OxyGuard manual
Contents
1. Oxygen probe with NTC brown S blue yellow NTC black Oxygen probe with Pt100 brown blue yellow black Pt100 beige The same calibration values are used for both air and saturated water Calibration against various pocket test kits cannot be recommended When you use the EasyCal the probe is not subjected to a temperature change since calibration is performed with the probe in its normal position in the water For those who measure sat an EasyCal without display is available IMPORTANT As stated above probes for sat measurements have different membranes to probes for mg l ppm systems Calibration value for systems measuring m m For these measurements adjust until the output corresponds to the appropriate value from the calibration tables Temperature pressure and salinity affect the value The first table at the end of this section shows values for various temperatures and air pressures the other values for various temperatures and salinities at 760 mbar It is essential to correct for temperature use the air temperature near the probe At high altitudes or for greater accuracy a correction must be made for pressure The salinity should be corrected for in salt water measurements For a simple calibration at low altitudes assume a normal barometric pressure of 760 mm Hg How often should calibration be performed Unfortunately it is not possible to answer this q2. Salinity can be measured with the OxyGuard Refractometer Remember that no measurement is more accurate than the calibration There is no need to exchange the electrolyte regularly and there is no sensor element that will need replacing 3 3 CALIBRATION TABLE m Barometric Pressure mm Hg mbar Temp eC F 0 32 0 1 33 8 2 35 6 3 37 4 4 39 2 5 41 0 6 42 8 7 44 6 8 46 4 9 48 2 10 50 0 11 51 8 12 53 6 13 55 4 14 57 2 15 59 0 16 60 8 17 62 6 18 644 19 662 20 68 0 21 698 22 71 6 23 73 4 24 175 2 25 77 0 26 78 8 27 80 6 28 824 29 84 2 30 86 0 31 87 8 32 89 6 33 914 34 93 2 35 95 0 36 96 8 37 98 6 38 100 4 39 102 2 40 104 0 700 933 13 4 13 1 12 7 12 4 12 1 11 8 11 5 11 2 10 9 10 6 gt 29 90 00 FO OO 0000 ANnoow 1 ON Sl NL BUDA OrNwWL Wn ON ON O om 710 946 13 6 13 3 12 9 12 6 12 2 11 9 11 6 11 3 11 1 10 8 10 5 BRO 720 960 13 13 13 12 12 12 1 1 1 10 10 10 10 10 P NO in SR ps wn sdi nee DV ON ONIONS Oy OXON ONS 8 5 1 7 4 1 8 5 2 9 7 4 2 0 NOOR FRESH WATER 730 740 750 973 986 1000 140 14 2 14 4 13 6 13 8 14 0 13 3 13 4 13 6 12 9 13 1 13 3 12 6 12 7 12 9 12 3 12
3. lt gt 3 Place new O ring membrane and membrane in and O ring cap Make sure that Membrane D they are concentric amp in the bottom of the recess then screw MD O Ring ring into place ye NB Tilt the probe when assembling 2 Thoroughly Cathode 7 clean and dry ring and cap 4 2 Spare Parts Spare membranes o rings and electrolyte for the first few years use are shipped with the probe after which you can purchase more A stock of these parts will enable you to replace a damaged membrane in a few minutes If desired you can stock a spare probe you will them be able to replace a probe that is accidentally destroyed damaged or lost A spare probe can be kept ready to use for years it should be stored in a cool place Shake it close to your ear before use if it needs re filling with electrolyte it is recommended that you renovate it as described above in section 4 1 A stock of one or more spare caps will make it easy to renovate probes with damaged or old membranes you can fit new membranes to the old caps indoors in the dry ready for next time You can also keep one or more spare anodes type 3 anodes must be washed in soapy water to remove all protective oil before use Spare Part Numbers D10C3PPM 3 cap with PPM membrane D10C3SAT Type 3 cap with membrane Sets of 25 membranes with small O rings D10MPPM For ppm mg l measurements D10PP Membrane protector 210 For
4. 4 19 66 2 20 68 0 21 69 8 22 71 6 23 73 4 24 75 2 25 77 0 26 78 8 27 80 6 28 82 4 29 84 2 30 86 0 31 87 8 32 89 6 33 91 4 34 93 2 35 95 0 36 96 8 37 98 6 38 100 4 39 102 2 40 104 0 Salinity parts per thousand 0 14 6 14 2 13 8 13 4 13 1 12 8 12 4 12 1 11 8 11 5 11 3 11 0 10 8 10 5 10 3 10 1 o OOO NAAND AA hawo PUN 10 13 6 13 3 12 9 12 6 12 3 11 9 11 6 11 4 11 1 10 8 10 6 10 3 10 1 9 9 OHH COOrRNA 20 12 7 12 4 12 1 11 8 11 5 11 2 10 9 10 7 10 4 10 2 9 9 0 PNAAN Sa gt 7 2 7 1 7 0 6 9 6 8 6 6 6 5 6 4 6 3 Wi MN ON ON owon 30 11 9 11 6 11 3 11 0 10 7 10 5 10 2 10 0 9 8 wn 09 00 Non or DY DV DN NN UNO NI OS NON ON CORNY EIEN 40 The table is referred to barometric pressure of 760 mm Hg At other air pressures the values should be corrected in the following way Actual pressure 760 Corrected value Table value x Example Temperature 14 C Salinity 30 ppt Air pressure 742 mm Hg Corrected value 8 6 x 742 4 760 4 SE
5. 4 12 6 11 9 12 1 12 3 11 6 11 8 12 0 114 115 117 11 1 11 2 11 4 10 8 11 0 11 1 10 6 10 7 10 9 10 3 10 5 10 6 10 1 10 2 10 4 9 9 10 0 10 2 9 7 9 8 9 9 9 5 9 6 9 7 9 3 9 4 9 5 9 1 9 2 9 3 8 9 9 0 9 1 8 7 8 8 9 0 8 5 8 7 8 8 8 4 8 5 8 6 8 2 8 3 8 4 8 1 8 2 8 3 7 9 8 0 8 1 7 8 7 9 8 0 7 7 7 7 7 8 75 7 6 7 7 7 4 7 5 7 6 7 2 7 3 7 4 7 1 7 2 7 3 7 0 7 1 7 2 6 9 7 0 7 1 6 8 6 9 7 0 6 7 6 8 6 8 6 6 6 6 6 7 6 5 6 5 6 6 6 4 6 4 6 5 6 3 6 3 6 4 6 2 6 2 6 3 770 1026 14 8 144 14 0 13 6 13 3 12 9 12 6 12 3 12 0 11 7 11 4 11 2 10 9 10 7 10 4 10 2 2 INNAN NNN DOS OS gt ONO a 780 1040 15 0 14 6 14 2 13 8 13 4 13 1 12 8 12 4 12 1 11 9 11 6 11 3 11 0 10 8 10 6 10 3 _ COO NO me aboni ENAA gt 790 1053 15 2 14 8 14 4 14 0 13 6 13 3 12 9 12 6 12 3 12 0 11 7 11 5 11 2 10 9 10 7 10 5 0 00090 00000000 Sala 3 4 CALIBRATION TABLE SALT WATER APPLICATIONS Temp C F 32 0 33 8 35 6 37 4 39 2 41 0 gt 6 42 8 7 44 6 8 46 4 9 48 2 10 50 0 11 51 8 12 53 6 13 55 4 14 57 2 15 59 0 16 60 8 17 62 6 18 64
6. OxyGuard Dissolved Oxygen Probe Standard type USER MANUAL 202 Standard Probe manual gb 0903 CONTENTS 1 DESCRIPTION 1 1 The OxyGuard Probe 1 1 3 Which kind of transmitter can be used with the OxyGuard Probe 2 INS TAL LATION a ees 2 3 DIRECTIONS FOR USE 31 Calibration 2 3 3 3 3 4 CALIBRATION TABLE mg l FRESH WATER 4 3 5 CALIBRATION TABLE SALT WATER APPLICATIONS 5 4 SERVICE PROCEDURE 4 1 DO Probe Membrane Replacement and Probe Renovation 6 4 2 Spare Parts A i eR HR 7 5 SPECIFICATIONS Pro a ae ee ee 7 1 DESCRIPTION 1 1 The OxyGuard Probe The OxyGuard oxygen probe is a galvanic oxygen sensor that produces an electrical output proportional to the oxygen present in the medium it is placed in It consists of an upper part with cathode anode and cable and a cap with membrane and electrolyte The probe can be supplied as an oxygen probe alone with built in NTC temperature sensor or with built in Pt100 temperature sensor Oxygen diffuses through the membrane onto the cathode where it reacts chemically and then combines with the anode This chemical process develops an electrical current which is converted into a millivolt output signal through a built in resistor The probe has built in temperature compensation either for mg l saturati
7. RVICE PROCEDURE 4 1 DO Probe membrane replacement and probe renovation The probe s membrane should be wiped clean from time to time The probe should not be taken apart unless the membrane is damaged or unless after long use some years you cannot calibrate up to the correct value To replace the membrane and or renovate the probe proceed as follows 1 Remove the probe rinse it and unscrew the cap If it sticks tap the side of the probe gently with a hammer then try again Discard the electrolyte rinse the cap and top part clean off any brown or black oxide deposits 2 Inspect the anode If very corroded the anode can be replaced Check that the nut under the anode is tight before fitting a new anode Wash the anode in soapy water before use to remove any protective oil Do not use anodes purchased before 2003 on this probe 3 Check the cathode and remove any deposits using the plastic abrasive pad supplied with the probe or a little wet or dry emery paper grade 600 The cathode MUST NOT BE POLISHED 4 Rinse and dry the top part 5 You can at this stage perform an easy check on the probe Dry the probe especially the cathode and area around it completely then observe the output signal the probe should have zero output less than 0 01 mV when measured at the probe Contact your distributor if this is not the case 6 Fill a new or renovated cap to the brim with electrolyte the excess electrolyte helps remo
8. always 100 If you are measuring mg l ppm temperature the barometric pressure and the water salinity all affect the calibration value The probe must have the same temperature as the water or air it is calibrated in and must be allowed to attain this temperature before being calibrated Any robust long life probe such as the OxyGuard can take up to an hour to respond to a 10 degree temperature change in air which only takes 10 minutes in water This must be taken into consideration when calibrating An easy way to calibrate is to use the OxyGuard EasyCal calibrator Just place the probe in the EasyCal holder return it to the water and read the calibration value from the EasyCal display No need to refer to tables and it only takes a few minutes If you do not use the EasyCal take the probe up from the water wipe the membrane dry and hang the probe in free air away from direct sunlight If necessary wrap aluminium foil around it You must now wait for temperature equalization When the probe output is stable adjust the transmitter or electronics connected to give the correct output corresponding to the calibration value found from the tables as explained below Calibration value for systems measuring saturation The calibration value for systems measuring sat is always 100 For these systems and only for these systems temperature barometric pressure and salinity have no influence Oxygen probe alone brown blue
9. mitter can be used with the OxyGuard Probe As indicated above the probe can be considered a low impedance millivolt generator Its output of about 30 mV with the probe in air is temperature compensated and linearly proportional to the oxygen concentration either in mg l or saturation depending on the choice of membrane The output impedance is very low lt 1 kilohm so noise problems normally do not exist However it is important that the input impedance of the following transmitter is at least 2 megohms in order not to disturb the temperature compensation It is also extremely important that inputs from probes are galvanically isolated from each other if more than one probe is connected to the same electronics Similarly probes must be galvanically isolated from anything else that can in any way have electrical contact with the water that is measured in Dissolved oxygen is either measured in saturation or mg l The units ppm can be used instead of mg l Membranes for mg l and sat measurements differ The mg l membrane sinks in water the sat membrane floats OxyGuard manufacture an anti fouling cap for use in situations where access to the probe is difficult or where deposits build up so heavily and quickly that frequent cleaning is necessary OxyGuard transmitters are of course optimized for use with the OxyGuard probe If you are in doubt contact your dealer 2 INSTALLATION The OxyGuard probe is easy t
10. o install It should be placed where there is some movement in the water 1 cm sec is enough at 7 mg l and 13 C Ensure that the probe cannot strike against the tank wall or similar and don t mount it directly above diffusers etc Several forms of mounting device are available from OxyGuard In fish farm ponds the probe is often fitted with a membrane protector and hung in its cable In sewage treatment plants and similar the use of a Pioneer or DAT mounting system is recommended The Pioneer places the probe in a flexible mount approximately 30 cm under the surface and 50 cm from the tank wall The DAT places the probe in a fixed mounting closer to the tank wall Each probe is connected using ordinary 2 core cable and it is fitted with 5 meters of PU cable unless otherwise specified The oxygen probe alone has a two core cable The brown wire is positive the blue negative Use the junction box supplied with the probe when extending the cable There is no limit to cable length All cable types can be used The probe with built in NTC temperature sensor has four lead cable that with a Pt100 sensor five lead cable 3 DIRECTIONS FOR USE 3 1 Calibration Calibration is carried out by placing the probe in air or air saturated water waiting for temperature equalization then adjusting the transmitter or electronics connected so that the output corresponds to the calibration value If you are measuring saturation the calibration value is
11. on depending on the choice of membrane Unless otherwise specified the probes are equipped with mg l membranes The membrane can however be changed to the saturation type in a matter of minutes The probe is designed use at temperatures between 0 and 40 C liquid movement down to approx 1 cm sec measured at 7 mg l and 13 C and depths to 100 m Probes for higher temperatures or greater depths are available on request OxyGuard oxygen probes do NOT need regular maintenance or service just keep the membrane reasonably clean If you can calibrate to the correct value you should not open the probe even if it has been in use for many years If the membrane should be damaged membrane replacement will of course be necessary but the procedure which also renovates the probe is easy and can be performed on the spot by anyone as described later in this manual Spares are shipped with the probe Deposits develop on all surfaces in any biologically active system and a deposit that builds up on the membrane of an oxygen probe will change the sensitivity of that probe OxyGuard probes are designed so that deposits have little influence but for the greatest accuracy you should keep the probe clean just as it was when you calibrated it Deposits should be wiped off the membrane with a cloth or paper The cleaning frequency will depend on the accuracy desired how fast deposits build up and on their exact nature 1 2 Which kind of trans
12. sat amp volume measurements D10TOOL Membrane ring removal tool D10AN3 Anode for type 3 probes D10E30500 500 ml type 3 electrolyte D10E31L 1 1 type 3 electrolyte 5 SPECIFICATIONS 5 1 DO Probe Dimensions Diameter 58 mm length 59 mm Cable length 5 m standard Weight Weight 450 g incl cable Principle Galvanic cell self polarising self temperature compensating Output 2 5 to 5 millivolts mg l Output impedance approx 1 kiloohm Operating Conditions 0 to 40 C and depths to 100 m Other on request Data subject to change without notice
13. uestion Under ideal conditions in air the probe can keep its calibration for many months In use in water the actual conditions e g the nature of deposit build up and the desired accuracy will dictate calibration frequency It is very important that calibration is performed with care Give the probe good time to stabilize check the barometer and decide if correction is necessary Check the salinity if you measure in salt water 3 2 Maintenance The probe s membrane must be kept free from deposits ALL surfaces in a biologically active system will be covered by a film composed mostly of bacteria This bacteria film acts as a diffusion barrier for the oxygen that must diffuse through the membrane The membrane must therefore be cleaned at regular intervals the frequency depending on the actual conditions Cleaning can be performed with a cloth or soft paper The membrane is strong and not easily damaged but do not try to scratch it clean with a fingernail The probe should not be taken apart unless the membrane is damaged or you cannot calibrate to the correct value after long use Other Points Worth Considering Even though the OxyGuard probe is one of the most robust available it should be treated carefully It measures of few thousandths of a gram of oxygen which it must drag out of the water around it So if in your opinion it performs mysteriously ask your dealer or us about it You are certain to get the help you need
14. ve any air bubbles Locate the flat machined from the thread Lower the upper part into the cap and turn the cap half a turn to engage the thread Tilt the probe 15 so that the flat is uppermost and screw the cap onto the top part Excess electrolyte and air should dribble out at the flat It is important that the probe is filled completely Shake it close to your ear If you can hear the electrolyte splashing around inside it open it re fill it and try again WHEN YOU ARE CERTAIN THAT THE PROBE IS FILLED COMPLETELY TIGHTEN THE CAP HARD After renovation the probe can be regarded as new It should be hung up in air to stabilize for at least an hour before calibration If possible re calibrate after a day or two A new membrane can easily be fitted to the cap see the drawing overleaf The membrane must be flat if it wrinkles remove it and try again with a new one It is important that all parts are clean and dry Neither O ring nor membrane can be used more than once Probes can be fitted with membranes either for mg l or for saturation measurement When renovating make sure you use the right anode membrane and electrolyte See the drawings overleaf The electrolyte is blue A cap must not be re used without replacing the membrane as the membrane stretches to fit the cathode and will not fit perfectly a second time Membrane replacement J 1 Unscrew ring Flat discard used Ring
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