The EFC Recirculating Chiller uses natural R290 refrigerant to achieve a near-zero Global Warming Potential (GWP) with similar performance specs compared to traditional HFC cooling systems…
Refrigerant-free, Thermoelectric Cooler Assemblies boost cooling performance in enclosures, chambers and cabinets without increasing form factor…
The Nextreme™ Eco-Friendly Chiller offers all users a cost-effective and reliable thermal management solution that is compliant with foreseeable future regulations with regards to refrigerant use. Part of the Nextreme family of chiller products, the EFC line offers the same ease of use, low maintenance features that makes it ideal for cooling sensitive electronics in industrial and analytical equipment.
医療用レーザーは病院や外来手術センター、内科医のオフィスなどで使われるように設計されています。レーザーは切断や融徐、凝固などの特性を正確に、しかも本質的に血液を流さない手順を結び付け、周辺組織への熱損傷を最小限にして、時間をかけて回復します。また、レーザーの熱を通してその組織を消毒し、感染につながるどのような微生物も破壊します。医療用レーザーは医療の治療応用に価値がありますが、動作時にはレーザー性能に影響する無駄な熱を発生します。メーカーもまた熱管理設計の問題、すなわち温度安定性や騒音の制限、スペースの制約、消費電力の削減といった問題にも直面しています
Centrifugation is a process that separates mixtures through centrifugal force. Centrifuges are commonly used in food processing and medical research for protein, genetic and cellular analysis. In medical laboratory settings, centrifugation involves spinning medical samples at a fast rate to filter or concentrate substances based on differing densities. Dense components migrate away from the center axis, while less dense components migrate towards the axis.
Temperature control is critical for medical devices, laser systems, semiconductor metrology and fabrication, additive manufacturing, electron microscopes, and many laboratory instruments used in chemistry, biology, industrial, oil & gas, research, and food science. For example, incubators and cell cultivation applications need temperature control to create the optimal conditions for cell growth, while temperature control plays a dynamic role in ensuring the proper operation of electron microscopes by controlling the temperature of sensitive equipment electronics.
LiDAR (light detection and ranging) is a survey-mapping technology that detects objects and distances in 3D by measuring the time it takes for laser pulses to bounce off objects at a distance. Thermal management is crucial to most laser systems, and LiDAR lasers are no different. Stable temperatures within LiDAR systems are essential for optimal performance, as temperature fluctuations can lead to changes in laser wavelength and increased range errors. Excessive heat can degrade laser performance, reduce reliability, and even lead to component failure if not adequately managed.
Point of care testing (POCT) aims to bring medical care conveniently and immediately to the patient. The sophistication of medical and laboratory testing devices now enables accurate, real-time diagnostic test results within an hour, rather than days. POCT is addressing the importance for doctors and patients to rapidly receive test results to not only improve patient care, but also improve public health. The recent global COVID-19 pandemic has shown that rapid testing is vital to effectively manage the spread of a virus.
高性能液体クロマトグラフィ(HPLC)は、混合液体の成分を分離、同定、定量化することによって分析するのに使われる技術です。通常、液体クロマトグラフィは少量の材料で分析でき、混合物を相対的な比例関係を分析·測定します。製薬業界や食品科学、石油業界の研究所は、これらの装置を使って製品開発やリバースエンジニアリングを行います。
温度制御は、試料の成分と吸着剤との間で起きる相互作用に影響を及ぼすことによって、液体クロマトグラフィの分離過程において重要な役割を果たします。最新のHPLC装置は、試料のトレイや分離カラムを加熱·冷却するために熱電ペルチェ技術を使います。レアードサーマルシステムズの完全熱管理システムは、液体クロマトグラフィ装置の能力を最適化します。HPLC装置の熱負荷容量の要求によって、当社のSR-54シリーズの温度コントローラと組み合わせて熱電冷却器や熱電冷却アセンブリを、熱管理システムにすることができます。