Determination of Chloride in Bayer Process Liquor
Applications | | MetrohmInstrumentation
Chloride determination in Bayer process liquors is critical for controlling corrosion, ensuring product quality, and optimizing alumina recovery operations.
This application note describes a thermometric titration method for the rapid and precise quantification of chloride in Bayer process liquors. The approach relies on neutralization followed by titration with a standardized silver nitrate solution and automatic detection of the exothermic endpoint.
The thermometric titration procedure outlined provides a robust, precise, and efficient solution for chloride determination in Bayer process liquors, supporting quality control and process optimization.
Titration
IndustriesEnergy & Chemicals
ManufacturerMetrohm
Summary
Significance of the topic
Chloride determination in Bayer process liquors is critical for controlling corrosion, ensuring product quality, and optimizing alumina recovery operations.
Goals and overview of the study
This application note describes a thermometric titration method for the rapid and precise quantification of chloride in Bayer process liquors. The approach relies on neutralization followed by titration with a standardized silver nitrate solution and automatic detection of the exothermic endpoint.
Methodology and instrumentation
- Reagents: 0.1 mol/L AgNO3 titrant and concentrated HNO3 for sample neutralization.
- Sample preparation: A 10 mL liquor aliquot is diluted to 200 mL with deionized water; a 20 mL portion is further treated with 10 mL water and 2 mL HNO3 to dissolve precipitates.
- Experimental parameters: titrant delivery rate 3 mL/min; one exothermic endpoint; data smoothing factor 50; stirrer speed setting 10; pre-dose volumes of 0.2 mL (low) or 0.5 mL (high) with 30 s wait time.
Used instrumentation
- Automated thermometric titrator equipped with an 802 stirrer and precise titrant delivery system.
Main results and discussion
- Refinery #1 samples yielded 3.73 ± 0.01 g/L Cl− (n=7), equivalent to 6.16 ± 0.02 g/L NaCl or 5.58 ± 0.02 g/L Na2CO3.
- Refinery #2 samples measured 10.26 ± 0.01 g/L Cl− (n=6), or 16.92 ± 0.02 g/L NaCl and 15.34 ± 0.02 g/L Na2CO3.
Benefits and practical applications
- Fast turnaround with automatic endpoint detection reduces operator bias.
- Minimal sample handling and straightforward dilution support routine QA/QC workflows.
- Applicable across multiple refinery liquor matrices with consistent performance.
Future trends and possibilities
- Integration into continuous process monitoring for real-time chloride control.
- Miniaturized flow-through thermometric cells to increase sample throughput.
- Combining thermometric data with chemometric models for comprehensive liquor characterization.
Conclusion
The thermometric titration procedure outlined provides a robust, precise, and efficient solution for chloride determination in Bayer process liquors, supporting quality control and process optimization.
References
- Thermo Fisher Scientific Application Note H-067 Determination of Chloride in Bayer Process Liquor
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
Similar PDF
Determination of Total Sodium in Sodium Aluminate Liquors by Aluminium Titration
|Metrohm|Applications
Thermo. Titr. Application Note No. H-080 Title: Determination of Total Sodium in Sodium Aluminate Liquors by Aluminium Titration Scope: Determination of the total sodium content of sodium aluminate liquors, such as Bayer Process liquor. This method is suitable for the…
Key words
liquor, liquoraluminate, aluminatetitration, titrationsodium, sodiumtitrant, titrantsolution, solutionprecipitate, precipitatealuminium, aluminiumstandardized, standardizedcentrifugate, centrifugategelatinous, gelatinousexcess, excesscompunds, compundsdifluoride, difluoridecommences
Determination of Sodium in Brines by Aluminium Titration
|Metrohm|Applications
Thermo. Titr. Application Note No. H-077 Title: Determination of Sodium in Brines by Aluminium Titration Scope: Determination of sodium in sea water and similar brines. This procedure is suitable for the analysis of sodium in sea water contaminated with sodium…
Key words
sea, seacontaminated, contaminatedtitrant, titrantsodium, sodiumfiltered, filteredtitration, titrationsolution, solutionaluminium, aluminiumwater, waterstandardized, standardizedaluminate, aluminatebrines, brinesdsf, dsfstoichiometric, stoichiometricendpoints
Determination of organic soda in Bayer aluminate liquors
|Metrohm|Applications
Thermo. Titr. Application Note No. H-027 Title: Determination of organic soda in Bayer aluminate liquors Scope: Determination of total basicity of extractable organic compounds of acidic character in Bayer Process refinery liquors. Principle: An aliquot of Bayer liquor is diluted…
Key words
cyclohexanol, cyclohexanolbayer, bayeraliquot, aliquotextract, extractsoda, sodaliquor, liquoraluminate, aluminateparaformaldehyde, paraformaldehydediluted, dilutedacidify, acidifyliquors, liquorsbasicity, basicitymolarity, molarityneutralize, neutralizevolume
Determination of Total Halides in Brines
|Metrohm|Applications
Thermo. Titr. Application Note No. H-078 Title: Determination of Total Halides in Brines Scope: Determination of total halides (Cl- + Br- +I-) in sea water and similar brines. This procedure is suitable for the analysis of total halides in sea…
Key words
sea, seahalides, halidescontaminated, contaminatedwater, waterfiltered, filteredalumina, aluminasolution, solutionemanating, emanatingaluminate, aluminatetotal, totalmud, mudred, redbrines, brinesdsf, dsfbrine
