, and then controls the pressure of the test gas entered in six-way valve 12.Second adjusting knob is communicated with the second pressure regulator valve 2 by logical circuit, can regulate the aperture of the second pressure regulator valve 2, and then controls the pressure of the high pure nitrogen entered in the air chamber of cylinder body 4, makes the shift value that sample reaches different.3rd adjusting knob is communicated with flow control valve 7 by logical circuit, by the pass of flow control valve 7 and can close, complete the test of sample porosity, permeability respectively.Processor is communicated with displacement transducer 5, pressure transducer 9 and mass-flow gas meter 6 by logical circuit.Processor comprises: the first processing unit and the second processing unit.The displacement information of the first processing unit received bit displacement sensor 5, generate the length information of sample, and then generate the cumulative volume information of sample, first processing unit receives the first set point information of pressure transducer 9 acquisition and the pressure value information after testing, according to the force value after the volume of the volume of gas standard room 10, draft tube and the first adapter 15, the first setting value and test, Boyle's law is used to generate the volume of voids information of sample; The value information of porosity is generated according to the cumulative volume information of sample and the volume of voids information of sample.The displacement information of the second processing unit received bit displacement sensor 5, generate the length information of sample, second processing unit receives the second set point information of pressure transducer 9 acquisition and the flow value information of mass-flow gas meter 6 acquisition, second processing unit, according to pressure value information, Viscosity Factor of Gas information, the second set point information and flow value information in the length information of sample and sectional area information, escape pipe, uses computing permeability formula to generate the permeability value information of sample.Display screen is communicated with processor, for showing the value of the porosity that the first processing unit generates, and the permeability value of the sample of the second processing unit generation.

This test unit principles and structure operation characteristic is introduced in detail below by specific embodiment:

Embodiment 1

Before experiment, whether checkout facility is intact, connects the power supply of test unit.Open high pure nitrogen valve, because electric cabinet 8 li of switching cylinder acquiescences decline, therefore preparing first pressurized cylinder switch to be pushed rising when carrying out test, the piston rod 19 of test specimen tube 17 being risen from test specimen tube, the holder 16 of test specimen tube 17 from framework 18 is taken off.The basifacial preseting length value 300mm of test specimen tube 17, the diameter of test specimen tube 17 is 100mm, demarcate the volume of gas standard room 10 in test unit and the line volume sum of the second adapter 11 is 710mL, the line volume sum of the volume of the volume of the gas standard room 10 of demarcation and the pipeline of the second adapter 11, the first adapter 15 and draft tube is 721.5mL.To pollute house refuse in earth for embodiment.

S1: according to the testing program preparation house refuse soil sample of design, by even for sample mix.This component comprises: rice 400g, Chinese cabbage 400g, paper 140g, fabric 48g, plastics 48g, vegetation 48g, dregs 320g and glass 96g, sample gross weight 1500g, and compacted density is 637g/cm ³.

S2: smear one deck vaseline at the inwall of test specimen tube 17, prevents gas in sidewall seepage; Refuse soil sample is inserted in test specimen tube 17, sample fill out and put after the upper end inwall wiped clean of test specimen tube 17, the bolt of test specimen tube 17 and holder 16 screwed on makes test specimen tube 17 keep stable, open the controlled valve of High Purity Nitrogen gas cylinder 1, by solenoid valve 3 and high pure nitrogen piston rod 19, sample is pressed closely in test specimen tube 17, regulate the second adjusting knob to make the pressure of the high pure nitrogen entering cylinder body 4 reach the force value of design, it is 0.38MPa that display screen demonstrates force value.

S3: the shift value being measured piston rod 19 pressure by displacement transducer 5, obtaining shift value is 82.1mm, then the length value 217.9mm of known sample, and length value is multiplied by sectional area in bottom test specimen tube 17 and equals the cumulative volume 1710515mm of sample ³.

S4: measure the pressure in the front test unit of balance; Wherein, the state of the test unit before balance is: first valve port of closing flow control valve 7 and six-way valve 12, open the 3rd valve port of the first pressure regulator valve 13 and six-way valve 12, make feeder 14 carry test gas to reach the first setting value in gas standard room 10, gaseous tension is 0.38Mpa by pressure transducer 9 force value monitored in six-way valve 12 and gas standard room 10 after stablizing.

S5: measure the pressure in the rear test unit of balance; Wherein, the state of the test unit after balance is: close the first pressure regulator valve 13 and stop conveying test gas, the first valve port slowly opening six-way valve 12 makes the test gas in gas standard room 10 enter in test specimen tube 17; When pressure in Sample devices reach stable after, pressure transducer 9 is monitored and the force value 0.251MPa generated, is the pressure in the test unit after balancing.

S6: ask for the volume of voids of sample according to Boyle's law and then determine the porosity of sample, namely the product balancing volume in front test unit and pressure equals to balance the product of volume in rear test unit and pressure, is 353400mm by the volume of voids of above-mentioned equation acquisition sample ³, the value that the ratio of the cumulative volume of volume of voids and sample is porosity is 20.66%.

S7: measure the force value in the flow value and draft tube flowing through sample in permeability test, wherein, in permeability test, the state of test unit is: the 3rd valve port of closing six-way valve 12, open the first pressure regulator valve 13, the first valve port of six-way valve 12 and flow control valve 7, make feeder 14 carry test gas in test specimen tube 17, test gas, by the first adapter 15 and draft tube, flows through the space of sample, enter escape pipe, then enter external environment after gas coming through mass flowmeter 6.The second setting value obtained by pressure transducer 9, is force value in draft tube, is measured the gas flow flowing through sample by mass-flow gas meter 6 (selecting the mass-flow gas meter of model 5000mL).

S8: the permeability asking for sample according to computing permeability formula.Wherein, computing permeability formula is: p ₀=101300Pa, Q=12.83mL/s, L=300-82.1=217.9mm, A=7850mm ², P ₁=101300+30000=131300Pa; μ=17.53 μ Pas, draws permeability k=0.182*10 according to formulae discovery ^-12m ².

Result of calculation is transported on display screen by the first processing unit and the second processing unit, and repetition above-mentioned steps is repeatedly tested and averaged, and determines porosity and the permeability of sample.Powered-down after test all valves of stopping device.Open switching cylinder button, piston rod 19 is risen.Test specimen tube 17 and holder 16 gib screw are backed out, dismantles with the draft tube be connected bottom test specimen tube 17, test specimen tube 17 is taken out from framework, lay down the sample of test specimen tube 17 inside, by inner for test specimen tube wash clean in order to test next time.Embodiment can draw thus, and this experimental provision can determine the value of permeability and factor of porosity more accurately.

The beneficial effects of the utility model are: the utility model adopts pressure transducer 9, displacement transducer 5, mass-flow gas meter 6 are gathered by computer, make test condition be easy to control and test figure read convenient, accurately; Test unit integrates pollution earth porosity and permeability multiparameter synchronism detection, economic and practical; Solenoid valve 3 can change the direction of pressurized cylinder lifting, is convenient to fill sample in test and tear sample open; Test figure gathers monitoring automatically by processor, and the program that the program composition that result of calculation processor is woven by the first processing unit and the second processing unit is good calculates automatically, and simple to operation, work efficiency is high.The utility model simplicity of design is reasonable, compact conformation, and test method is simple and efficient to handle, can be Contaminants Transport in pollution earth actual treatment engineering and provides data reference and theoretical direction.

Above-described embodiment; the purpose of this utility model, technical scheme and beneficial effect are further described; be understood that; the foregoing is only embodiment of the present utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within the utility model protection domain.

Claims (3)

1. one kind is polluted earth porosity and permeability test device, it is characterized in that, described test unit comprises: framework (18), pressurized cylinder, mass-flow gas meter (6), displacement transducer (5), test specimen tube (17), six-way valve (12), gas standard room (10), pressure transducer (9) and feeder (14); Described pressurized cylinder comprises: cylinder body (4) and piston rod (19); Described cylinder body (4) is vertically fixed on the top of described framework (18); The piston head of described piston rod (19) end is communicated with escape pipe (21); Described escape pipe (21) is arranged mass-flow gas meter (6) and flow control valve (7); Described piston rod (19) is arranged displacement transducer (5); Described test specimen tube (17) is arranged on described piston rod (19) below, the axis of described test specimen tube (17) and the dead in line of described piston rod (19); Described test specimen tube (17) is fixed on the bottom of framework (18) by holder (16), test specimen tube (17) and holder (16) screw thread are connected, holder (16) is bolted on the bottom surface of framework (18), and described test specimen tube (17) bottom is communicated with draft tube; Described draft tube is connected by threeway with gas outlet (20), first one end taking over (15); (20) are provided with exhaust valve with described gas outlet; The other end of described first adapter (15) is connected with the first valve port of described six-way valve (12); Second valve port of described six-way valve (12) is communicated with described pressure transducer (9); 3rd valve port of described six-way valve (12) is connected with described gas standard room (10) by the second adapter (11); 4th valve port of described six-way valve (12) is communicated with feeder (14) by the first gas piping; Described first gas piping is provided with the first pressure regulator valve (13).

2. test unit as claimed in claim 1, is characterized in that:

Described test unit also comprises cylinder driver, and described cylinder driver comprises: High Purity Nitrogen gas cylinder (1), the second pressure regulator valve (2) and solenoid valve (3); Described High Purity Nitrogen gas cylinder (1) is communicated with by the air chamber of the second gas piping with described cylinder body (4); Described second pressure regulator valve (2) is arranged on described second gas piping; Described solenoid valve (3) is arranged between described the second pressure regulator valve (2) and described cylinder body (4).

3. test unit as claimed in claim 2, is characterized in that:

Described test unit also comprises electric cabinet (8); Described electric cabinet (8) comprising: the first adjusting knob, the second adjusting knob, the 3rd adjusting knob, processor and display screen; Described first adjusting knob is communicated with described first pressure regulator valve (13) by logical circuit; Described second adjusting knob is communicated with described second pressure regulator valve (2) by logical circuit; Described 3rd adjusting knob is communicated with described flow control valve (7) by logical circuit; Described processor is communicated with institute's displacement sensors (5), pressure transducer (9) and mass-flow gas meter (6) by logical circuit; Described display screen is communicated with described processor;

Described processor comprises: the first processing unit and the second processing unit; Described first processing unit receives the displacement information of institute's displacement sensors (5), generates the length information of sample; Described first processing unit receives the pressure value information after the first set point information and described test that described pressure transducer (9) obtains; Boyle's law is used to generate the volume of voids information of described sample; The value information of described porosity is generated according to the cumulative volume information of described sample and the volume of voids information of described sample;

Described second processing unit receives the displacement information of institute's displacement sensors, generates the length information of described sample; Described second processing unit receives the second set point information that described pressure transducer (9) obtains and the flow value information that described mass-flow gas meter (6) obtains; Described second processing unit, according to pressure value information, Viscosity Factor of Gas information, described second set point information and described flow value information in the length information of described sample and sectional area information, described escape pipe, uses computing permeability formula to generate the permeability value information of described sample.