Laboratory Products 17


Compact cutting mill for small sample grinding


Innovative water quality sensing solution


Sensirion introduces the new SWT50i sensor, marking its debut in the water quality sensing domain. Leveraging a UV-absorption-based measurement principle, this sensor stands out for its compact size, ease of integration, and cost-effectiveness.


The SWT50i sensor plays a pivotal role in assessing organic substances in water, aiding users in water treatment process control and water quality monitoring. It functions as a photometer, measuring UV-C range absorption, enabling users to track typical organic contaminants and various pollutants, including benzene, antibiotics, pesticides, detergents, plastics, and solvents. Its compact dimensions at 70 x 70 x 70 mm and a flow-through design facilitate seamless integration into challenging configurations, while meeting the highest standards of reliability and cost-efficiency.


With escalating concerns about organic pollutants, climate change, and the resulting water scarcity, the significance of measurement technology is more pronounced than ever. It contributes to enhancing the efficiency of purification processes, monitoring their effectiveness, and ensuring compliance with regulatory standards.


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The Fritsch Mini Cutting Mill PULVERISETTE 29 is the go-to laboratory mill for grinding small sample quantities of diverse materials, from grains and seeds to low-density plastics. This cost-effective, compact, and space-saving mill is designed for uncomplicated use and can be easily cleaned without contamination concerns.


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One of its standout features is a rotor with four straight cutting edges and fixed knives made of hardened stainless steel, enabling an impressive 48,000 cutting processes per minute.


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The mill offers a variable rotational speed ranging from 500 to 6000 rpm, ensuring optimal cutting speed. It can handle feed sizes of up to 25 mm in diameter and volumes of up to 100 ml.


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With sieve inserts ranging from 0.25 to 6 mm, you can achieve variable final fineness. The rotor and fixed knives are simply inserted, eliminating the need for adjusting the cutting gap.


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Furthermore, the rotor knives and fixed knives are durable and turnable, extending their lifespan. The mill’s practical design allows for easy cleaning with just a few simple steps, and it ensures no loss of moisture during sample preparation for moisture determination.


The Fritsch P-29 is particularly suitable for analysing moisture, raw fibre, ash, as well as infrared (IR) and near-infrared (NIR) applications.


Thanks to its variable rotational speed, the Fritsch P-29 excels in grinding grains and seeds while preserving moisture, meeting the essential requirements for analytically correct analysis in feed and raw material sampling.


*Average Pass-on rate = 3.2


Explore the Mini Cutting Mill PULVERISETTE 29 further by watching a video showcasing its functionality and unique features. You can also schedule a virtual application consultation to learn more about its capabilities and even test the mill with your most challenging sample to witness the results first-hand.


More information online: ilmt.co/PL/vAR2 and ilmt.co/PL/4ZNe


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Traditionally, the measurement of such pollutants relied on TOC (total organic carbon) analysers, which are pricey, intricate, and unsuitable for real-time monitoring. The UV absorption method, based on the light-absorbing properties of organic molecules, was another option. While online measuring devices existed, they were primarily designed as probes and came with a hefty price tag.


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The SWT50i employs the same UV absorption principle but introduces an entirely new form factor at an attractive price. This enables multi- point measurements within a single system or applications previously deemed impractical due to cost constraints. Furthermore, Sensirion adopts a flow-through sensor design, allowing easy insertion into closed hose systems with smaller diameters (5-15mm) compared to available probes.


The SWT50i is part of Sensirion’s vision of establishing comprehensive sensor networks to enhance process and environmental monitoring. This paves the way for more efficient and resource-conscious use of the precious water resource. Marking Sensirion’s first foray into water quality measurement, this sensor is poised to make water quality assessment accessible in various applications, from production processes and water purification in waterworks to distribution systems and private households.


*Average Pass-on rate = 3.2 More information online: ilmt.co/PL/nqZe 61460pr@reply-direct.com Optimising tube automation for maximum sample recovery


Azenta Life Sciences has unveiled its ground-breaking tri-coded 1.6ml Maximum Recovery tube, specifically designed for automated liquid handling workflows. The tube’s distinctive shape at the bottom enhances sample retrieval, making it ideal for efficient and precise automated processes.


Addressing the challenge of large dead volumes in storage tubes, particularly crucial for handling precious samples such as stem cells and enzymes, Azenta Life Sciences emphasises the limitations of manual pipetting in high-throughput labs relying on automated liquid handling systems.


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More information online: ilmt.co/PL/kARd


To optimise sample recovery, Azenta’s research underscores the importance of addressing factors contributing to dead volume in storage tubes. The incorporation of internal compound-curve tapers near the bottom of the tube is identified as a key design element. This innovation reduces the total volume stored in the critical area while maintaining accessibility for industry-standard pipette tips.


Comparative research between the new 1.6ml Maximum Recovery tube and standard 1.9ml tubes reveals a substantial advantage. Over a run of 100 tubes, the 1.6ml Maximum Recovery tube recovers an additional 16ml. This improvement translates into significant cost savings, especially with expensive reagents or valuable samples.


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Beyond maximising sample recovery, the unique design of the 1.6ml Maximum Recovery tube aligns with sustainable practices, offering users an opportunity to reduce reagent purchasing costs and contribute to environmentally conscious lab workflows throughout the supply chain.


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Print, Online and Digital Media combined to reach 500,000 readers* *Average Pass-on rate = 3.2


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Available on your smart phone or tablet.


*Average Pass-on rate = 3.2


Print, Online and Digital Media combined to reach 500,000 readers*


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