Buffer solutions are needed as an indispensable tool for maintaining an accurate pH measurement. Buffer solutions are used as references points for calibration and adjustment of pH measurements to compensate for again and deterioration.
pH buffer solutions are mixtures of weak acids and the salt of these acids with a strong base, or mixtures of weak bases and the salt of these bases with a strong acid. Consequently, if the buffers are not accurate themselves, the calibration serves no useful purpose. Buffers are classified in three categories. The main difference between the different types of buffers is the accuracy and buffer capacity.
Depending on your region different versions are available from Yokogawa
Primary reference buffer
These buffers are not commercial buffers and mainly used in metrological institutes. These buffers show the lowest uncertainty in pH values, ±0.003.
Standard Buffer (secondary reference buffer)
Standard buffer solutions are used as standards for accurate measurements especially in laboratories and production of technical buffers. They are traceable to the primary standards. The constituents of these buffers are defined by international standards such as DIN19266, IEC 726 and NIST. The uncertainty is 0.002 and 0.004 pH units (at 25°C), depending on the buffer.
They are commercial buffers and used mainly for calibration of industrial pH measurements. The buffer values of technical buffers are traceable to the standard buffer. The DIN19267 defines standards for these solutions. The uncertainty is 0.02 a pH units (at 25°C), depending on the buffer.
Examples of preferred buffers by Yokogawa are shown in the table below. Buffer solutions prepared from these substances conform to the recommendations of the DIN Standards Committee and the National Institute of Standards and Technology (NIST). The substances were chosen for their particular suitability as calibration standards for precision pH meters.
The temperature dependence of the pH of a buffer solution is generally specified in terms of measured pH values at certain discrete temperatures. Many buffer tables are preprogrammed in Yokogawa Analyzers. So if during calibration the temperature compensator is immersed in the buffer liquid, an automatic adjustment for temperature variations will be done. Any stated pH value is only meaningful if the measuring temperature is also specified.
Buffers with a pH above 7 are particularly sensitive to atmospheric CO2. Buffer showing any sign of turbidity must be discarded immediately. For accuracy it is recommended that a buffer should not be used for more than a month after opening. Buffers should be stored in tightly sealed, preferably air-tight bottles made of polyethene or borosilicate glass. Buffers should not be returned to the bottles once removed.
ORP Standard Solutions
When verification or calibration of an ORP sensor is required, there are two types of Standard Solutions that are commonly used. The first are premade solutions designed to provide a specific stable mV value, typically one that falls within the process ORP range. The second type of solutions, and probably the most common, are those that are made using the standard pH 4 and pH 7 buffers with quinhydrone crystals mixed in until saturation is reached. Either of these pH buffer solutions can be used for calibration of an ORP measuring system and are very practical if pH loops are also being maintained. Preparation and use of both types of solutions are discussed below:
To create an ORP solution using a pH buffer (either 4.0 or 7.0) stir in a small amount, approximately < 0.5 gm, of quinhydrone into 200 mls of solution. Quinhydrone is not very soluble, so only a small amount will dissolve in the buffer changing the solution to an amber color. If all of the quinhydrone dissolves, then continue to add small amounts and stir again. Saturation is achieved when a small amount of quinhydrone remains undissolved after mixing.
Whether it is a 4.0 or a 7.0 buffer you are using, the table below shows the mV reading you should obtain depending on which reference electrode is being used. As an example, a quinhydrone/pH 4.0 solution should give a 253 mV (± 30 mV) at 25°C for a reference electrode that has 3M KCl internal fill.
Note 1: The quinhydrone powder poses a moderate health risk, causing irritation of the lungs with prolonged exposure. The premade calibration solutions are fairly innocuous unless ingested in large amounts. Both types should be handled carefully following good laboratory practices.
Note 2: SCE = Saturated Calomel Electrode
Note 3: SHE = Standard Hydrogen Electrode
Pre-made Stabilized ORP Solutions
Reference electrodes with different internal fill solutions will have different mV outputs when they are put in the same Standard Solution. This is because the Standard Solution was prepared with one specific reference fill solution in mind. Table below lists in the left-most column, some of the most commonly used reference electrode fill solutions. Across the top of the table are the possible reference fill solutions that Standard Solution was prepared against. To use the chart below, you have to know what (1) reference solution is used in the reference electrode and (2) what reference solution the known pre-made solution is being compared to. For example, if you have a pre-made 250 mV solution that is referenced to SHE (Standard Hydrogen Electrode) and the reference electrode in your measuring loop uses a 1 M KCl fill solution, then on the transmitter you would NOT read 250 mV, but instead you would read only 19 mV at 25° C. This is the 250 mV value on the solution minus the 231 mV value shown as the difference between the SHE and the 1M KCl references. This would be 19 mV.
Note 1: SCE = Saturated Calomel Electrode
Note 2: SHE = Standard Hydrogen Electrode
Depending on your locaiton Yokogawa offers a variety of locally sourced buffer solutions. Examples of part numbers and offerings are shown below.
Part Number K1520BA
NIST Buffer Solution Kit with 500ml each of 4.01, 6.86 and 9.18 pH
Part Number K9084LL (PH4), K9084LM (PH7) and K9084LN (PH9)
six 250 ml bottls of each buffer solution
Part Number K9020XA (PH4), K9020XB (PH7) and K9020XC (PH9)
12 bags each of powder to make 500ml of buffer solutions
Part Number: M1100EU
NIST Buffer Solution Kit with 500ml each of 4.01, 6.86 and 9.18 pH
K1520BF: Kit of pH 2, 4, 7 and 9 Buffer Soltuions with Ionic stregenth 1M NaCl
K1520BG: pH 2.0 Buffer Solution with Ionic stregenth 1M NaCl
K1520BH: pH 4.0 Buffer Solution with Ionic stregenth 1M NaCl
K1520BJ: pH 7.0 Buffer Solution with Ionic stregenth 1M NaCl
K1520BK: pH 9.0 Buffer Solution with Ionic stregenth 1M NaCl
Depending on your location Yokogawa offers a variety of locally sourced buffer solutions. Examples of part numbers and offerings are shown below.
Part Number: K9024EC
3 bags of Quinhydrone to make 250 ml of solution
This is available for purchase from Yokogawa in some regions of the world. Other regions are recommended to purchase Quinhydrone from a local chemical supplier.
The lifetime of a pH sensor has a significant impact on the overall annual costs of a pH measuring loop. Optimizing four key factors will decrease these costs and optimize process control and overall plant efficiency.
Current trend for increasing mercury awareness throughout the public sector has caused the government to take action. Recently, the Environmental Protection Agency (EPA) has focused their efforts on controlling mercury levels produced in various coal fired power plants. Based on information from several case studies, the EPA developed the Mercury and Air Toxics Standards to cut back mercury emissions. The most popular technology utilized by coal plants to meet the new standards is a scrubber which cleans the off gas from the combustion process. ORP sensors can further monitor the effluent from these scrubbers to ensure optimal mercury emission levels are achieved. By closely monitoring the mercury concentrations in the effluent, plant managers will be able to easily confirm their plants are meeting the EPA's standards.
- K9020XA / Powder for buffer solution (pH4) (280 KB)
- K1520BK - Sodium buffer solution pH 9.00 (+/-0.02) natural (240 KB)
- K1520BG - Buffer solution NA pH 2.00 (+/-0.02) natural (254 KB)
- K1520BH - Sodium buffer solution pH4.00(+/-0.02) naturel (243 KB)
- K1520BJ - Buffer solution NA pH 7.00 (+/-0.02) natural (219 KB)
- K1520BE - Standard buffer pH 9.18 kit, yellow (233 KB)
- K1520BD - Buffer solution pH 6.87 kit, orange/yellow (231 KB)
- K1520BC - Buffer solution pH 4.01 kit, red/pink 3 x 500 ml (220 KB)
- K1520BB - Buffer solution pH 1.68 kit, green/blue 3 x 500ml (240 KB)
- K9020XB / Powder for buffer solution (pH7) (281 KB)
- K9020XC / Powder for ph9 standard solution (251 KB)
- K9024EC / Reagent for quinhydrone standard solution (201 KB)
- K9084KH, K9084LN / pH9 standard solution (189 KB)
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