Water quality analysis
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XPEL water quality analysis establishes a detailed understanding of water chemistry and solids loading to guide accurate system design, material selection and long-term evaporation performance.
WATER QUALITY ANALYSIS
Water characteristics shape every engineering decision behind the XPEL evaporation system. A clear understanding of chemistry, solids loading, and contamination levels ensures that each configuration is built for stable, predictable field performance.
XPEL assesses dissolved and suspended solids, pH, metals, organics and scaling potential to understand how water will behave during mechanical evaporation. These findings guide choices around nozzle design, filtration requirements, pump specification and material compatibility across the whole system.
Operational factors such as inflow variability, process changes and treatment by-products are evaluated alongside climate and seasonal patterns to provide a complete picture of water behavior. This broader context allows engineering teams to anticipate how water profiles may shift over time, especially in brine-heavy, industrial or legacy environments.
Combined with evaporation modeling and environmental assessment, water quality analysis forms the foundation for long-term performance. This integrated approach positions XPEL systems to maintain steady evaporation output, minimize fouling risks and operate reliably in demanding industrial conditions.
Data-driven water quality analysis
Water quality analysis at XPEL extends beyond identifying contaminants or solids loading. The results shape practical engineering decisions, such as system placement, duty-cycle planning, hydraulic loading, and the selection of materials suited to long-term exposure in challenging water profiles. This approach ensures each evaporation system is configured for durability, efficiency and stable performance under site-specific conditions.
These insights also inform how evaporation infrastructure is positioned within broader water circuits, including ponds, containment cells and tailings facilities. By understanding how water behaves within these structures, XPEL engineers determine suitable pump depths, suction alignment and flow paths that improve operational efficiency and minimize environmental impact.
The analytical data provides an early assessment of potential risks, allowing engineering teams to implement mitigation strategies before field deployment. This integrated approach ensures every XPEL solution is grounded in reliable, chemistry-driven engineering rather than assumptions or generic design templates.
PRODUCTS
Land based
evaporators
Fully customisable and bespoke in design, our XPEL land based water evaporators are available in a range of sizes enabling operators to reduce the risks associated with excess water and ensure environmental compliance with a wide range of water processing capabilities.
Pontoon
evaporators
When land based units aren’t an option, the XPEL Pontoon Series evaporator is a water management solution that can be relied on to help reduce the risk of excess water and ensure environmental compliance by reducing the volume of water stored on-site using mechanically enhanced evaporation.