CN206292169U - A kind of Portable fluorescence detector that can be applied to extra large underwater trace ammonium nitrogen analysis - Google Patents

Abstract

The utility model provides a kind of Portable fluorescence detector that can be applied to extra large underwater trace ammonium nitrogen analysis, including power supply, constant-current circuit, constant voltage circuit, light source, the first monochromator, the second monochromator, fluorescence flow cell, photomultiplier and detection erecting device；Power supply is connected by constant-current circuit with light source, power supply is connected by constant voltage circuit with photomultiplier, the detection erecting device includes installing housing and cap, groove I for setting fluorescence flow cell is provided with the one side for installing housing and for setting the notch I of the first monochromator, the notch II for setting the second monochromator.The utility model avoids seawater sample from introducing pollution during transport, preservation, meets ammonium nitrogen generally needs at the scene or in-site detecting, must use miniaturization, the requirement of good stability.The utility model research application modularization, miniaturization, customizations, intelligentized design concept.

Description

A kind of Portable fluorescence detector that can be applied to extra large underwater trace ammonium nitrogen analysis

Technical field

The utility model belongs to applies oceanographic equipment Instrument technology field, more particularly to one kind to can be applied to extra large underwater trace The Portable fluorescence detector of ammonium nitrogen analysis.

Background technology

Fluorescence detector as fluorimetry hardcore, sensitivity and performance parameter directly affect assay method Performance.At present, the ammonium nitrogen fluorescence detector that researcher the uses typically larger commercial apparatus of volume.Such as Amornthammarong etc.^[1,2]Use F1080 (Japanese Hitachi companies) and L-2485 fluorescence detectors (Japanese Hitachi Company)；Waich etc.^[3]Use LS-50B fluorescence detectors (PerkinElmer companies of the U.S.)；Huang etc.^[4]Use L-7480 (Japanese Hitachi companies) fluorescence detector；Frank etc.^[5]Use F1000 (Japanese Hitachi companies) fluorescence detector.Greatly Partial detector is adapted in high performance liquid chromatography (HPLC, High Performance Liquid Chromatography) Fluorescence detector, volume is larger, expensive, and because fluorescence flow cell is smaller, pond pressure is larger.

Present analysis instrument on the basis of classical optics, chemistry and electronics, by computer hardware and software, to Intelligent direction develops.Modularization, miniaturization, customizations, are the main design thoughts of present analysis instrument^[6].The module of instrument Change is that the hardware cell of function phase in instrument is same or correlation is sorted out, and is designed to various modules^[7].Miniaturization and lightweight are then Occupancy of the instrument to lab space is reduced as far as possible, or it is more portable, beneficial to user's operation.It is general that customizations refer to removal The other functions of logical instrument, multi-functional labyrinth is replaced using relatively simple part, is such as used in spectrophotometer Optical filter replaces prism or grating.Modularization, miniaturization, customizations not only reduce equipment instrument, and enhancing shock resistance, more Adaptation is used in ambient scene.

Utility model content

In order to solve above-mentioned technical problem, the purpose of this utility model is to provide one kind and can avoid seawater sample in fortune It is defeated, preserve during introduce pollution, ammonium nitrogen generally needs at the scene or in-site detecting, must be using miniaturization, good stability just Take formula fluorescence detector.The utility model research application modularization, miniaturization, customizations, intelligentized design concept, develop one The Portable fluorescence detector that can be applied to extra large underwater trace ammonium nitrogen analysis is planted, and investigates the performance of detector.

To achieve the above object, the utility model employs following technical scheme：

The utility model provides a kind of Portable fluorescence detector that can be applied to trace ammonium nitrogen analysis, including power supply, perseverance Current circuit, constant voltage circuit, light source, the first monochromator, the second monochromator, fluorescence flow cell (2), photomultiplier (PMT) (3) and Detection erecting device (1)；

Power supply is connected by constant-current circuit with light source, and power supply is connected by constant voltage circuit with photomultiplier (PMT) (2), Detection erecting device (1) is provided with use including installing housing (11) and cap (12) on the one side for installing housing (11) In the groove I for setting fluorescence flow cell (2) and for setting the notch I of the first monochromator (141), for setting the second monochrome The notch II of device (142)；

The groove II (15) for setting fluorescence flow cell (2) is provided with cap (12) one side and for setting The slotted eye I (171) of one monochromator (141), the slotted eye II (172) for setting the second monochromator (142)；

Housing (11) and cap (12) clamping will be installed so that fluorescence flow cell (2) is closely embedded in groove I and groove In ditch II (15), the first monochromator (141) is embedded in notch I and slotted eye I (171), the second monochromator (142) is embedded in notch II and slotted eye II (172)；

Fluorescence flow cell (2) excites light window including inlet pipeline (21), outlet pipeline (22), flow cell cavity, two With a transmitting light window, inlet pipeline (21) and outlet pipeline (22) be by fluorescence flow cell (2) top entrance and with stream Logical cell cavity body phase connection, wherein：Flow cell cavity is in black powder, and two excite light window and a transmitting light window white Transparence；

Being provided with two in installation housing (11) excites optical channel and a transmitting optical channel, notch I and notch II to distinguish Optical channel is excited to be interconnected with corresponding, the light for exciting the light source (131) of optical channel outer end to send installed in two is passed through respectively Cross the first monochromator (141), the second monochromator (142) and along each exciting optical channel, excite light window to be irradiated into fluorescence In the flow cell cavity of flow cell (2), and it is set to produce fluorescence signal；

Photomultiplier (PMT) can receive flow cell by the second monochromator along transmitting optical channel, transmitting light window Fluorescence signal in cavity.

As preferred：Two excite light window and a transmitting light window to be opened in the difference of fluorescence flow cell (2) respectively On side, in four prisms cylinder shape, two excite window to be located at (2) two phases of fluorescence flow cell respectively to the fluorescence flow cell (2) To on side, the light that light source sends is by the first monochromator and along exciting exciting on optical channel, alignment fluorescence flow cell (2) Light window circulates in cell cavity body；Photomultiplier (PMT) is by the second monochromator along transmitting optical channel, alignment launching light Fluorescence signal in window reception flow cell cavity.

As preferred：The profile size of fluorescence flow cell (2)：Length × width × height is 12.5mm × 12.5mm × 45mm, stream Logical pond cavity size：Length × width × height is 5mm × 5mm × 5mm, two exciting light window sizes：Length × height is 5mm × 3mm, Launching light window size：Length × height is 5mm × 5mm.

As preferred：Light source is 365nm UV-LED, and fluorescence flow cell (2) is to use quartz material.

As preferred：First monochromator includes the exciting light optical filtering that centre wavelength is 365nm, a width of 15 ± 2nm of half-wave zone Piece, the second monochromator includes that centre wavelength is 425nm, the launching light optical filter of a width of 15 ± 2nm of half-wave zone.

Compared with prior art, the utility model beneficial effect is：

The utility model provides a kind of Portable fluorescence detector for being exclusively used in trace ammonium nitrogen analysis.It includes UV-LED The stuck-module of light source, optical filter, modularization PMT detecting elements, the fluorescence flow cell of customized processing and designed, designed processing.This Utility model fluorescence detector, for PMT powers, using constant-current circuit for UV-LED powers, reduces signal using constant voltage circuit Fluctuation.The ammonium nitrogen standard specimen of METHOD FOR CONTINUOUS DETERMINATION 100nmol/L in 90min, RSD is 0.8% (n=38), illustrates the utility model fluorescence Detector stability is preferable.Compare the utility model fluorescence detector and commodity PMT-FL fluorescence detectors, the utility model is glimmering Photodetector small volume, lightweight, cheap, stability is slightly better than commercial detector.If it is spirit to define working curve slope Sensitivity, then the remolding sensitivity PMT-FL fluorescence detectors of the utility model fluorescence detector are high by about 11.4%.And, this practicality is new Type fluorescence detector can be prevented effectively from interference of the bubble to signal.

Brief description of the drawings

Fig. 1 is the principle schematic of Portable fluorescence detector in the utility model.

The schematic diagram of the fluorescence flow cell that Fig. 2 is used for final choice in the utility model.

Fig. 3 is, as detector, to scan UV-LED with USB2000+ fiber spectrometers (Ocean Optics companies of the U.S.) Emission spectrum schematic diagram.

The schematic diagram of the emission spectrum of Fig. 4 halogen tungsten lamps+exciting light optical filter.

The schematic diagram of the emission spectrum of Fig. 5 halogen tungsten lamps+launching light optical filter.

Fig. 6 power supply circuit design drawings of the present utility model.

Schematic diagram when PMT, LED, optical filter and unassembled fluorescence flow cell in Fig. 7 the utility model.

Schematic diagram after PMT, LED, optical filter and fluorescence flow cell are assembled into one in Fig. 8 the utility model.

The stability test of Fig. 9 the utility model fluorescence detectors

Figure 10 the utility model fluorescence detector determines working curve (A, the utility model of ammonium nitrogen with PMT-FL detectors Fluorescence detector；B, PMT-FL detector)

Figure 11 is the fluorescence flow cell schematic diagram before and after being transformed in the utility model.

Figure 12 is detection signal (A, the utility model fluorescence detector of the utility model fluorescence detector and PMT-FL； B, PMT-FL detector).

Reference：Detection erecting device (1), fluorescence flow cell (2), photomultiplier (3),

Housing (11), cap (12), the first monochromator (141), the second monochromator (142), slotted eye I (171), slotted eye are installed II (172), inlet pipeline (21), outlet pipeline (22), light source (131).

Specific embodiment

Specific embodiment of the present utility model is made a detailed explanation below in conjunction with the accompanying drawings.

1.2 mentalities of designing

As shown in Fig. 1~12, the utility model offer is a kind of to can be applied to the portable glimmering of extra large underwater trace ammonium nitrogen analysis Photodetector, mainly including light source, monochromator (the first monochromator and the second monochromator), fluorescence flow cell and photomultiplier 4 Individual part, Fig. 1 is the schematic diagram of Portable fluorescence detector.The light sent by light source, through the first monochromator (also known as exciting light list Color device) after, required excitation wavelength is isolated, it is used to excite tested molecule, when the molecular transition that is excited returns ground state, Xiang Si Launch fluorescence from all directions in face.To eliminate the influence of incident light and scattering light to fluoroscopic examination, select in the direction vertical with exciting light Detection fluorescence, and add the second monochromator.Light intensity signal is received by photomultiplier (PMT), then by a series of analog-to-digital conversions And signal amplifies, and obtains digitized fluorescence signal^[8]。

The special Portable fluorescence detector of this chapter research trace ammonium nitrogen analysis.Using small volume, good stability it is ultraviolet Light emitting diode (UV-LED, Ultraviolet-Light Emitting Diode) as light source, optical filter as monochromator, Designed, designed fluorescence flow cell, makes it possess function not by aeration.With high sensitivity, modular photomultiplier (PMT, Photomultiplier Tube) detects fluorescence.In power supply circuit, using constant-current circuit for UV-LED powers, constant pressure electricity Road powers for photomultiplier (PMT), to ensure that output signal has signal to noise ratio higher.

1.3 instrumentations

The main design from fluorescence flow cell of making of the Portable fluorescence detector in the utility model, light source, monochrome The selection of device and detecting element, power supply circuit is designed and produced, and detector housing is made etc., and several aspects are started with.

1.3.1 the design of fluorescence flow cell

Fluorescence flow cell is one of core component of Portable fluorescence detector in the utility model, should meet following several Individual condition：(1) the pond body product of fluorescence flow cell is small, prevents measured object and current-carrying over-mixed and influences the peak height and peak of signal Shape；(2) light path design of incident light and launching light is reasonable, to avoid exciting light and launching light from excessively being lost in light path；(3) Incident light window and detection window are sufficiently large, to ensure sensitivity；(4) fluorescence flow cell will be beneficial to the discharge of bubble.

Because the excitation wavelength of ammonium azepine derivatives is at ultraviolet region (365nm), fluorescence flow cell material preferably selects quartz.Closely Several years, researcher also attempted developing new fluorescence flow cell^[9].Such as Horstkotte^[10]In 2011, lucite is used A kind of new fluorescence flow cell is made, seawater trace ammonium nitrogen has been determined, method detection has been limited to 13nmol/L.The fluorescence flow cell is passed through Ji is practical, but, a part of fluorescence can be absorbed by PMMA；And PMMA not acid and alkali-resistances, it is soluble in organic solvent.2013, Amornthammarong etc.^[11]The structure of fluorescence flow cell is simplified, makes glimmering with the preferable fluorinated ethylene propylene (FEP) pipe of light transmission Light flow cell.Such a design reduces the pond body product of fluorescence flow cell.It has the disadvantage the easy stimulated luminescence of launching light and veiling glare Interference, background fluorescence is stronger, and corresponding detector sensitivity is relatively low.

Various trials have been done in the utility model research in the design of fluorescence flow cell, and Fig. 2 show this research and finally selects Select the fluorescence flow cell (customized, city of Jiangsu Pu Xi optical elements factory) for using.Fluorescence flow cell appearance and size (long × wide × It is high) it is 12.5mm × 12.5mm × 45mm, pond inside dimension (length × width × height) is 5mm × 5mm × 5mm, and pond body product is about 125 μ L, exciting light is 5mm × 5mm with the window size of launching light.

1.3.2 the selection of light source, monochromator and detecting element

1.3.2.1 the selection of light source

The light source of the utility model Portable fluorescence detector have high-pressure sodium lamp, xenon lamp, xenon-mercury-arc lamp, flash lamp, LED, Solid state laser, tunable dye laser etc..Because fluorescence intensity is directly proportional to excitating light strength^[12], light intensity is stronger, stabilization The preferable light source of property is the first-selection of the utility model Portable fluorescence detector.Xenon lamp is of the present utility model portable current commodity The most common light source of formula fluorescence detector.Xenon lamp spectrum covers ultra-violet (UV) band and visible region (250-800nm), good stability, light It is stronger；But, xenon lamp volume is larger, and high pressure conditions, the stability of output voltage, electric current to power supply circuit are in during work It is required that higher.Solid state laser monochromaticjty is good, and launching light light intensity is stronger, and the angle of divergence is small.Use the induced with laser of solid state laser Detection technique of fluorescence, is widely used in the analysis of biological and environment organic matter^[13,14].But, solid state laser volume is larger, It is expensive.Using the LED of semiconductor light emitting technology because luminous efficiency is high, energy consumption is low, monochromaticjty is good, it is long service life, small It is skilful and cheap, the first-selection as various portable and field assay instrument.

The a length of 365nm of optimum excitation wave of ammonium nitrogen fluorescent derivative, optimal launch wavelength is 425nm.The utility model grinds Study carefully using 365nm UV-LED (packed by metal casing, purchased from Yuan Chuan Electronics Co., Ltd.s of Shenzhen) as light source.The said firm carries The UV-LED optical parametrics of confession are listed in table 1.1.With USB2000+ fiber spectrometers (Ocean Optics companies of the U.S.) as inspection Device is surveyed, the emission spectrum of UV-LED is scanned, as shown in Figure 3.

The optical parametric of the UV-LED of table 1.1

1.3.2.2 the selection of monochromator

Monochromator mainly has grating and optical filter etc..The monochromator of common Portable fluorescence detector of the present utility model leads to Often it is made up of grating, slit, prism, stepper motor and machine driven system, it is complex, be not suitable for the utility model just Take formula fluorescence detector.Optical filter has the advantages that simple, cheap, and its manufacturing technology has reached level higher, monochromatic Property is preferable；It is suitable for portable, customizations fluorescence detectors.

The exciting light and launching light optical filter of this research institute are customized from Beijing Jinji Aomeng Technology Co., Ltd..The public affairs The centre wavelength for taking charge of the exciting light optical filter for providing is 365nm, and the centre wavelength of launching light optical filter is 425nm, half-wave bandwidth It is 15 ± 2nm.Using LS-1-LL halogen tungsten lamps (Ocean Optics companies of the U.S.) as light source, USB2000+ fiber spectrums Instrument (Ocean Optics companies of the U.S.) scans halogen tungsten lamp and is filtered by exciting light optical filter and launching light respectively as detector Emission spectrum after piece, is shown in Fig. 4 and Fig. 5.The practical center wavelength of exciting light optical filter is obtained for 371.7nm, launching light filter The practical center wavelength of mating plate is 429.0nm, substantially meets the measure demand of ammonium azepine derivatives.

1.3.2.3 the selection of detecting element

Faint optical signal is converted into electric signal by detecting element, after the amplified circuit of signal amplifies, by analog-to-digital conversion electricity Road is converted to the receivable data signal of host computer.Conventional detecting element include charge coupled array, photovoltaic cell, Vacuum photo tube, silicon photoelectric diode, PMT etc..The sensitivity of PMT is high, the response time is short, can detect faint optical signal, is The optimum detection element of high sensitivity fluorescence detector.By modularized design, photo-signal amplifies electricity to current commodity PMT Road and analog to digital conversion circuit are integrated in inside PMT, and user need to only provide the supply voltage of stabilization for PMT.

The PMT of this research institute is bought from Sens-Tech companies of Britain.PMT requirement supply voltages are 5 ± 0.25V.Originally grind Study carefully PMT is directly connected with computer by RS232 ports, (National Instruments are public in the U.S. using Labview 8.2 Department) write PC control software record output signal.

1.3.3 circuit design and circuit board making

Power supply circuit is mainly UV-LED and provides the operating voltage of 3.6V and the operating current of 20mA, in addition, PMT need to be supplied The stable power-supplying voltage of 5 ± 0.25V.Therefore, constant voltage circuit constitutes driving voltage and drives using switch-type stabilized chip LM2575, The burning voltage of 5 ± 0.25V is provided；Power supply module caloric value can be reduced simultaneously.Constant-current circuit is using OP07 amplifiers and precisely Reference voltage chip TL430 is constituted and is compared chopping wave constant current circuit, is increased using transistor 8050 and driven, precisely electric to provide 20mA Stream drives UV-LED.The circuit of design is as shown in Figure 6.

1.3.4 detector assembling

When designing and producing the stuck-module of fluorescence flow cell and optical filter, from black material polyformaldehyde (POM, Polyformaldehyde).POM intensity is high, wearability is good, organic solvent-resistant and weak acid, easy to process.PMT, LED, optical filter And fluorescence flow cell assembling after detector it is as shown in Figure 7.The fixed of optical filter uses embedded design, if changing optical filter, Can be realized by dismantling the POM modules.

Interference is produced to signal to avoid natural light from leaking into detector, shell need to be added for detector, strengthen lucifuge.Using Polyvinyl chloride (PVC, Polyvinyl Chloride) plate of thickness about 2mm, by design size dicing, uses between each Aluminum corner brace is connected.Solution import and export, relay indicating light etc. are fixed on front panel, power switch, RS232 signal output ports Etc. being fixed on rear board.The fluorescence detector being made is as shown in Figure 8.

The performance of 1.4 detectors

Wasted Water by FIA-Fluorimetry (FI-FL) analysis system is built, using the utility model fluorescence detector.With super Used as current-carrying, ammonium nitrogen mark-on sample investigates the performance of the utility model fluorescence detector to pure water as sample, and will choose current city Most popular Portable fluorescence detector (commodity PMT-FL flow analysis fluorescence detectors, U.S. FIA-Lab on field Instruments companies) it is compared with the utility model fluorescence detector.

1.4.1 stability

Detector light source and detecting element are investigated in the case where working long hours, the stability of output signal.Take The ammonium nitrogen mark-on sample of 100nmol/L, with FI-FL method METHOD FOR CONTINUOUS DETERMINATION 90min, is as a result shown in Fig. 9 as sample.Sample fluorescence signal Relative standard deviation be 0.8% (n=38), it is seen that the stability of the utility model fluorescence detector is preferable.

1.4.2 the comparing of the utility model fluorescence detector and commercial detector

1.4.2.1 control experiment

Homemade detector is connected with commodity PMT-FL, collectively as the detector of FI-FL analysis systems, while determining The fluorescence signal of sample.The standard working curve solution in 0-300nmol/L concentration ranges is determined, is determined 4 times per sample, obtain work Make curve as shown in Figure 10.If it is detection sensitivity, as shown in Figure 10, the utility model fluoroscopic examination to define working curve slope The remolding sensitivity commodity PMT-FL fluorescence detectors of device are high by about 11.4%.

7.4.2.2 influence of the bubble to detection signal

The interference of bubble is most common problem in spectral method of detection.To reduce influence of the bubble to signal, generally need At detector taphole back-pressure is produced plus the polyether-ether-ketone pipe of small-bore.The fluorescence of this research designed, designed is circulated Pond is slightly transformed, and it is 5mm × 3mm (long × high) that order excites light window, and it is 5mm × 5mm (long × high) to keep transmitting light window, is changed Fluorescence flow cell schematic diagram before and after making is as shown in figure 11.In the FI-FL analysis systems built, by the inspection of the utility model fluorescence Survey device to be connected with commodity PMT-FL detectors, while determining the fluorescence signal of sample.The flow velocity of reagent R1 and R2 is 0.20mL/ Min, sample is 1.34mL/min with rate of Carrier Stream, removes the internal diameter being placed at detector taphole to produce back-pressure 0.25mm PEEK are managed.Using ultra-pure water as current-carrying, the mark-on sample in the range of ammonium nitrogen concentration 0-300nmol/L is determined, surveyed per sample Fixed 4 times, the sample signal that two kinds of detectors of record are obtained is shown in Figure 12.

Excite light window smaller due to improved self-control fluorescence flow cell, and minute bubbles are gathered in fluorescence flow cell Top is excluded with solution, and exciting light will not be radiated on bubble, therefore bubble will not produce fluorescence signal or interfering noise.By Figure 12 Understand, the utility model fluorescence detector can be prevented effectively from interference of the bubble to signal, better than commodity PMT-FL detectors.

1.4.2.3 performance parameter is compared

The utility model fluorescence detector is listed in table 1.2 with the parameter of commodity PMT-FL detectors.The utility model fluorescence Detector volume is smaller, and weight is lighter, cheap, and sensitivity and stability are slightly better than commercial detector.But, this practicality is new The background fluorescence of type fluorescence detector is significantly higher than PMT-FL detectors, can setting by upper computer software in practical application Put, background fluorescence is zeroed, do not interfere with the measure of sample.

The utility model fluorescence detector of table 1.2 compares with the parameter of PMT-FL detectors

1.5 the utility model brief summaries

(1) have developed a kind of Portable fluorescence detector for being exclusively used in trace ammonium nitrogen analysis.It includes UV-LED light sources, filter The stuck-module of mating plate, modularization PMT detecting elements, the fluorescence flow cell of customized processing and designed, designed processing.

(2) the utility model fluorescence detector, using constant voltage circuit for PMT powers, is UV-LED confessions using constant-current circuit Electricity, reduces the fluctuation of signal.The ammonium nitrogen standard specimen of METHOD FOR CONTINUOUS DETERMINATION 100nmol/L in 90min, RSD is 0.8% (n=38), explanation The utility model fluorescence detector stability is preferable.

(3) the utility model fluorescence detector and commodity PMT-FL fluorescence detectors, the utility model fluoroscopic examination are compared Device small volume, lightweight, cheap, stability is slightly better than commercial detector.If it is sensitivity to define working curve slope, The remolding sensitivity PMT-FL fluorescence detectors of the utility model fluorescence detector are high by about 11.4%.And, the utility model fluorescence Detector can be prevented effectively from interference of the bubble to signal.

Document referenced by the utility model content is as follows：

[1]Amornthammarong N.,Zhang J.Z.Shipboard fluorometric flow analyzer for high-resolution underway measurement of ammonium in seawater[J] .Analytical Chemistry,2008,80(4):1019-1026.

[2]Amornthammarong N.,Zhang J.Z.,Ortner P.B.An autonomous batch analyzer for the determination of trace ammonium in natural waters using fluorometric detection[J].Analytical Methods,2011,3(7):1501-1506.

[3]Waich K.,Borisov S.,Mayr T.,Klimant I.Dual lifetime referenced trace ammonia sensors[J].Sensors and Actuators B:Chemical,2009,139(1):132- 138.

[4]Huang G.,Hou J.,Zhou X.L.A measurement method for atmospheric ammonia and primary amines based on aqueous sampling,OPA derivatization and HPLC analysis[J].Environmental Science&Technology,2009,43(15):5851-5856.

[8]Frank C.,Schroeder F.Using sequential injection analysis to improve system and data reliability of online methods:determination of ammonium and phosphate in coastal waters[J].Journal of Analytical Methods in Chemistry,2007.

[6] development [D] the Xiamen University of Wen Yuyun multichannels nutritive salt automatic analysis system, 2004.

[7] cutting edge technology of model generation good fortune development of analytical instrumentation and new thought [J] Modern Scientific Instruments, 2000,3: 10-13.

[8] department of chemistry of Wuhan University Instrumental Analysis [M] Beijing:Higher Education Publishing House, 2001.

[9]Bey S.K.A.K.,Connelly D.P.,Legiret F.E.,Harris A.J.K.,Mowlem M.C.A high-resolution analyser for the measurement of ammonium in oligotrophic seawater[J].Ocean Dynamics,2011,61(10):1555-1565.

[10]Horstkotte B.,Duarte C.M.,Cerdà V.A miniature and field- applicable multipumping flow analyzer for ammonium monitoring in seawater with fluorescence detection[J].Talanta,2011,85(1):380-385.

[11]Amornthammarong N.,Zhang J.Z.,Ortner P.B.,Stamates J.,Shoemaker M.,Kindel M.W.A portable analyser for the measurement of ammonium in marine waters[J].Environmental Science:Processes&Impacts,2013,15(3):579-584.

[12] golden hook, king this of honor XRF [M] Beijing are permitted:Science Press, 2006.

[13]Suzuki H.,Miyao Y.,Nakayama T.,Pearce J.K.,Matsumi Y.,Takahashi K.,Kita K.,Tonokura K.Comparison of laser-induced fluorescence and chemiluminescence measurements of NO₂at an urban site[J].Atmospheric Environment,2011,45(34):6233-6240.

[14] Yang Bingcheng, closes a kind of development [J] assay offices of sub- wind portable laser induced fluorescent testers of, 2001,20(6):96-99。

Claims (5)

1. a kind of Portable fluorescence detector that can be applied to extra large underwater trace ammonium nitrogen analysis, it is characterised in that including power supply, perseverance Current circuit, constant voltage circuit, light source, the first monochromator, the second monochromator, fluorescence flow cell (2), photomultiplier (3) and detection Erecting device (1)；

Power supply is connected by constant-current circuit with light source, and power supply is connected by constant voltage circuit with photomultiplier (3), the detection peace Assembling device (1) is provided with for setting fluorescence including installing housing (11) and cap (12) on the one side for installing housing (11) The groove I of flow cell (2) and for setting the notch I of the first monochromator (141), for setting the second monochromator (142) Notch II；

The groove II (15) for setting fluorescence flow cell (2) is provided with cap (12) one side and for setting the first list The slotted eye I (171) of color device (141), the slotted eye II (172) for setting the second monochromator (142)；

Housing (11) and cap (12) clamping will be installed so that fluorescence flow cell (2) is closely embedded in groove I and groove II (15) in, the first monochromator (141) is embedded in notch I and slotted eye I (171), the second monochromator (142) is embedded in the He of notch II Slotted eye II (172)；

Fluorescence flow cell (2) excites light window and one including inlet pipeline (21), outlet pipeline (22), flow cell cavity, two Individual transmitting light window, inlet pipeline (21) and outlet pipeline (22) are to be entered by the top of fluorescence flow cell (2) and and flow cell Cavity is connected, wherein：Flow cell cavity is in black powder, and two excite light window and a transmitting light window white transparent Shape；

Two be provided with housing (11) excite optical channel and a transmitting optical channel installing, notch I and notch II respectively with it is right The optical channel that excites answered is interconnected, and the light that the light source (131) of optical channel outer end sends is excited installed in two respectively through the One monochromator (141), the second monochromator (142) simultaneously circulate along each exciting optical channel, exciting light window to be irradiated into fluorescence In the flow cell cavity in pond (2), and it is set to produce fluorescence signal；Photomultiplier is logical along launching light by the second monochromator Road, transmitting light window can receive the fluorescence signal in circulation cell cavity body.

2. a kind of Portable fluorescence detector that can be applied to extra large underwater trace ammonium nitrogen analysis according to claim 1, Characterized in that, two excite light window and a transmitting light window to be opened in respectively on the not ipsilateral of fluorescence flow cell (2), In four prisms cylinder shape, two excite window to be located at (2) two opposite flanks of fluorescence flow cell respectively to the fluorescence flow cell (2) On, the light that light source sends excite light window on optical channel, alignment fluorescence flow cell (2) by the first monochromator and along exciting Circulate in cell cavity body；Photomultiplier is by the second monochromator along transmitting optical channel, alignment launching light window reception stream Fluorescence signal in logical cell cavity body.

3. a kind of Portable fluorescence detector that can be applied to extra large underwater trace ammonium nitrogen analysis according to claim 1, Characterized in that, the profile size of fluorescence flow cell (2)：Length × width × height is 12.5mm × 12.5mm × 45mm, and circulate cell cavity Body size：Length × width × height is 5mm × 5mm × 5mm, two exciting light window sizes：Length × height is 5mm × 3mm, launching light Window size：Length × height is 5mm × 5mm.

4. a kind of Portable fluorescence detector that can be applied to extra large underwater trace ammonium nitrogen analysis according to claim 1, Characterized in that, light source (131) is 365nm UV-LED, fluorescence flow cell (2) is to use quartz material.

5. a kind of Portable fluorescence detector that can be applied to extra large underwater trace ammonium nitrogen analysis according to claim 1, Characterized in that, the first monochromator includes that centre wavelength is 365nm, the exciting light optical filter of a width of 15 ± 2nm of half-wave zone, second Monochromator includes that centre wavelength is 425nm, the launching light optical filter of a width of 15 ± 2nm of half-wave zone.