Silica

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What is Silica?

Silica, also known as silicon dioxide (SiO 2) or mineral quartz, is a derivative compound of the chemical element silicon (Si) and makes up approximately 59% of the Earth's crust and a large part of common sand. Silicon links up with oxygen to form silicates, which are the most common suite of minerals.

Silica is found as dissolved silica or suspended silicate particles in most natural waters. Silica is used in many industrial applications, including food and pharmaceutical production, as an additive and for water filtration.

Why Measure Silica?

Most water contains an abundance of silicon and its derivatives, silica (SiO 2) or silicates
(SiO 4 and SiO 3 2–). Silica concentration in water is commonly less than 30 mg/L, although concentrations higher than 100 mg/L are not unusual. Concentrations exceeding 1000 mg/L are possible in brines and brackish water.

Silica in Water can Cause Significant Problems for Industrial Water

Silica and silicates are added to water as conditioners, detergents and corrosion inhibitors. However, silica in water can cause significant problems for industries, primarily in boiler and steam applications. High pressures and high temperatures cause silica deposits on boiler tubes and heat exchangers.

These glassy deposits lower the efficiency of heat transfer and lead to premature failure. Silica deposits on steam turbine blades decrease efficiency and necessitate costly downtime for cleaning. Silica levels must be kept below 0.005 mg/L (5 ppb) in very high-pressure applications.

Measuring silica in water is useful when the efficiency of demineralisers is monitored. Testing for silica (one of the first impurities detected when the exchange capacity of a demineraliser is exhausted) provides a sensitivity check of demineraliser performance.

Analytical Procedures and Methods for Silica

Analytical procedures for silica include the Silicomolybdate Method for high range measurement and the Heteropoly Blue Method for low range measurement. The Heteropoly Blue method is an extension of the Silicomolybdate method to increase sensitivity.

Silica methods from Hach ® determine molybdate-reactive silica. The terms 'molybdate-reactive' or 'molybdate-unreactive' do not imply reactivity, or lack of it, toward other reagents or processes. Occasionally, a sample contains silica which either reacts very slowly with molybdate or does not react at all. In at least one of its forms, silica does not react with molybdate even though it is capable of passing through filter paper being present in dissolved or colloidal form. It is not known to what extent such “unreactive” silica occurs in waters.

“Molybdate-unreactive” silica can be converted to the “molybdate-reactive” form by heating or fusing with alkali, such as in a sodium bicarbonate digestion. See Standard Methods 4500-SiO 2 for details.

In both Silicomolybdate and Heteropoly Blue Methods the colour formed is directly proportional to the amount of molybdate-reactive silica present in the original sample. Total silica can be determined by performing analyses using the Electrothermal Atomic Absorption Method (Standard Methods 3113B), the Inductively Coupled Plasma Mass Spectrometric Method (Standard Methods 3125) or the Inductively Coupled Plasma Method (Standard Methods 3120).

Terms such as “colloidal,” “crystalloidal,” and “ionic” have been used to distinguish among various forms of silica but such terminology cannot be substantiated. Hach does not provide solutions or support for any of the methods for total silica.

At Hach, find the testing equipment, resources, training and software you need to successfully monitor and manage silica levels in your specific process application.


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Featured Products to Measure Silica

5500 sc Silica Analyser

The 5500sc Silica Analyser requires only two liters of reagent for the analyser to perform unattended for up to 90 days; twice as long as the predecessor Series 5000 instruments.

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Spectrophotometers

Hach is known for spectrophotometry innovations and offers many of the leading spectrophotometric instruments in the water analysis market.

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Silica Chemistries, Reagents and Standards

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DR900 Colorimeter

The DR900 Portable Colorimeter allows for quick and easy access to your most frequently used testing methods in less than four clicks.

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EZ Series Silica Analysers

The EZ Series Online Analysers offer multiple options to monitor silica in water. Typical applications are steam and power generation, surface water and process water.

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Which Processes Require Silica Monitoring?

Power & Steam

Boiler Water: Scale formation due to hardness, silica, and corrosion product deposits can decrease the heat exchange capacity and global efficiency of the boiler. Steam quality varies with the concentration of impurities in the boiler water and the potential mechanical carryover of contaminated water droplets into the steam. The higher the operating pressure of the boiler, the higher the purity requirements since contaminant carryover is promoted. Silica measurements (drum boiler blowdown): silica build-up in the boiler depends on the drum pressure, < 5 ppb.

Power and steam

Chemical, Oil and Gas Production (Steam Assisted Gravity Drainage, SAGD)

Silica is analysed in the boiler feedwater between the WAC (weak acid cation) softeners (primary and polishing) and the boiler feedwater tank, prior to steam generation.

A chemical manufacturing plant.

How is Silica Monitored?

Hach DR3900 Spectrophotometer Lab Instrument

Laboratory Testing

Hach DR3900 Spectrophotometer Lab Instrument

Heteropoly Blue Method 1 Method 8282 (ULR – Ultra-Low Range) 3 to 1000 ug/L SiO 2

Silica water quality test kit. Includes reagents, colour discs, colorimeter and case.

Portable Testing (colour discs and colorimeters)

Silica Test Kit SI-7, 0.05 - 1.0 mg/L SiO

Silica Test kit SI-5, 0 - 30 mg/L SiO and 0 - 600 mg/L SiO (dual range)

DR900 (Method 8186 & 8185)

Hach 5500sc online silica analyser & EZ Series analyser

Online Process Testing

5500sc Silica Analyser

EZ Series Silica Analyser

Ultra Low Range Silica Reagent sets utilising heteropoly Blue Method. Reagent Set includes Amino Acid F Reagent Powder Pillows, Citric Acid Powder Pillows and Molybdate 3 Reagent Solution for approximately 100 tests.

Method

Ultra-Low Range Silica Heteropoly Blue Method 8282

Low-Range Silica by Heteropoly Blue Method 8186

High-Range Silica by Silicomolybdate Method 8185

Frequently Asked Questions

How do I clean my lab glassware and Pour-Thru cell for the ULR Method 8282?

The Method 8282 has specific recommendations for maintenance of the labware and cleaning the Pour-Thru cell.

Labware cleaning:

Fully clean all containers that are used in this test to remove any traces of silica. Use plastic containers for all analysis and storage because glass can contaminate the sample with silica. Small bottles or flasks with screw-type closures work well.

  • Clean containers (do not use phosphate detergents), then rinse with high quality deionised water of low-level silica concentration.
  • Soak for 10 minutes with a 1:50 dilution of Molybdate 3 Reagent in low-level silica water.
  • Rinse repeatedly with either low-level silica water or the sample before use. Keep containers tightly closed when not in use.
  • Fill the Pour-Thru Cell with this same mixture of Molybdate 3 and water. Soak for 10 minutes.
  • Rinse with low-level silica water.

Keep containers tightly closed when not in use and rinse the labware repeatedly with either low-level silica water or the sample before use.

Pour-Thru cell cleaning:

The Pour-Thru Cell can collect a buildup of products with colour, especially if the reacted solutions stay in the cell for long periods of time after measurement.

  • Rinse the Pour-Thru Cell with a 1:5 dilution of ammonium hydroxide solution to remove the colour.
  • Fully rinse with deionised water.
  • Put a cover on the Pour-Thru Cell funnel when it is not in use.

The following can also be done to clean the Pour-Thru cell:

  • Clean Pour-Thru cell assembly with phosphate free detergent, then rinse with high quality DI water.
  • Soak for 10 minutes in 1:50 dilution of molybdate 3 reagent in low-level silica water. This should rid the sample of any adhering silica.

What range can the Silica EZ Series measure?

The EZ Series EZ1034 can measure from 1 µg/L up to 100 µg/L of Si and the EZ1035 can measure up to 1 mg/L Si with an internal dilution.

How to verify or adjust the reagent blank on the 5500sc Silica Analyser in the field?

The reagent 1 (R1) blank value can be found on the reagent bottle. If the sample has very low silica concentrations and has issues with high readings (one to two ppb high), which are not caused by blueing of the sample cell or instrument issues, then a field blank determination can be performed to adjust the blank value. Clean the sample cell by following the procedure listed in the user manual.

The method used to determine the blank on the 5500sc Silica Analyser is the standard additions method. This method requires a stable sample concentration feed to the analyser for the duration of the testing, approximately 2 hours. Begin by performing a grab sample test with the sample water, and record the analyser reading. Collect 500 ml of sample, add 2 ml of 500 ppm standard, then run this spiked sample as a grab sample and record the reading. Collect 500 ml of sample, add 4 ml of 500 ppm standard, then run this spiked sample as a grab sample and record the reading. Repeat running grab samples spiked with 6, 8, and 10 ml, recording each reading.

When the spiked grab sample readings have been collected, chart these on graph paper (or in Excel). Spike value - 0, 2, 4 etc., ppb is the x-axis; sample reading in the y-axis. Draw a best-fit straight line through the charted points. Where the line crosses the x-axis is the value of the reagent blank. (The intercept will be a negative value, but it is entered as a positive blank value.)

Determination of reagent blank is performed at concentrations near the detection limit of the analyser, and the spiked sample readings noted above are subject to noise and interference. The labware and mixing vessels must be scrupulously clean for good results. It is best to repeat each standard addition at least three times to assure results are repeatable. Final accuracy of the blank determination will probably be around +/- 1 ppb, and very likely in this range of agreement with the value on the Molybdate reagent bottle.

A disagreement of 1-2 ppb between two analysers running sample that is itself only 1-2 ppb (or even less) can be very difficult to isolate. If the process system is stable and runs a known baseline response following regeneration, and no other fault can be found in the analyser, the most practical solution may be to adjust the blank value on this analyser so that readings match the known baseline.

What is the shelf life of the reagents and standards used for the 5500sc Silica analyser?

The reagents and standards for the 5000sc have the following shelf life:

5500sc silica reagent set product # 6783600 includes:

  • 5500sc reagent 2 silica 2-liter product # 6774902 has a shelf life of 720 days from the date of manufacture unopened.
  • 5500sc standard 1 silica 2-liter product # 6775002 has a shelf life of 360 days from the date of manufacture unopened.
  • 5500sc reagent 3 silica 1.8-liter product # 6775202 has a shelf life of 720 days from the date of manufacture unopened.
  • 5500sc reagent 3 silica powder 205G product # 6775355 has a shelf life of 1800 days from the date of manufacture unopened unprepared.
  • 5500sc reagent 1 silica 2-liter product # 6774802 has a shelf life of 720 days from the date of manufacture unopened.

The exact date and month of expiration will be printed on the label for each bottle.

Are the Series 5000 silica/phosphate reagents compatible with the 5500sc silica/phosphate system?

The reagents for the 5500 silica/phosphate analyser are a different concentration versus the older Series 5000 silica/phosphate analysers reagents and therefore, are not compatible. Due to the difference in concentrations, the reagent volumes are different and can cause accuracy issues on a different model of analyser.

Please note, the calibration standards for the 5500sc silica/phosphate analysers are the same with the Series 5000 model.

If a standard bottle for the Series 5000 is unopened and has not expired, the contents may be used to calibrate for the same parameter on a 5500sc analyser.

Before use transfer the content to the correct bottle style for the 5500sc systems. An incorrect bottle type may result in an air or standard leak that could damage the system.