HYDROGEN SULFIDE SENSOR USER MANUAL
Contents
1. 7 UNISENSE HYDROGEN SULFIDE SENSOR USER MANUAL HYDROGEN SULFIDE SENSOR MANUAL Copyright O 2012 Unisense A S Version October 2012 HYDROGEN SULFIDE SENSOR MANUAL UNISENSE A S TABLE OF CONTENTS SUPPORT ORDERING AND CONTACT INFORMATION OVERVIEW Sr Rates GETTING STARTED iva is UNPACKING A NEW SENSOR POLARIZE PICOAMMETER CONNECTING THE MICROSENSOR PRE POLARIZATION CALIBRATION Calibration theory Calibration in the laboratory Calibration in the field Re calibration MEASUREMENT 5 MOUNTING THE SENSORS ELECTRICAL NOISE PH INFLUENCE INTERFERENCE ADVANCED USE ba STORAGE AND CLEANING THE SENSOR REFERENCES animate aaa TROUBLESHOOTING ccm tosiaan einer age aja ye LA WARRANTY AND LIABILITY NoTICE TO PURCHASER This product is for research use only Not for use in human diagnostic or therapeutic procedures WARNING Microsensors have very pointed tips and must be handled with care to avoid personal injury and only by trained personnel Unisense A S recommends users to attend instruction courses to ensure proper use of the products WARRANTY AND LIABILITY The hydrogen sulfide microsensor is covered by a 90 days limited warranty Microsensors are a consumable Unisense will only replace dysfunctional sensors if they have been tested according with the instr2. plug on the picoammeter blue plug with the medium you are measuring in Use the provided blue grounding wire Leave the other end with approximately 1 cm un insulated wire If you are measuring in e g a sediment just put the open wire end in the water column Ifyou encounter other problems and need scientific technical assistance please contact salesaunisense com for online support we will answer you within one workday 23 UNISENSE UNISENSE DENMARK www unisense com info unisense com
3. seen as a higher signal in light as compared to the signal in darkness for the same amount of H S The sensors are painted black to protect them against light Light may however still enter the sensor through the tip which it is not possible to paint GETTING STARTED UNPACKING A NEW SENSOR When receiving a new microsensor remove the shock absorbing grey plastic net Please do not remove the seal and protective tube before the following steps are successfully completed NOTE if you have a H S MR electrode calibrate in the protective tube and then carefully move the sensor from this tube into the provided blue guide POLARIZE PICOAMMETER The signal from the H S sensor is generated in pA Therefore the HS sensor must be connected to a Unisense picoampere amplifier during measurements 25 sensors should be polarised with 85mV on legacy PA2000 meters value is set at 0 08V On the Microsensor Multimeter and Microsensor Monometer sulfide sensors with lemo connectors are automatically recognized and polarization automatically set If you are using another amplifier or sensor connection type please check the polarization voltage before connecting a sensor since incorrect polarization may destroy the sensor For details on how to set the polarization consult the user manual of the amplifier that you are using CONNECTING THE MICROSENSOR Connect the LEMO connector to the input terminal The LEMO connector contains connections
4. the quality of the measurements as long as the sensor is regularly calibrated 17 MEASUREMENTS MOUNTING THE SENSORS Due to the small size of the microsensor tip and the steepness of H S gradients in many environments even a few microns displacement of the sensor tip may change its immediate H S environment The sensor tip is quite flexible and can bend around physical obstacles But coarse lateral movements of the sensor when its tip is in contact with a solid substrate may easily cause the tip to break Therefore measurements should be performed only in a stabilized set up fixed on a sturdy table free of moving or vibrating devices We recommend the Unisense lab stand LS18 and the Unisense micromanipulator MM 33 MM33 2 or MMS for this purpose ELECTRICAL NOISE The signal of the microsensor is very small 107 to 1073 ampere Although both the Unisense picoammeters and the Unisense 5 microsensors are very resistant to electrical noise from the environment electrical fields may interfere with the sensor signal Therefore we recommend that unnecessary electrical mechanical equipment is switched off and by the sensor or wires are not touched during measurements and signal recording On suspicion of sensor damage repeat calibration and consult Troubleshooting PH INFLUENCE As mentioned above the H S concentration is a function of pH If measurements of H S are performed in points along a pH gradient pH should b
5. ANCED USE Unisense can construct H S sensors for customer requested applications at additional costs The most frequently construction options are described at our web page The options include for instance customer specified dimensions cable length etc If your specifications for a special H S sensor are not described at our web page please contact sales unisense com for further options 20 STORAGE AND MAINTENANCE Store the H S microsensor unpolarized in the protective glass tube used for shipping Due to the light sensitivity of the electrolyte 25 microsensors should be applied and stored at low to moderate levels of light The sensor can be stored with the tip exposed to water or air The room in which the H S microsensor is stored should be dry and not too hot about 5 35 C CLEANING THE SENSOR Standard procedure Rinse with 96 ethanol rinse with 0 01 M HCI and rinse with water Alternatively rinse with 0 1M NaOH Isopropanol Detergent LIGHT SENSITIVITY Due to the light sensitivity of the electrolyte S microsensors should be applied and storedat low to moderate levels of light 21 REFERENCES Borum J et al 2005 The potential role of plant oxygen and sulphide dynamics in die off events of the tropical seagrass Thalassia testudinum Journal of Ecology 93 148 158 Budd M S amp Bewick H A 1952 Photometric determination of hydrogen Sulfide and reducible sulfur in alkalines Analyti
6. ation is derived by Millero et al 1988 98 08 5765 4 T 15 04555 LN T 0 157 S95 0 0135 5 Temperature in Kelvin Figure 1 The species distribution of H2S HS and S2 as a function of pH As 5 sensors are sensitive to temperature it is necessary to perform calibration and measurements at the same temperature 13 Please note that in contrast to oxygen the relationship between salinity temperature and solubility is not well known and therefore not tabled for sulfide gas CALIBRATION IN THE LABORATORY Calibration must be performed after the sensor signal has stabilized during pre polarization The H S microsensor responds linearly over a certain range e g 0 300 uM above which the slope of the response curve decreases but the response and resolution above the linear range may be sufficiently good for reliable measurements We suggest that you establish the linear range by making a coarse calibration in the entire concentration range of interest If measurements of concentrations above the linear range are needed a calibration with sufficient resolution has to be made in the non linear range whilst a 3 point calibration is sufficient in the linear range Please read the entire procedure below before the calibration is commenced It is best to first prepare the stock solution soit is ready Then prepare the buffer and perform the calibration guickly thereafter in order to avoid reintroduction of
7. cal Chemistry 24 1536 1540 Cline J D 1969 Limnol and Oceanogr 14 454 458 Jeroschewski Steuckart amp K hl 1996 Anal Chem 68 4351 4357 K hl M Steukart Eickert G 8 Jeroschewski 1998 Aquat Microb Ecol 15 201 209 22 TROUBLE SHOOTING Problem Possible cause 1 Solution Possible cause 2 Solution Problem Possible cause Solution Problem Possible cause Solution Problem Possible cause Solution A high and drifting signal Gas bubbles are present inside the sensor tip due to a short circuit or electrical shock Degas water by boiling and subsequent cooling or by 10 minutes of vacuum treatment Immerse the sensor tip for 20 min in the degassed water Repeated or prolonged treatment may be necessary The sensor tip is broken Replace the H S microsensor A slow response Insoluble compounds deposited on the sensor tip Rinse with 96 ethanol rinse with 0 01 M HCl and rinse with water Measurements in two environments with equal H S concen trations exhibit different signals The light intensity differs between the two environments causing different light interference Try to keep constant light conditions and interpret data with the light interference in mind Signal unstable fluctuatung if the set up is touched or equipment is introduced in the medium Electrical disturbance through the tip membrane Ground the set up by connecting the reference
8. cool considerably Monitor Cline 1969 when the temperature to find a suitable areductant has bubbling rate which does not cool the been added buffer significantly b By adding a suitable reductant e g Ti III Cl MERCK supplies this in a 10 HCI solution to the oxygen free buffer to a final concentration of 50 mM Add a few glass beads 2 3 mm in diameter to facilitate mixing The transfer is preferably performed with a pipette to minimize mixing with oxygen and a maximum of 10 of the vial volume should be left as headspace Close the container with a gas tight lid and shake vigorously 3 Obtain zero reading The signal at zero H S can be obtained by immersing the sensor tip into one of the vials with calibration buffer Note the signal which is the calibration value for zero H S partial pressure SO This signal should be 0 30 pA otherwise see Troubleshooting 4 Obtain sulfide standard readings Calibration points within the expected range of measurement are prepared by injecting suitable amounts of the S stock solution anaerobically into the calibration buffer with a micro syringe the stock solution should be diluted at least 10 times Mix the solutions If you have not added reductant oxygen that dissolve in the calibration solution will oxidize the sulfide so the stock solution should be added immediately after the oxygen removal e g N bubbling and the calibration should be done immediately after addi
9. e measured in the same points with a pH microsensor e g Unisense PH10 PH25 PH100 to allow the determination of the total sulfide concentration Use the equations in the calibration section in order to calculate S tot Ferro cyanide reacts in light especially blue short wave light WARNING Measurements in a light gradient should be avoided and interpretation of measurements in a light gradient should be made with the light interference in mind Thus light increases the signal of the H S sensor by increasing the zero current This means that when measuring through a light gradient e g when measuring into an illuminated biofilm the signal will decrease slightly when entering the biofilm In many systems the light will be almost completely attenuated within the first few hundred microns INTERFERENCE There is a slight linear interference from hydrogen on the sulfide sensor At the same concentration hydrogen will be responsible for 1 15 of the signal This means that 1 UM H 0 015 uM H S Light gives a false H S sensor signal The sensor has been painted black to reduce this phenomen however light may still enter the sensor through the tip which is not possible to paint WARNING Always introduce and retract the microsensor axially using a micromanipulator and a stable stand when measuring in solid or semisolid substrate like sediment tissue biofilms microbial mats etc Micromanipulator 19 ADV
10. for both reference guard and sensing anode PRE POLARIZATION When the sensor is not in use hydrogen sulfide will build up inside the electrolyte This must be removed by the sensing anode and the guard anode before stable operation of the sensor is possible WARNING Do not remove the seal and protective plastic tube before the following steps 1 4 and calibration are succesfully completed IMPORTANT Ifyou have a H S MR electrode calibrate in the protective tube and then carefully move the sensor from this tube into the provided blue guide PREPOLARIZATION If the sensor is new or has not been operated for several days then it must be polarized for at least 2 hours before it can be calibrated and used After shorter periods without polarization the sensor should be polarized until it has exhibited a stable signal for 10 minutes 11 Therefore a period of polarization is necessary before you can use the sensor This is called the pre polarization period Ifthe sensor is new or has not been operated for several days it must be pre polarized for at least 2 hours before it can be calibrated and used After shorter periods without polarization the sensor should be pre polarized until it has shown a stable signal for at least ten minutes When pre polarization is initiated the signal will be very high and then drop rapidly over the first few minutes After that the signal will drop slowly for up to tw
11. h to order additional products or if you encounter any problems and need scientific technical assistance please do not hesitate to contact our sales and support team We will respond to your inquiry within one working day E mail saleseunisense com Unisense A S Tueager 1 DK 8200 Aarhus N Denmark Tel 45 8944 9500 Fax 45 8944 9549 Further documentation and support is available at our website www unisense com REPLACEMENT OF SENSORS Unisense will replace sensors that have been damaged during shipment provided that The sensors were tested immediately upon receipt in accordance with the delivery note and the manual The seal is still intact The sensors are returned to Unisense for inspection within two weeks The sensors are correctly packed for return to Unisense in accordance with the note included in the sensor box RECOMMENDED AMPLIFIERS One channel amplifier Microsensor Monometer Multi channel amplifiers Microsensor Multimeter OVERVIEW This manual covers all the Unisense hydrogen sulfide sensors IMPORTANT Unisense sensors The Unisense H S microsensor is a miniaturized amperometric are neither sensor with a guard electrode The microsensor is designed intended nor for research applications within physiology biotechnology approved for use of environmental sciences and related areas humans With its minute tip size excellent response time and minimal stirring sensitivity the Unisense H S sens
12. he vials with reagent 2 and 1 ml syringe needle with you to the field Calibration in the field Perform the zero point determination in clean water without 5 at field site temperature Prepare a 100 uM calibration standard Perform the calibration quickly after mixing as the durability of the mix is short 1 Loosen the lid of a reagent 2 vial and remove carefully 1 ml with a syringe needle through the lid Throw this away 2 Take 1ml of reagent 1 and add it to the reagent 2 vial 3 Tighten the lid and mix 4 Remove the lid and place the sensor tip carefully in the vial and perform the 100 uM calibration For making higher or lower concentrated H S calibration solutions make reagent 1 more or less concentrated with Na S RE CALIBRATION Check the calibration at appropriate time intervals and repeat it if the sensor exhibits significant drift When the sensor is new you may need to calibrate it every two hours An older extensively used sensor may require calibration only every 24 hours or less To minimize the need for calibration keep the sensor polarized between measurements if possible unless the time between measurements exceeds several days If the signal does not stabilize or remains too high or too low refer to the Troubleshooting section in this manual The response of the H S microsensor does change with time and a decrease in signal of up to 50 pr month is to be expected This does not affect
13. ng the stock solution 15 For each calibration solution measure the calibration values by removing the rubber stopper and immerse the microsensor tip into the solution Read the signal and plot it against the concentration The most precise calibration curve is obtained by fixing the calibration solutions with Zn acetate and subsequently determining the total sulfide concentration using the Cline method Cline 1969 This may due to the nature of the method be difficult if a reductant has been added previously CALIBRATION IN THE FIELD For an easy and portable field calibration prepare the following reagents in the lab Bring the reagents and a 1 ml syringe needle to the field Reagent 1 ImMNa S 1MmMNaOH Prepare the solution in a membrane flask with gas tight lid After mixing flush the solution with nitrogen gas to remove all oxygen and quickly place the lid on the flask During storage practically all sulfide in Reagent 1 will be in alkaline form and since it is stored in an gas tight vial it cannot evaporate to any significant degree Reagent 2 0 1MHCI 50MMTICI As the is a strong reducing agent all oxygen will be reduced the mixture but it is still recommended that you avoid introducing too much oxygen during mixing Fill reagent 2 into a 10 ml glass vial with gas tight membrane lid Avoid head space Prepare as many vials as the number of calibrations you expect to make Bring reagent 1 t
14. o hours for needle and some custom made sensors slightly longer It takes normally between 10 minutes and an hour before a sensor is stable The sensor signal depends on the specific sensor see the delivery note which came with the sensor If the signal does not stabilize or is too high or too low refer to the Troubleshooting section CALIBRATION CALIBRATION THEORY The sensor detects the partial pressure of H S gas which is only one component of the total sulfide equilibrium system If the total sulfide concentration 52101 is defined as HS HS S gt the 5 concentration will be defined as K KK mor 05 2 1 mo H O H 1098 which can be simplified to K s 1 1 HoT for pH lt 9 Jeroschewski et al 1996 Thus it is necessary to know the pH i e to know of the sample calibration solution to calculate 5 2 see Figure 1 tot IMPORTANT Calibration must be performed after pre polarization when the sensor signal has stabilized Always use acalibration solution with the same temperature and salinity as the sample solution pH log H In solutions with a pH below 4 the equation can be simplified to 2 tot H S 5 10 is dependent temperature and salinity The literature gives slightly different equations for calculating pK in water as a function of temperature T and salinity S The following equ
15. or makes it possible to make reliable and fast measurements at high spatial resolution The Unisense H S microsensor is a miniaturized amperometric sensor with an internal reference a sensing and a guard anode The sensor is connected to a high sensitivity picoammeter and the anodes are polarized against the internal reference Driven by the external partial pressure H S from the environment will penetrate through the sensor tip membrane into the alkaline electrolyte where the HS ions formed are oxidized immediately by ferricyanide producing sulfur and ferrocyanide The sensor signal is generated by re oxidation of ferrocyanide at the anode in the tip of the sensor Jeroschewski et al 1996 The Unisense picoampere amplifier converts the resulting reduction current to a voltage signal Also the internal guard electrode is polarized to scavenge H S and helps keeping a constant ratio of ferri to ferro cyanide in the electrolyte thus minimizing zero current pien6 For calculation of total sulfide concentrations it is necessary to know the pH When measuring H S in pH gradients pH should be measured along the same profile with a pH microsensor e g Unisense PH10 PH25 The LEMO connector contains connections for di 10suos Bnid ON 1 both reference guard and sensing cathode The electrolyte in the H S microsensor is photo degraded by high light intensities especially UV and blue light This is
16. oxygen NOTE for field calibrations an alternative method is recommended this will enable you to prepare reagents to bring into the field for easy calibration Laboratory calibration 1 Preparea stock solution A stock solution of S 0 01M total sulphide is prepared anaerobically by dissolving 0 24 g Na S 9 H O in 100mL of N flushed water in a closed container The final concentration of the stock solution should be determined by standard analysis e g Cline 1969 or Budd amp Bewick 1952 Keep the stock solution out of contact with oxygen 2 Prepare the calibration buffer Any standard pH buffer with a pH value less than 4 can be used Remove oxygen from a volume of the buffer This can be done in IMPORTANT It is important to perform calibration and subsequent measurements in solution with the same temperature and salinity FIELD CALIBRATION For field calibrations please see alternative calibration procedure below WARNING Vigorous bubbling water with any gas may cause the water to cool considerably Monitor the temperature to find a suitable bubbling rate which does not cool the water significantly two ways WARNING a By vigorously bubbling with an It may be difficult e to use a standard oxygen free inert gas e g for at N N analysis for sulfide least 5 minutes NOTE Vigorously in your calibrati bubbling buffer with any gas may cause solution e g the water to
17. uctions in the manual within 14 days of receipt of the sensor s The warranty does not include repair or replacement necessitated by accident neglect misuse unauthorized repair or modification of the product In no event will Unisense A S be liable for any direct indirect consequential or incidental damages including lost profits or for any claim by any third party arising out of the use the results of use or the inability to use this product Unisense mechanical and electronic laboratory instruments must only be used under normal laboratory conditions in a dry and clean environment Unisense assumes no liability for damages on laboratory instruments due to unintended field use or exposure to dust humidity or corrosive environments REPAIR OR ADJUSTMENT Sensors and electrodes cannot be repaired Equipment that is not covered by the warranty will if possible be repaired by Unisense A S with appropriate charges paid by the customer In case of return of equipment please contact us for return authorization For further information please see the document General Terms of Sale and Delivery of Unisense A S as well as the manuals for the respective products CONGRATULATIONS WITH YOUR NEW PRODUCT SUPPORT ORDERING AND CONTACT INFORMATION The Unisense hydrogen sulfide microsensor is a miniaturized Clark type hydrogen sulfide sensor designed for reliable and fast measurements in a large number of research applications Ifyou wis
Download Pdf Manuals
Related Search