I believe that separate analyzers bring significant value to environmental laboratories, drinking water treatment process control laboratories, and control laboratories and monitoring of wastewater treatment processes. Discrete analysis allows personnel who do not specialize in the ability to carry out sophisticated EPA-approved tests in accordance with GALP guidelines accurately and without significant training. By achieving this, discrete analyzers provide exceptional value for end users.
Activate a Better Decision
Answers are available in minutes and are collected by approved procedures (not a test kit) that enable a smarter and faster response to changing conditions for sustainable water treatment.
Faster Turnover Time
Analysis of short holding times, or sample spikes within minutes of receipt without stopping the batch that has been running or adding undue pressure to laboratory personnel.
Ease of use
Automation allows minimal training and allows approved methods to be carried out immediately by users who need data.
Enhanced Security
Closed CE certified systems provide physical security, and the use of minimum reagents reduces costs and costs of hazardous waste disposal.
Technology Received
The methodology received and / or approved ensures environmental compliance. Easy-to-add methods continue to improve capabilities. Analyze nutrients, anions, cations, metals and other environmental pollutants accurately and efficiently on one platform.
Minimum sample and volume of reagents
Discrete analysis minimizes the sample volume using only the number of samples and micro-liter reagents per test. Each sample has its own choice of method and is transferred into its own individual reaction segment where the right amount of reagent is added. Sample absorbance is measured by samples still in segments that eliminate the possibility of accumulation or cross contamination and software calculates analytical results. The calibration samples that come out are automatically diluted sulfur analyzer indonesia and repeated tests ensure accurate measurements.
The volume of reagents is kept to a minimum so the reagent costs per test are almost minimal. The average cost per test, including a single-use sample cuvette, is $ 0.11.
High Quality Data and operationally safe interface
CE compliance ensures user safety keeping all moving parts away from the user's hand. Complete computer control allows specialists who do sample processing quickly and at a very effective cost.
This instrument provides data that complies with Good Automated lab Practices (GALP), as well as protection from fraud and inappropriate procedures as defined by the USEPA Office of Inspector General (OIG). OIG and GALP compliance protect the laboratory from the appearance of fraud by preventing the perception of unnecessary manipulation of data. All data is stored and cannot be deleted. Statistical control of methods and calibration must be demonstrated before analyzing the sample and all calibration data and method data stored in the method. Each change of method will delete the calibration.
Reducing system costs while maintaining competitive costs per test
Uncomplicated system design results in a decrease in maintenance and increases the overall benefits of automation. The top bench system only requires an analysis tool and a PC for complete automation control. Per testing costs are kept low with the use of minimal reagents and use low costs. The ability to carry out testing after receipt of samples, or when needed, reduces handling costs. Reductions in turnaround time (TAT) alone make this system affordable.
Discrete analysis more accurately reproduces analytical conditions than capabilities with manual methods, or flow methods. The incubation temperature, reagent and sample volume, mixing and mixing intervals, and incubation times were all precisely controlled. The instrument software continues to monitor and control the intensity of the source lights ensuring the stability of long-term calibration. Combined with mechanical stiffness and the absence of moving parts in the detector, the controlled intensity of the lamp guarantees important factors (precision, accuracy and stability of the calibration) so that the performance of the spectrophotometer is fulfilled. Long-term calibration stability allows the laboratory to produce more accurate data by obtaining routine data measured against calibration curves developed under the most favorable conditions using standard, reagent, and verification of newly prepared statistical controls.
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