Overview of Industrial Wastewater Treatment
June 5, 2025
Why water sensors important to wastewater treatment
June 25, 2025
blog page
Measurement of key pollutants in wastewater
In wastewater treatment, accurate parameter monitoring isn't just about compliance - it's about optimizing operations and maximizing efficiency. Our comprehensive comparison of online versus traditional testing methods helps you make informed decisions that impact both your bottom line and environmental performance.
Online sensors deliver real-time insights for proactive process control, while traditional lab methods provide the precision needed for validation. Together, they create a complete monitoring solution that ensures reliability and regulatory compliance.
As innovators in water quality technology, we understand the challenges of global wastewater management. This guide helps you:
• Compare key testing methodologies
• Understand cost/benefit tradeoffs
• Select the right approach for different applications
Parameters detection methods Real-time detection method COD hach method Optical method TOC TOC analyzer Optical method BOD Cultivation with BOD bottle Optical method O&G Hexane extraction \ TSS Filtration, drying at 102 - 105 °C Optical method VSS Ignition of SS at 550 °C \ TDS Evaporation Electrode method Ammonia Hach method
FIAElectrode method Nitrate, nitrite Hach method, FIA Optical method TKN Digestion + ammonia measurement \ Phosphate IC, TP---digestion + titration \ TP Digestion + titration \ Most of metals ICP, AA \ DDT, PCB, Benzenes, phenols, PAH, etc. GC, HPLC \ Color Dilution, visual comparison with K₂PtCl₆ Optical Method Odor Olfactory instrument, GC \ Chloride Titration Electrode method Sulfide Titration, UV spectrometer \ Surfactant UV spectrometer \ pH/temp Meter Electrode method
