㻯㻺㻜㻣㻟㻭 OPTION 㻮㼑㼚㼠㻙㼠㼥㼜㼑㻌㻿㼍㼙㼜㼘㼑㼞㻌㼒㼛㼞㻌㻼㼛㼣㼐㼑㼞 㻝㻞㻙㻜㻠㻡㻣㻢 㻎㻯㻎㻌㻮㼑㼚㼠㻙㼠㼥㼜㼑㻌㻿㼍㼙㼜㼘㼑㼞㻌㼒㼛㼞㻌㻼㼛㼣㼐㼑㼞㼟 㻌㼜㼔㼕㻝㻤㻚㻡㻌㻝㻛㻝㻜㻌㼀㼍㼜㼑㼞㻌㻳㼘㼍㼟㼟 㻿㼍㼙㼜㼘㼑㼞㻌㼒㼛㼞㻌㻸㼕㼓㼔㼠㻌㼃㼑㼕㼓㼔㼠㻌㻼㼛㼣㼐㼑㼞 㻲㼕㼚㼓㼑㼞㻌㻿㼔㼍㼜㼑㼐㻌㻿㼍㼙㼜㼘㼑㼞 㻝㻞㻙㻜㻠㻠㻡㻞 㻝㻞㻙㻜㻠㻝㻤㻠 㻝㻞㻙㻜㻠㻠㻡㻠 㻭㻰㻼 Karl Fischer Moisture Titrator [Volumetric titration] 㻿㼠㼞㼍㼕㼓㼔㼠㻙㼠㼥㼜㼑㻌㻿㼍㼙㼜㼘㼑㼞 㼒㼛㼞㻌㻸㼕㼓㼔㼠㻌㼃㼑㼕㼓㼔㼠㻌㻼㼛㼣㼐㼑㼞 㻝㻞㻙㻜㻠㻡㻣㻠 㻱㼓㼓㼜㼘㼍㼚㼠㻙㼟㼔㼍㼜㼑㼐㻌㻿㼍㼙㼜㼘㼑㼞 㼒㼛㼞㻌㻼㼛㼣㼐㼑㼞㼟㻌㼜㼔㼕㻝㻤㻚㻡㻌㻝㻛㻝㻜㻌㼀㼍㼜㼑㼞 㻿㼜㼛㼛㼚㻌㼀㼥㼜㼑㻌㻿㼍㼙㼜㼘㼑㼞 㼒㼛㼞㻌㼂㼕㼟㼏㼛㼡㼟㻌㻿㼍㼙㼜㼘㼑 㻝㻞㻙㻜㻠㻠㻡㻟 㻝㻞㻙㻜㻠㻡㻣㻡 㻭㻰㻼 㻿㼍㼙㼜㼘㼑㼞㻌㼒㼛㼞㻌㻴㼕㼓㼔㻌㼂㼕㼟㼏㼛㼡㼟㻌㻿㼍㼙㼜㼘㼑 㻝㻞㻙㻜㻞㻠㻜㻜 Karl Fischer Moisture Titrator [Coulometric titration] 㻿㼍㼙㼜㼘㼑㼞㻌㼒㼛㼞㻌㼢㼕㼟㼏㼛㼡㼟㻌㼟㼍㼙㼜㼘㼑㼟 㻝㻞㻙㻜㻡㻝㻥㻞 㻿㼥㼞㼕㼚㼓㼑㻌㻵㼚㼘㼑㼠㻌㻔㼣㼕㼠㼔㻌㻿㼑㼜㼠㼡㼙㻕 㻸㼕㼝㼡㼑㼒㼕㼑㼐㻌㻳㼍㼟㻌㻿㼍㼙㼜㼘㼑㼞 㻝㻞㻙㻜㻜㻢㻢㻝㻙㻝㻝 㻝㻞㻙㻜㻡㻝㻠㻟 㻹㻷㻯 㻹㻷㻯 㻺㻙㼠㼥㼜㼑㻌㼀㼕㼠㼞㼍㼠㼕㼛㼚㻌㼂㼑㼟㼟㼑㼘 㼣㼕㼠㼔㻌㻼㼛㼞㼠㻌㻼㼘㼡㼓 㻯㻙㼠㼥㼜㼑㻌㼀㼕㼠㼞㼍㼠㼕㼛㼚㻌㼂㼑㼟㼟㼑㼘 㼣㼕㼠㼔㻌㻼㼛㼞㼠㻌㻼㼘㼡㼓 㻝㻞㻙㻜㻟㻡㻝㻜 㻝㻞㻙㻜㻝㻡㻤㻡 㻝㻞㻙㻜㻞㻤㻞㻤 㻝㻞㻙㻜㻜㻢㻥㻢㻙㻝㻜 㻹㻷㻯 㻰㻙㼠㼥㼜㼑㻌㼀㼕㼠㼞㼍㼠㼕㼛㼚㻌㼂㼑㼟㼟㼑㼘 㼣㼕㼠㼔㻌㻼㼛㼞㼠㻌㻼㼘㼡㼓 㻹㼕㼏㼞㼛㻌㻿㼍㼙㼜㼘㼕㼚㼓㻌㼁㼚㼕㼠㻌 㻔㼒㼛㼞㻌㻯㼛㼡㼘㼛㼙㼑㼠㼞㼕㼏㻕 㼀㼕㼠㼞㼍㼠㼕㼛㼚㻌㻯㼑㼘㼘㻌㼣㼕㼠㼔㻌㻰㼞㼍㼕㼚㻌㻯㼛㼏㼗 㻞㻜㻙㻜㻠㻜㻠㻞㻙㻜㻜 㻹㻷㻯 MKV-710M Option: Additional Burette KF (10mL) 㻝㻤㻝㻝㻙㻼㻰㻲㻙㻷㼀 MKC-710M
SUMMARY/CONNECTION EXAMPLE MKV/MKC-710M Unique flexibility up to 4 simultaneous titration of any type Moisture measurement by Karl Fischer method has been adopted in the official analysis methods (ASTM and pharmacopeial standard) and is widely used to determine moisture content in various substances as the most reliable method. The MKV/MKC-710M as a flagship model comes with a largest titration user interface available in the market: The main control unit of this model, MCU-710M, provides with its 8.4 inch LED touch panel an unique user experience and can be the common basis for up to four full-fledged titrators of any type, be it AT-710B potentiometric titrators or additional MKV-710B Volumetric or MKC-710B Coulometric Karl Fischer moisture titrators. Karl Fischer Moisture Titratorr [Volumetric titration] MKV-710B MKV-710M / MKV-710S Karl Fischer Moisture Titrator [Coulometric titration] MKC-710B MKC-710M / MKC-710S Main Main Control Unit Unit MCU-710M Wireless Bluetooth communication increased workplace safety when measuring toxic samples * Bluetooth adapters are to be prepared locally. Wireless communication offers substantial benefits in terms of safety and space requirements. Operation is easier and safer when toxic samples have to be measured as the main control unit can be located outside the hood. 2 MKV-710M + MKC-710B + AT-710B 3
FEATURE o cabled connections required between main control unit and titrator MKV-710M MKC-710M For safe operation ew burette unit With Bluetooth adapters, there is no need to connect the main control unit to the titrator with a cable. This offers substantial benefits in terms of safety as the main control unit can be located outside the hood when toxic samples have to be measured. The main control unit can be equipped with a battery and therefore be held in the hand. Additionally, it can be equipped with a monitor arm and therefore be located in the most suitable spot. (Arm mount: VESA standard 7 mm x 7 mm) Max 100m The new burette unit has the switching valve mounted directly on top of the cylinder. Less dead space between the switching valve and the cylinder and it inside of the cylinder left less residual titrant when replacing it. Conventional switching valve ew structure switching valve One screen for up to four titrators One main control unit can operate up to four titrators of any type ( otentiometric and Karl Fischer moisture titrators). t is thus possible to set up a system capable of running potentiometric and Karl Fischer moisture titrations simultaneously without wasting valuable bench space for several separate displays. esult output as DF files apanese atent no. 2138712 User groups and permissions Titrant information stored in burette unit elevant titrant information is stored in an C chip in the burette unit. Mounting the burette unit from one titrator to another does not require re-entry of the titrant information. This prevents titration with incorrect titrant. Automatic factor calibration (timer controlled) o need to ad ust settings for different types of solvent and samples Our proprietary technology (endpoint detection by compensating liquid resistance, apanese atent o.18 338) makes it unnecessary to change the detection electrode sensitivity and the endpoint voltage depending on the nature of each solvent and sample. This feature reliably prevents over titration and ensures highly accurate measurements. apanese atent no. 18 338 aper saving and environmentally friendly results no longer need to be printed. Measurement results are converted to DF and can be stored in a USB flash drive. Two different user levels let you easily define the operation permissions of each operator. An administrator (protected with password) has access to all functions whereas a normal operator can only perform burette operation, calibration, measurement, method number (sample file) change and reading of method. By adding an optional additional burette filled with a Water-Methanol standard solution, factor determinations are a matter of one single click. Thanks to a built-in timer function, factor determinations of the Karl Fischer reagent can automatically be performed at regular intervals. Large color TFT-LCD with touch panel The main control unit is equipped with a large color TFT-LCD. The touch panel enables easy key entry. Fast measurements Our proprietary technology achieves electrolytic speeds up to 2. mg 2O/min. This shortens the time required for pre-titrations and sample measurements considerably. eplaceable diaphragm Easy maintenance when measuring samples which tend to contaminate the diaphragm as eg. oils: Thanks to a unique mechanism, the ceramic diaphragm of the optional titration cell unit (12-03 3-01) can be replaced.
LINEUP/MEASUREMENT PRINCIPLE SPECIFICATION desiccator detection electrode Twin platinum reference electrode sample inlet titration flask titration no le stirrer rotor Option: Additional Burette KF (10mL) Option: Additional Burette KF (10mL) Standard: MS-710V Magnetic Stirrer / Automatic Solvent Change Unit Unique flexibility - up to 4 simultaneous titrations of any type Karl Fischer Moisture Titrator [Volumetric titration] Easy operation by touch panel Karl Fischer Moisture Titrator [Volumetric titration] Simple titration Karl Fischer Moisture Titrator [Volumetric titration] to Karl Fischer reagent bottle switching valve Karl Fischer reagent piston burette Flagship model Midrange model Entry odel -VOLUMETRIC TITRATION METHOD- n moisture measurements by Karl Fischer titration method, water reacts with iodine and sulfur dioxide in the presence of a base and alcohol. 2O + 2 + SO2 + C 3O + 3 [ ]SO4C 3 + 2[ ] n moisture measurements by volumetric titration method, solvent is put in the titration cell and titrated with Karl Fischer reagent to achieve dehydrated state. Then the sample is added. The water content is then determined by adding Karl Fischer reagent whose factor (mg 2O/mL) is pre-determined with a water standard as eg. a Water-Methanol standard solution. During titration, the speed and amount of Karl Fischer reagent addition is controlled based on the measured electric polari ation potential of the detection electrode. 7
LINEUP/MEASUREMENT PRINCIPLE SPECIFICATION -COULOMETRIC TITRATION METHOD- n moisture measurements by Karl Fischer titration method, water reacts with iodine and sulfur dioxide in the presence of a base and alcohol. 2O + 2 + SO2 + C 3O + 3 [ ]SO4C 3 + 2[ ] 1 n moisture measurements by coulometric titration method, iodine is generated through electrolysis of an anode solution containing iodide ions. 2-2 + 2e 2 The generated iodine (according to formula 2) is consumed by the water according to formula (1). The detection electrode serves to detect the amount of free iodine and to control the speed of electrolysis. The generated iodine is proportional to the electric quantity according to the Faraday s law. The formula (1) shows that 2 reacts with 2O in the proportion of one to one. The electric quantity required for the generation of the iodine based on the principle as described above is measured and converted to water content. Unique flexibility - up to 4 simultaneous titrations of any type Flagship model Karl Fischer Moisture Titrator [Coulometric titration] Easy operation by touch panel Midrange model Karl Fischer Moisture Titrator [Coulometric titration] Simple titration Entry odel Karl Fischer Moisture Titrator [Coulometric titration] inner burette cathode solution cathode membrane anode detection electrode (Twin platinum electrode) titration cell anode solution stirrer rotor
OPTION Evaporator AD - 11 Multiple Sample Changer C K- 01 eat Extractor for Sugar Samples AD -344 When nitrogen gas is in use, regulator (Ad ustable to 0k a) is required. Scan mode apanese atent no. 42470 3 The scan mode automatically determines the optimum evaporator temperature. t is used when the vapori ing temperature of a sample is unknown or if the sample tends to thermal decomposition. n the scan mode, the temperature in the heating furnace is increased at a constant rate and the evaporated moisture curve is analy ed. The optimum evaporator temperature is determined based on the decay observed in the evaporated moisture curve. Water Oven temperature Evaporation curve Detected temperature Start temp Together with Karl Fischer moisture titrator, this evaporator allows to measure the moisture content in powders or solid samples that cause side reactions and therefore cannot be titrated directly. The samples are heated and the vapori ed moisture is carried into the titration cell by a carrier gas. The sample boat moves in a closed tube driven by a magnet. This makes it possible to perform reliable measurements of trace moisture eliminating the risk of contamination from atmospheric moisture. A patented scan mode automatically determines the optimal evaporation temperature based on the relation between released water and heating temperature. The heating tube is easy to be cleaned thanks to its simple Measurement time Measurement time to KF moisture titrator carrier gas inlet flow control valve Time vs. Water Determines the point on the curve where the amount of extracted water drops after passing the peak of evaporation Side reaction area Measuring time vs. Oven temperature End temp. heating furnace flow sensor unit ising temperature at given heating speed (s/c) sample boat eolite sample inlet heating tube exhaust valve of purge gas movement mechanism for sample boat Multiple sample evaporator for Coulometric Karl Fischer Moisture Titrators, suitable for the continuous measurement of up to 24 samples. The heating temperature can be set for each sample individually, different kinds of sample can thus be measured automatically one after the other. An auto power off function after measurement ensures safe operation. ( O -CE) Model Multiple Sample Changer C K- 01 umber of vials 24 vials Vial 20mL vial eating temperature Setting range : oom temp. 300 Minimum setting : 1 Control precision: 3 Measurement with Thermocouple (At setting temperature higher than 100 ) eating tube igher than 100 with self-control eating method Electric oven heating over outside surface and bottom Special heater made of integrated mica with 0W capacity Vial detection Optical beam sensor Auto power off ower is shut off automatically after measurement is over. re-treatment rogrammable automatic purge of system lines Sample transfer system evolve turntable with vials and transfer a vial from turntable to heater oven. Carrier gas Flow range : 100 300mL/min Other : Dehydration with silica gel and eolite Display 20 digits x 2 lines LCD with back light Alarm Transfer mechanism malfunctions, temperature control failure, carrier gas suspension, operation error etc. Ambient condition Temperature : 1 3 umidity : 0 8 ower source AC 100-120V/ 220-240V 10 0/ 0 ower consumption Approx. 100W When nitrogen gas is in use, regulator (Ad ustable to 0k a) is required. Evaporator for Oil Samples AD - 13 This unit evaporates moisture of samples dissolved in a heated base oil. This unit is primarily used for moisture measurements in lubricant oil, grease, tar products, paints and other viscous liquids. ( O -CE) Model Evaporator for Oil Sample AD - 13 eating oven oom temp. 200 Temperature indicator controller D control late heater Cartridge type structure as flow 100 300mL/ min Carrier gas itrogen gas/ Supply pressure below 0k a ower source AC 100-120V/ 200-240V 10 0/ 0 ower consumption Approx. 400W Dimensions 320 (W) x 210 (D) x 330 ( )mm Weight Approx. kg When nitrogen gas is in use, regulator (Ad ustable to 0k a) is required. Complies to S K 227 Crude oil and petroleum products Determination of water content Equipped with specially designed drain-out system for easy drainage of base oil. Equipped with fuse to prevent excessive temperature rise. The ideal solution sugary samples: This mantel heater for volumetric Karl Fischer titration cells ensures the complete extraction of the moisture content of samples like chocolates, caramels and other samples containing sugars. ( O -CE) Model eat Extractor for Sugar Samples AD -344 eating method Mantel heater eating temperature range oom temp. 0 Thermo sensor Thermistor Temperature control 3 (At setting temperature higher than 40 ) O / OFF control Evaporator for Ores AD - 12 owerful furnace short warm-up time: This evaporator attains a temperature of 1000 C in 30 minutes and reaches stable measuring conditions in another 30 minutes. An overheat protection mechanism for this evaporator is available. ( O -CE) Model Evaporator for Ores AD - 12 Electric furnace igh temperature furnace 0 1000 Temperature indicator controller D control Temperature setting precision: Set value 10 (At room temperature 2 / At setting temperature higher than 300 ) Low temperature furnace 0 130 Temperature indicator controller D control as flow 100 300mL/ min Carrier gas itrogen gas/ Supply pressure below 0k a ower source AC 100-120V/ 200-240V 10 0/ 0 ower consumption Approx. 00W Dimensions 11 0 (W) x 340 (D) x 334 ( )mm Weight Approx. 30kg When nitrogen gas is in use, regulator (Ad ustable to 0k a) is required. Evaporator for igh Temperature AD - 12S This unit is suitable for the determination of adhesive moisture or combined moisture of iron ores, manganese ores, clay or inorganic compounds according to the SO standard. The sample is heated in the electric furnace and the evaporated moisture is carried into the titration cell by nitrogen gas. ( O -CE) Model Evaporator for igh Temperature AD - 12S Electric furnace 0 1000 Temperature indicator controller D control Temperature setting precision: Set value 10 (At room temperature 2 / At setting temperature higher than 300 ) as flow 100 300mL/ min Carrier gas itrogen gas/ Supply pressure below 0k a ower source AC 100-120V/ 200-240V 10 0/ 0 ower consumption Approx. 00W Dimensions 83 (W) x 340 (D) x 334 ( )mm Weight Approx. 30kg When nitrogen gas is in use, regulator (Ad ustable to 0k a) is required. 11
㻯㻺㻝㻜㻞 Part Number Name Remarks 12-03265 SOFT-CAP Data Acquisition Software Displays data on a PC display, enabling loading of the measurement results into a spreadsheet such as Excel or saving of the data in CSV format. 12-04184 Finger Shaped Sampler Suitable for load in solid samples and powder samples. 12-04576 Bent-type Sampler for Powder Connected to the titration cells, enables half-rotation of the sampler to drop samples. 12-04575 Spoon Type Sampler for Viscous Sample Suitable for load in viscous samples. Enables to inject samples with the spoon. 12-04452 Sampler for Light Weight Powder Suitable for small- quantity of powder samples. Connected to the titration cells, the sampler enables to half-rotate the sampler to drop samples. 12-04574 Straight-type Sampler for Light Weight Powder Suitable for small- quantity of powder samples. Vibrates to drop samples. 12-02400 Sampler for High Viscous Sample Suitable for high-viscosity solid samples. Injected into the titration cell, the sampler presses out the samples. 12-05067 Micro Sampling Unit (phi14 1/10 Taper) Suitable for the trace powder samples of especially high hygroscopicity. The sample is loaded with its special container in the titration cell. Finger Shaped Sampler Bent-type Sampler for Powder Spoon Type Sampler for Viscous Sample Sampler for Light Weight Powder Straight-type Sampler Sampler for Light Weight Powder for High Viscous Sample Micro Sampling Unit (phi14 1/10 Taper) 㻝㻤㻜㻥㻙㻝㻟㻙㻷㼀 㻴㼥㼎㼞㼕㼐㻌㻷㼍㼞㼘㻌㻲㼕㼟㼏㼔㼑㼞㻌㻹㼛㼕㼟㼠㼡㼞㼑㻌㼀㼕㼠㼞㼍㼠㼛㼞
Measuring moisture contents of solid and liquid samples by using the Karl Fischer reaction. Hybrid Karl Fischer Moisture Titrator has world s first original features with convenient functionality, and high-speed, high-accuracy measurement using our Hybrid Titration Method. With our Electrolytic Factor Measurement System, factor measurement is possible without using pure water. This is a breakthrough product that innovates the Karl Fischer moisture titration instruments. This product complies with official methods of analysis specified by the ASTM, JIS (Japanese Industrial Standards), and as published in the European Pharmacopoeia and the United States Pharmacopeia. Single instrument and a single titration cell allow utilization of Volumetric/Coulometric/Hybrid Titration Methods. No cabled connections required between main control unit and titrator For safe operation Just one instrument with one titration cell is needed to perform volumetric, coulometric, and hybrid measurements. With high operability for the volumetric method, the requisite sealability for the coulometric method has also been realized. Integrated functionality greatly contributes to a compact installation and low maintenance requirements. Hybrid Volumetric Coulometric MKH-710 With Bluetooth adapters, there is no need to connect main control unit to titrator with cable. This offers substantial benefits in terms of safety as the main control unit can be located outside the hood when toxic samples have to be measured. The main control unit can be equipped with a battery and therefore be held in the hand. Additionally, it can be equipped with a monitor arm and therefore be located in the most suitable spot. (Arm mount: VESA standard 75mm x 75mm) Max 100m No need to inject pure water Fully automatic factor measurement Our unique Electrolytic Factor Measurement System carries out factor measurement automatically. Just the press of a button enables factor measurement, which alleviates the need for the tedious weighing or measuring of pure water. Reduced running-costs Patent Patent pending *Some reagents are not applicable. Automatic sample injection Hybrid titration method automatically switches the measurement methods of volumetric and coulometric according to the water content of the sample. You can accurately and seamlessly measure samples without concern for the sample moisture content, as the instrument is capable of measuring trace or much larger quantities. Patent *Some reagents are not applicable. One screen for up to four titrators One main control unit can operate up to four titrators of any type (Potentiometric and Karl Fischer moisture titrators). It is thus possible to set up a system capable of running potentiometric and Karl Fischer moisture titrations simultaneously without wasting valuable bench space for several separate displays. New burette unit Japanese Patent no. 2138712 Wireless 4ch Multi Connection Hybrid Titration Method Compared to the coulometric titration method, running cost is almost halved. Electrolytic Factor Measurement Compared to conventional factor measurement, running cost is reduced by up to 60%. The new burette unit has the switching valve mounted directly on top of the cylinder. Less dead space between the switching valve and the cylinder and it inside of the cylinder left less residual titrant when replacing it. Conventional switching valve New structure switching valve *Under our specified conditions
<< Titration result >> Sample No. : 02-29 Date : 2017/12/05 15:01:09 Model : MKH-710(MCU-710) Time : 00:00:57 Serial No. : 98700006 Operator : KEM TARO Method name : Normal Titration Anolyte Reagent Name : Anolyte Anolyte Life Value : 738 mg Catholyte Reagent Name : Catholyte Catholyte Life Value : 738 mg Drift Stop Rel. : 0.10 ug/s Control gain : 5.0 t(stir) : 0 s t(wait) : 15 s t(max) : 0 s Cell type : 2-Comp. Option : Off Oven temp. : --- Deg.C Pre-Treat : - Back purge : ----- s Cell purge : ----- s Sample purge : ----- s Calc.No. : 2 Sample name : C6H14 6.4g Sample ID : Co AGE A17730 Size(Size) : 6.5042 g Size(Wt1) : -6.5042 g Size(Wt2) : 0.0000 g Blank ( Blank ) : 0.0000 ug Revision Coef. ( FA ) : 1.00500 Dissolve Samp. ( Wt0 ) : -.----- g Conc.of Solvent ( A ) : -.----- ppm Dissolve Solvent ( B ) : -.----- g Samp.Volume ( V1 ) : -.----- ml Samp.Dens. ( Dens ) : -.----- g/ml Samp.Gas Volume ( V2 ) : -.----- L Samp.Gas Temp. ( Temp. ) : -.-- Deg.C Recalculation comment : [Result] Conc. : 26.4067 ppm Moisture : 170.9 ug Drift : 0.08 ug/s Detection temp. : --- Deg.C [Titration Curve] 66 ug 0 0:00:00 0:01:30 230 0 ug Titration cell stopper can be easily removed Diaphragm can be replaced No need to adjust settings for different types of solvent and samples Volumetric Titration Method Automatic factor measurement (Timer function added) Volumetric Titration Method The titration cell stopper can be removed from the titration cell for easy cleaning. Even when the electrode is stuck at the stopper, you can still easily remove it by hand. The new mechanism of electrolysis electrode (inner burette) allows diaphragm replacement. When the diaphragm is contaminated by the oil samples, it can be easily replaced for cleaner measurement. Our proprietary technology (endpoint detection by compensating liquid resistance, Japanese Patent No.1896338) makes it unnecessary to change the detection electrode sensitivity or endpoint voltage depending on the nature of each solvent and sample. This feature reliably prevents over titration and ensures highly accurate measurements. Patent No.1896338 Optionally available burette unit and water-methanol standard solution enable automatic operation flow, from the pre-titration to the factor measurement just by pressing a button. The automatic factor measurement can be preset to start; you can start measuring samples whenever you like. Large capacity titration cell Large sample inlet The titration cell has approximately twice the capacity (40mL 150mL) of our conventional volumetric titration cell. The frequency of injection/drain of dehydrated solvent can be reduced. The titration cell is equipped with the large sample inlet of now easily and correctly load samples of powder or other substances when performing volumetric titration. Result output as PDF files Paper saving and environmentally friendly results no longer need to be printed. Measurement results are converted to PDF and can be stored in a USB flash drive. Large color TFT-LCD with touch panel The main control unit is equipped with a large color TFT-LCD. The touch panel enables easy key entry. Easy injection/drain of dehydrated solvent The stirrer unit is equipped with a pump for injecting/draining dehydrated solvent. Once you set the operating time of the pump with the internal timer, the optimum quantity of the solvent is automatically injected. Supporting proper reagent replacement Reagent replacement or filling and cleaning of the burette can be performed according to the navigation function of Karl Fischer reagent replace- drain out the solution without errors thanks to the guidance of key operation and work. Karl Fischer reagent information stored in burette unit Relevant titrant information is stored in an IC chip in the burette unit. Mounting the burette unit from one titrator to another does not require re-entry of the Karl Fischer reagent information. This prevents titration with incorrect titrant. User groups and permissions Two different user levels let you easily define the operation permissions of each operator. An administrator (protected with password) has access to all functions whereas a normal operator can only perform burette operation, calibration, measurement, method number (sample file) change and reading of method.
Hybrid Titration Method There are two Karl Fischer titration methods: volumetric titration method and coulometric titration method. Both have advantages and disadvantages. The volumetric titration method is suitable for measurement of high-moisture samples (1% or more), but not for low-moisture samples (ppm order). Meanwhile, the coulometric titration method is suitable for measurement of low-moisture samples (ppm order), but not for high-moisture samples (1% or more). This is because measurement time is rather long and if the sample quantity is reduced in order to shorten the measurement time, errors from weighing would affect the measurement results. Change level potential Coulometric titration method Volumetric titration method Potential Measurement time Detection electrode (Twin platinum electrode) The hybrid titration method highlights the advantages and covers address the disadvantages of both methods. The hybrid titration method runs both volumetric and coulometric titration methods in parallel. Once water content goes below a certain level, measurement will be performed using the coulometric titration method. The method automatically switches from the parallel running of volumetric and coulometric titration methods to the coulometric titration method only. The system runs the coulometric titration method when a sample includes only water content lower than the certain level. Inner burette Stirrer rotor Switching valve Titration nozzle Karl Fischer reagent Piston burette Volumetric Titration Method In the Karl Fischer reaction, water reacts with iodine and sulfur dioxide quantitatively in the presence of base and alcohol. H2O + I2 + SO2 + CH3 4CH3 After dehydrated solvent is put in the titration cell and the dehydrated state is achieved by titration using Karl Fischer reagent, the sample is added into the titration cell. Water content is determined by using Karl Fischer reagent of which the factor (mgh2o/ml) is pre-determined with the water-methanol standard etc. Titration proceeds by controlling the titration speed while detecting the polarization of the electric potential of the detection electrode. Desiccant tube Detection electrode (Twin platinum electrode) Sample inlet To Karl Fisher reagent bottle Switching valve Coulometric Titration Method In the Karl Fischer reaction, water reacts with iodine and sulfur dioxide quantitatively in the presence of a base and alcohol. H2O + I2 + SO2 + CH3 4CH3 1 In the coulometric titration method, iodine is generated by the electrolysis of the anolyte containing iodide ions. 2I - 2 + 2e - 2 Once the generated iodine is consumed according to equation (1), the detection electrode detects the consumption of iodine and iodine is generated again by electrolysis according to equation (2). The generated iodine is proportional to the electric quantity according to the Faraday s law. The equation (1) shows that I2 reacts with H2O in the proportion of one to one. The electric quantity required for the electrolysis based on the principle as described above is converted into water content. Inner burette Detection electrode (Twin platinum electrode) Titration cell Karl Fischer reagent Catholyte Electrolysis Factor Measurement In Karl Fischer volumetric titration method, pure water or water standard is used for factor measurement of Karl Fisher reagents. In electrolysis factor measurement, factor measurement of Karl Fischer reagents is carried out by the electrolysis without using pure water or water standard. Coulometric titration Cathode Anode Back Coulometric titration Anode Cathode Titration flask Titration nozzle Stirrer rotor Piston burette Cathode Diaphragm Anode Anolyte Stirrer rotor The coulometric titration method measures water content by the electrolysis (coulometric titration) to generate iodine from iodide ions within the anolyte. In electrolysis factor measurement, factor measurement of Karl Fischer reagents is carried out based on the electric quantity used in the electrolysis (back coulometric titration) to generate iodide ions from iodine within the anolyte. Diaphragm Diaphragm
Model Name Remarks Evaporator ADP-611 CHK-501 Multiple Sample Changer Multi-sample evaporator for the coulometric titration method. Since heating temperature can be set for each sample, different kinds of samples can be set at the same time (24 samples). Connection tube (for Multiple Sample Changer) (12-05065) is required. (NON-CE) Together with Karl Fischer moisture titrator, this evaporator allows to measure the moisture content in powders or solid samples that cause side reactions and therefore cannot be titrated directly. The samples are heated and the vaporized moisture is carried into the titration cell by a carrier gas. The sample boat moves in a closed tube driven by a magnet. This makes it possible to perform reliable measurements of trace moisture eliminating the risk of contamination from atmospheric moisture. A patented scan mode automatically determines the optimal evaporation temperature based on the relation between released water and heating temperature. The heating tube is easy to be cleaned thanks to its simple structure. heating furnace sample inlet exhaust valve of purge gas ADP-513 ADP-512 ADP-512S ADP-344 Evaporator for Oil Sample Evaporator for Ores Evaporator for High Temperature Heat Extractor for Sugar Sample This unit heats and evaporates lubricant oil, grease, tar products, paints, and other viscous liquids. Evaporated moisture is measured using a Karl Fischer moisture titrator. (NON-CE) This unit heats and evaporates combined water content and adherent water in iron ore, manganese ore, clay and other inorganic compounds. Evaporated moisture is measured using a Karl Fischer moisture titrator. Compliant with "JIS M 8211 iron ores - Method for determination of combined water content" (NON-CE) This unit heats and evaporates ore, metal powder, ceramics, and other solid or powder samples. Evaporates moisture is measured using a Karl Fischer moisture titrator. r. (Maximum heating temperature: 1000 C.) (NON-CE) This unit heats the titration cell and extracts water content from chocolate, caramel, and other sugar samples using the volumetric titration method. The titration cell unit (12-02811) and the cell holder (for volumetric method) (12-05066) are required. (NON-CE) to KF moisture titrator sample boat heating tube Model Name Remarks carrier gas inlet zeolite movement mechanism for sample boat MKV-710B Karl Fischer Moisture Titrator Volumetric titration method Karl Fischer moisture measurement unit for expansion. Connected to main control unit MCU-710M*. Up to 4 moisture measurements can be performed at the same time. flow control valve flow sensor unit MKC-710B Karl Fischer Moisture Titrator Coulometric titration method Karl Fischer moisture measurement unit for expansion which is suitable for measurement of trace water content. Connected to main control unit MCU-710M*. Up to 4 moisture measurements can be performed at the same time. When nitrogen gas is in use, regulator (Adjustable to 50kPa) is required. AT-710B Automatic Potentiometric Titrator A unit to add automatic potentiometric titrator. Various titrations such as acid-base titration, redox titration, and photometric titration can be performed by selecting electrodes and preamplifier. Connected to main control unit MCU-710M*. Up to 4 moisture measurements can be performed at the same time. Hybrid Karl Fischer moisture measurement unit for expansion. Connected to main control unit MCU-710M*. Up to 4 moisture measurements can be performed at the same time. Scan mode Japanese Patent no. 4247093 Time vs. Water MKH-710/2nd Hybrid Karl Fischer Moisture Titrator The scan mode automatically determines the optimum evaporator temperature. It is used when the vaporizing temperature of a sample is unknown or if the sample tends to thermal decomposition. In the scan mode, the temperature in the heating furnace is increased at a constant rate and the evaporated moisture curve is analyzed. The optimum evaporator temperature is determined based on the decay observed in the evaporated moisture curve. Water Oven temperature Evaporation curve Detected temperature Start temp Determines the point on the curve where the amount of extracted water drops after passing the peak of evaporation Measurement time Side reaction area Measuring time vs. Oven temperature End temp. Rising temperature at given heating speed (s/c) 12-05640-13 Additional Burette MKH (10mL) By adding to the main unit, it becomes possible to work with two burettes. Two burettes can be used without increasing space taken. Back-titration and automatic factor measurement with water-methanol becomes possible. *Cannot connect MCU-710S Measurement time