วันนี้เทคโนโลยีของเราพร้อมให้บริการในการวิเคราะห์คุณภาพน้ำ ดิน และตัวอย่างจากธรรมชาติอื่นๆ แค่กดปุ่มเพียงครั้งเดียวก็ปล่อยให้เครื่องทำงานแทนคุณ ไม่ต้องเสียเวลารอ เพื่อการปรับปรุงการดำเนินงานและเพิ่มผลผลิต อีกทั้งยังอยู่ในมาตรฐาน และกฎข้อบังคับของสิ่งแวดล้อม
Water, soil, and other environmental samples must go through a routine set of analytical tests to detect and measure contaminants and toxins. These tests are necessary to comply with regulatory standards. Regardless of the final application – safety testing for public health, environmental monitoring, or research – scientists performing these analytical tests often feel concerned about conducting tedious, multi-step procedures within a controlled time frame. If the samples being tested are time-sensitive or turnaround timelines are tight, this can result in unintentional errors or miscalculations, requiring repeat testing, which wastes time and costs.
#StreamlineOperations #วิเคราะห์คุณภาพน้ำ #วิเคราะห์ตัวอย่างจากธรรมชาติ
One way to reduce laborious tasks and accelerate timelines in analytical labs is to incorporate convenient, walkaway automated analyzers. These analyzers are specifically designed to eliminate operator burden in busy analytical testing labs while upholding data quality and meeting regulations.
Streamline Operations to Increase Productivity
There is a growing trend of industrial and research labs becoming more and more like clinical labs. They are getting specialized in key areas rather than being generalists. Therefore, many resources are being diverted to specific, high-end applications, such as sub-parts-per-trillion techniques that require specialized skills and trained personnel. In order to become specialized, research labs are asking an important question: how can we streamline our operations to best use our highly skilled technical staff?
In running a suite of analytical tests on water or soil samples for example, the focus tends to be on improving data accuracy and method reproducibility, with little attention paid to staff productivity (i.e., eliminating time-consuming or repetitive tasks). Most laboratories may not even realize the number of steps it can take to run just one sample from start to finish, and this can add up to a significant amount of time depending on how many samples are being tested. The time and operator burden can add up even with routine tests because each individual is juggling multiple tasks such as preparing calibrators, maintaining experiment logs, performing instrument maintenance, generating reports, and running the analytical tests.
Streamlining the lab’s operations by implementing automated, discrete wet chemistry analyzers into the workflow can significantly improve overall productivity. As an example, imagine if the standard operating procedure for a test requires making five repeats for each calibration point. When done manually, this can take up to four hours before the first sample is even run. With automated analyzers, however, the operator simply sets it up, hits ‘start’ and lets it run all day long.
