Regular upkeep of portable particle analyzers is critical for reliable data, extended device life, and adherence to regulatory requirements

Portable particle analyzers are highly vulnerable to dirt, humidity, temperature shifts, and physical stress, demanding a disciplined maintenance protocol

Before operation, always examine the outer casing for signs of accumulated dust or foreign particles

Gently clean the exterior with a microfiber cloth moistened in distilled water or an approved non-scratch cleaning solution

Do not use acetone, ether, or ethanol-based products unless the manufacturer permits them, as they may damage casing materials or lens coatings

The intake and outlet channels demand frequent inspection due to their direct exposure to airborne particles

Persistent particle deposits can narrow passages, alter flow dynamics, and lead to erroneous output values

Clean these areas using an anti-static brush or controlled bursts of filtered air, never direct high-pressure streams

Do not probe the ports with any rigid instrument—this risks irreversible harm to embedded detection elements

After each use, especially in high-dust environments, perform a flush cycle using clean, particle-free air or an inert gas if the device supports it

It eliminates leftover particulates from the measurement zone, minimizing carryover between tests

The optical pathway—including lenses, mirrors, and emitters—is easily compromised by fingerprints, oil residues, or dust films

Only qualified staff armed with manufacturer-specified kits should handle internal optics to prevent irreversible damage

Use high-purity alcohol-soaked swabs in gentle, spiral motions, beginning at the core and moving radially outward

Wait until no moisture remains—no matter how slight—to avoid electrical shorts or lens fogging

Regular calibration isn’t optional; it is the cornerstone of measurement integrity

Tailor your calibration intervals based on how often the device is used and the severity of surrounding conditions

Use certified reference particles for calibration checks, and document all results for traceability

If the analyzer shows inconsistent readings, drift, or error alerts, perform a full diagnostic and recalibration before proceeding with further measurements

Keep a maintenance log that includes dates of cleaning, calibration, part replacements, and any observed anomalies

Battery condition is a critical factor in operational reliability

Never allow complete depletion; recharge when the battery drops below 20%, and store it at 40–60% charge during long dormancy

Heat above 40°C or cold below 0°C can degrade cell chemistry and impair circuit function

Never leave the device exposed—always return it to its designated case in a controlled, debris-free space

Excess moisture above 60% RH risks internal condensation that may corrode traces and connections

Swap out disposable components—filters, hoses, and gaskets—on the schedule provided by the vendor

Worn-out parts may seem functional but can leach particles or 粒子形状測定 vapors into the sample stream

Always have replacements ready—for filters, seals, and tubing—to avoid costly delays

Protect against vibration and impact by immobilizing the unit with shock-absorbing materials and never load weight on its surface

Finally, ensure that all users are trained in proper handling and maintenance procedures

Standardized protocols reduce human error and ensure consistency across teams

Regularly review the user manual and any updated firmware or service bulletins from the manufacturer, as new best practices may emerge

Dedication to meticulous upkeep ensures your analyzer delivers trustworthy results for years to come