ph and Acidity in Tomato Sauce



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ph and Acidity in Tomato Sauce DOC316.52.93100 Endpoint potentiometric titration Scope and application: Tomato sauce 1. Introduction This working procedure refers to the determination of titratable acidity in tomato sauce. 2. Principle The protocol rests on a weak acid titration by a strong base. The equivalent volume is determined from the ph jump in endpoint mode. By default, the endpoint ph value is set to 8.1. Acidity is given in mmol of H + per 100 g of product and in g of a chosen acid per 100 g of product. 3. Electrode and reagents Electrodes: Titrant: Intellical combined ph electrode with integrated temperature sensor, PHC725 NaOH 0.1 eq/l. Use a commercial solution or dissolve 4.00 g of sodium hydroxide in 1 L of CO 2 -free boiled water. Standard for titrant calibration: Dihydrate oxalic acid, molar weight = 126.07 g/mol ph standards: Colored 4.01, 7.00, 10.01 (part numbers 2283449, 2283549, 2283649) Deionized water 4. Ranges and settings 4.1. Default parameters The working procedure is described using the following parameters: m sample = 2.500 g Syringe volume = 10 ml 4.2. Working range For most samples, 1 syringe (10 ml) of titrant should be sufficient to reach the equivalent point. It provides the following range: Veq (ml) 1.0 9.5 Acidity in mmol H + /100g 4 38 The syringe is allowed to refill once during titration, so the range is widened: Veq (ml) 1.0 19 Acidity in mmol H + /100g 4 76 For low-concentrated samples, it is recommended to analyze more than 2.5 g of product (up to 10 g) in order to obtain a sufficient equivalent volume. Page 1 of 5

4.3. Settings 4.3.1. ph in tomato sauce Default parameter Unit Probe Recommended probe PHC725 Stirring Stirring speed 15 [%] Time 15 [s] ph measurement Stirring speed 0 [%] Stability criteria 0.05 [ph/min] Stability max time 120 [s] 4.3.2. Acidity in tomato sauce Default parameter Unit Sample Tomato sauce Amount 2.500 [g] Amount min 0 [g] Amount max 10 [g] Probe Recommended probe PHC725 Titrant NaOH Titrant concentration 0.1000 [eq/l] Syringe Syringe 1 EP titration Stirring speed 20 [%] Predose 0 [ml] Max volume stop point 20 [ml] Stop on last EQP Delay 10 [s] Min increment size 0.15 [ml] Max increment size 1.5 [ml] EP Ordinates 8.1 Result 1 name Acidity (mmol/kg) R1 hide Result 2 name Acidity R2 unit mmol of H + /100g R2 resolution 1 decimal R2 min 0 [mmol/100g] R2 max 75 [mmol/100g] R2 QC min 0 [mmol/100g] R2 QC max 75 [mmol/100g] Result 3 name Acidity R3 unit g of acid/100g R3 resolution 2 decimals R3 min 0 [g/100g] R3 max 7 [g/100g] R3 QC min 0 [g/100g] R3 QC max 7 [g/100g] Page 2 of 5

4.4. Modification of the settings The parameters are defined in order to have the best compromise between accuracy and titration time. For higher concentration with a high titrant volume, titration time can be reduced with an addition of titrant (predose) at the beginning of the titration. Enter the predose volume (in ml) and the stirring time after the addition in the application edit window. 5. Titration procedure Rinse the ph probe with deionized water. Weigh around 2.5 g of product in the 50 ml polypropylene beaker. Use a graduated cylinder to add 30 ml of deionized water. Put in a magnetic stir bar, dip the probe and the delivery tip in the solution. Start the application. When prompted, type in the exact weighed amount of the product. At the end of the titration, a first window displays the result. A second window displays the titration curve and the equivalent point coordinates. After the titration, there are two possibilities: 6. Results Replicate the sample. This is used to study the repeatability by analyzing several samples successively. At the end of each titration, a window displays the average value, the standard deviation (SD) and the relative standard deviation (RSD in %). Analyze a new sample. Another titration can be started but no Standard Deviation and RSD value will be made. 6.1. Result calculation The calculations used are: Acidity (mmol H+/100g) = C titrant (eq L) V titrant (ml) n e- H+ n e- titrant m sample (g) 1000 10 ) V titrant (ml) 1 1 m sample (g) 0.1 (eq L = Acidity (g acid /100g) = G1 FX The factor FX (0.070 by default) has to be chosen depending on the required unit: Acid Factor Citric acid monohydrate 0.070 Malic acid 0.067 Oxalic acid 0.045 Tartaric acid 0.075 Sulfuric acid 0.049 Acetic acid 0.060 Lactic acid 0.090 Citric acid 0.064 1000 10 = G1 6.2. Experimental results These results are indicative and have been obtained for a given sample of tomato sauce for ten successive determinations. Measurement Parameter Unit Mean concentration 7.8 [mmol H + /100g] Standard deviation 0.01 [mmol H + /100g] Relative standard deviation 0.1 [%] Mean titration duration 51 [s] Mean analysis duration (ph + delay + acidity) 82 [s] Page 3 of 5

6.3. Example of a titration curve This curve has been obtained during the analysis of one of the 10 samples. 7. Recommendations Always rinse the ph probe and the delivery tip between measurements. Refill the electrode regularly with KCl saturated solution to maintain the level of internal solution around 1 cm (0.4 inches) below the refill hole. 8. Bibliography Standard ISO 750:1998 9. Appendices 9.1. Electrode calibration For the precision of the titration, it is recommended to calibrate the probe with ph standards at the same temperature as the samples. For calibration, the ph is compensated at 25 C. Pour a sufficient amount of the first buffer into a 50 ml beaker and add a magnetic stir bar. Place it on the titrator under the probe holder and dip the probe into the beaker. Start the electrode calibration sequence. Rinse the probe between two buffers. Repeat this operation for each buffer (at least two buffers are recommended). At the end of the calibration, the results of the slope and offset are displayed and the user can accept or reject this result. Default settings for electrode calibration Setting Unit Stirring speed 25 [%] Stability criteria 0.05 [ph/min] Stability max time 300 [s] Slope limit min 97 [%] Slope limit max 102 [%] Offset limit min 44 [mv] Offset limit max 74 [mv] Page 4 of 5

9.2. Titrant calibration The sodium hydroxide solution can be calibrated. The exact concentration can be determined from an acidbase titration using an oxalic acid solution. Weigh 25 to 40 mg of dihydrate oxalic acid in a 50 ml beaker and use a graduated cylinder to add 30 ml of deionized water. Put in a stir bar, dip the probe and the delivery tip into the solution and launch the titrant calibration sequence. When prompted, type in the exact weighed amount (three digits). At the end of the titrant calibration, titer (eq/l) is displayed and the user can reject, replicate, or save the result. Default settings for titrant calibration Default parameter Unit Titrant NaOH Titrant concentration 0.1000 [eq/l] Syringe Syringe 1 Standard Oxalic acid Amount 30 [mg] Amount min 25 [mg] Amount max 40 [mg] Molar weight 126.07 [g/mol] EP titration Stirring speed 25 [%] Predose 2 [ml] Max volume stop point 8 [ml] Stop on last EQP Delay 0 [s] Min increment size 0.08 [ml] Max increment size 0.8 [ml] EP Ordinates 8.55 Result name Titer Result resolution 4 decimals Result min 0.09 [eq/l] Result max 0.11 [eq/l] Page 5 of 5

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