Multi-parameter water quality analyzer - Kiel Planck
  • Home
        • New Product

          Multi-parameter water quality analyzer - Kiel Planck

          There is a solution for every application. Let’s work together to find the right solution for you.

          Your benefits

          We use our experience to move your project forward.

          PHONE: 400-8868-261

          E-mail: info@kielplanckprc.com / kielplanck@outlook.com

  • Application
  • Service
  • Brand
  • Blog
  • Contact Us

Multi-parameter water quality analyzer

Multi-parameter water quality analyzer

The Kielplank multi-parameter water quality analyzer focuses on the core needs of laboratory testing, with “precision, efficiency, and convenient integration” as its core. It provides an integrated solution for the entire process from sample testing to data management, improving efficiency, reducing costs, and adapting to various laboratory scenarios.

Multi-parameter water quality analyzer - Kiel Planck
Multi-parameter water quality analyzer - Kiel Planck

I. Daily Operation and Maintenance Points

Cleaning and Maintenance: After each use, clean the sensor, cuvette, and other parts that come into contact with water samples to prevent scale and stains from adhering. Wipe the instrument casing with a soft cloth and store it in a dry, ventilated place.

Consumables Management: Reagents, electrodes, and other consumables must be used within their expiration dates. Electrodes must be soaked in protective solution as required and should not be stored in dry conditions.

Power Supply and Storage: Charge the portable instrument regularly to avoid over-discharge. If the instrument is not in use for an extended period, power it on periodically and clear the instrument’s memory.

Daily Inspection: Regularly check the sealing of pipelines and interfaces, check for leaks and loose connections, and keep accurate maintenance logs.

II. Calibration Specifications

Calibration Cycle: For daily use, perform single-point calibration once a week and multi-point calibration once a month. After a long period of inactivity, a full calibration is required upon restart.

Calibration Operation: Use the provided standard solution and follow the instrument manual to complete the zero-point and full-scale calibration sequentially. Save the data after calibration.

Precautions: The standard solution must be freshly prepared. The calibration environment should be at a stable temperature to avoid interference factors that may affect calibration accuracy.

III. Troubleshooting Common Problems

Unstable readings: Check for air bubbles in the water sample, sensor contamination, or electrode aging. Clean the sensor, recalibrate, or replace the electrode.

Calibration failure: Check if the standard solution has deteriorated and if the electrode is clean. Replace the standard solution and recalibrate after cleaning.

No reading/Abnormal reading: Check power supply, sensor connection, or range setting. Troubleshoot connection issues and adjust the range.

Slow response: Clean the sensor probe, check for optical component contamination, and replace vulnerable parts if necessary.

IV. Summary

Standardized daily maintenance, accurate calibration, and rapid troubleshooting are the core guarantees for the stable operation and data accuracy of multi-parameter water quality analyzers. They are easy to operate and adaptable to various usage scenarios, reducing maintenance costs.

Kilplank (Kilplank China) www.kielplanck.com

Kilplank multi-parameter water quality analyzers focus on the core needs of laboratory water quality testing. With “accurate and efficient, integrated and convenient” as its core, it integrates advanced testing technology and intelligent design to provide laboratories with a streamlined, integrated solution for the entire process from sample testing to data management. This significantly improves testing efficiency, reduces operating costs, and is suitable for various laboratory water quality testing scenarios.

I. Core Advantages

Accurate and Reliable: Utilizing “optical-electronic-chemical” fusion sensing technology combined with a signal collaborative correction mechanism, the indication error is ≤±5%, repeatability ≤3%, and optical stability ≤±0.001Abs/20 minutes, meeting national standard testing requirements and ensuring authoritative and traceable data.

Highly Efficient and Convenient: One-click start operation, integrating automatic digestion and multi-parameter simultaneous detection functions, capable of detecting more than ten indicators such as COD, ammonia nitrogen, and total phosphorus in a single run. Detection efficiency is 5-8 times higher than traditional methods, reducing the detection cycle from days to minutes.

Integrated and Streamlined: Modular design integrates detection, calibration, and data processing into one unit, requiring no additional equipment, occupying little space, adaptable to various laboratory layouts, and offering convenient and cost-effective maintenance.

II. Core Functions

Multi-parameter Simultaneous Detection: Covers five common parameters (pH, dissolved oxygen, conductivity, etc.), nutrients, organic pollutants, and other core indicators. A heavy metal detection module can be added as needed to meet diverse laboratory testing needs.

Intelligent Operation and Maintenance: Built-in intelligent algorithms automatically complete data acquisition, processing, and calibration, supporting data storage, export, and cloud integration, reducing manual intervention and avoiding human error.

Standardized Adaptability: Strictly adheres to relevant national standards and methods, supporting blank tests and parallel sample testing, adaptable to various water samples such as surface water, industrial wastewater, and drinking water, meeting the needs of routine laboratory testing and research. III. Applicable Scenarios and Core Value

Suitable for environmental monitoring laboratories, third-party testing agencies, university research laboratories, water testing laboratories, and other scenarios, enabling rapid completion of routine water quality testing, pollutant screening, and water quality assessment.

Core Values: Simplifying operational processes with streamlined design, enhancing work efficiency with high-efficiency testing, and supporting water quality control and scientific research with accurate data, helping laboratories achieve their testing goals of “reducing costs, improving efficiency, and improving quality”.

Add me as a friend to learn more.

Multi-parameter water quality analyzer - Kiel Planck
Multi-parameter water quality analyzer - Kiel Planck

Share:

More Posts

Real-time pH monitoring in aquaculture - Kiel Planck

Real-time pH monitoring in aquaculture

Water quality is the core determinant of aquaculture yield and aquatic organism health, among which pH value serves as one of the most sensitive and critical indicators. Slight fluctuations in water pH can directly affect the respiration, metabolism, and immunity of fish, shrimp and shellfish, and even trigger large-scale disease outbreaks and mortality in severe cases.

Online pH water quality monitoring solution - Kiel Planck

Online pH water quality monitoring solution

pH value is one of the most fundamental and critical indicators in water quality evaluation, reflecting the acidity and alkalinity of water bodies and directly affecting aquatic ecological safety, industrial production efficiency, and sewage discharge compliance. Traditional manual pH detection methods suffer from low efficiency, severe data lag, and human operation errors, which can no longer meet the real-time and high-precision monitoring requirements of modern water environment management and industrial water treatment.

Wastewater pH Sensor Maintenance Techniques - Kiel Planck

Wastewater pH Sensor Maintenance Techniques

pH sensors are core monitoring devices in wastewater treatment systems, responsible for real-time detection of water acidity and alkalinity to support biochemical treatment, chemical dosing and effluent discharge compliance. Unlike conventional water quality sensors, wastewater pH sensors operate in harsh environments with high suspended solids, organic pollutants, corrosive ions and variable water temperatures, making them prone to contamination, electrode aging and data drift. Regular and standardized maintenance is essential to ensure long-term measurement accuracy and stable operation

Method for calculating water pH value - Kiel Planck

Method for calculating water pH value

Water pH value is a vital physicochemical parameter that indicates the acidity or alkalinity of aqueous solutions. It profoundly influences water ecological stability, industrial water treatment efficiency, and drinking water safety. Accurate pH calculation is the fundamental basis for water quality analysis, environmental monitoring, and chemical experimental research. This article elaborates on the basic theoretical principles of water pH calculation and introduces two mainstream practical methods: theoretical formula calculation for pure water and instrument conversion calculation for complex water bodies.

Send Us A Message

captcha
Reload

Bitte geben Sie die im CAPTCHA angezeigten Zeichen ein, um sicherzustellen, dass Sie ein Mensch sind.

Email
Email: info@kielplanckprc.com
WhatsApp
WhatsApp Me