Dehumidifier S-396 (제습 장비)
안정적인 분무건조 상태 제공
Dehumidifier S-396 (제습 장비)은 건조 공기를 공급하거나 물과 유기용매 혼합물을 사용하는 데 도움이 되도록 설계되었습니다. 이 액세서리는 안정적인 분무건조 환경을 제공하여 분무건조 성능을 향상합니다.
다운로드
- Operation Manual Dehumidifier S-396 ko(pdf)
- Operation Manual Dehumidifier S-396 Nano ko(pdf)
- Technical Data Sheet Dehumidifier S-396(pdf)
- Technical Data Sheet Dehumidifier S-396 Nano(pdf)
관련 기기
Nano Spray Dryer B-90 HP (나노 분무 건조기)
Nano Spray Dryer B-90 HP (나노 분무 건조기)를 사용하면 최소한의 제품 손실로 최소량의 시료를 1미크론 미만 입자로 처리할 수 있습니다. 사용자 친화적인 시스템은 소형 입자가 큰 차이를 만드는 분야에서 생산성을 향상시킵니다.
Lyovapor L-200 (동결 건조기)
Infinite-Control™이 탑재된 최초의 동결 건조기인 콤팩트한 Lyovapor L-200 (동결 건조기)은 승화에서 비교할 수 없는 자동화를 제공합니다. 분석법을 쉽게 생성 및 실행하고, 데이터를 로깅하고, 차트를 실시간으로 기록하고, 언제 어디서나 모바일 장치와 상호 작용합니다.
Lyovapor L-300 (동결 건조기)
Infinite-Technology™를 사용하는 Lyovapor™ L-300 (동결 건조기)은 자동으로 세척되어 번갈아 작동하는 응축기 두 개 덕분에 연속 승화를 제공하는 최초의 실험실 동결 건조기입니다. 또한 모바일 장치를 통해 전체 공정을 원격으로 제어할 수 있습니다.
Mini Spray Dryer S-300 (소형 분무 건조기)
Mini Spray Dryer S-300 (소형 분무 건조기)을 통해 BUCHI는 40년 이상 글로벌 시장 리더로서의 입지를 굳건히 해왔습니다. 실험실 분무 건조기는 뛰어난 제품 디자인과 고유한 장비 기능을 결합하여 탁월한 편의성을 제공합니다.
Inert Loop S-395 (불활성 루프)
유기용매를 안전하게 분무건조하는 방법은 Mini Spray Dryer S-300 (소형 분무 건조기)과 함께 Inert Loop S-395 (불활성 루프)를 사용하는 것입니다. 혁신적인 설계 덕분에 더 친환경적이고 경제적이며 안전하게 유기용매의 분무건조를 수행할 수 있습니다.
응용자료
모든 범위의 응용 분야를 위한 탁월한 유연성
Pharma
Laboratory-scale spray drying is a vital process in the pharmaceutical industry, used for the formulation and development of various drugs and medications. It involves converting liquid solutions or suspensions into dry powders through atomization and rapid evaporation. This technique offers several benefits, including improved stability, enhanced bioavailability, and ease of handling. In recent years, several notable trends have emerged in laboratory-scale spray drying within the pharmaceutical sector. One significant trend is the use of spray drying for the production of solid dispersions. Solid dispersions are formulations where the drug is dispersed in a solid matrix, enhancing its solubility and dissolution rate. Spray drying enables the preparation of solid dispersion powders with uniform drug distribution, leading to improved drug delivery and efficacy. Another trend is the development of inhalable drugs using spray drying. This technique allows for the production of dry powder formulations suitable for inhalation, facilitating targeted delivery to the respiratory system. Inhalable drugs offer advantages in the treatment of respiratory diseases, such as asthma and chronic obstructive pulmonary disease (COPD). Taste masking is another important application of laboratory-scale spray drying. By encapsulating drugs with unpleasant taste profiles in taste-masking particles, the palatability of oral formulations can be improved. Spray drying enables the encapsulation of drugs within taste-masking coatings, leading to better patient compliance, particularly for pediatric and geriatric populations. Furthermore, laboratory-scale spray drying is increasingly employed for the development of controlled-release formulations. By incorporating drugs into sustained-release matrices or encapsulating them within microspheres or nanoparticles, spray drying allows for the controlled release of drugs over an extended period. This enables optimized drug dosage regimens and improved patient convenience. In conclusion, laboratory-scale spray drying in the pharmaceutical area is witnessing several significant trends, including the production of solid dispersions, inhalable drugs, taste-masking formulations, and controlled-release systems. These trends contribute to the development of novel drug formulations with enhanced solubility, targeted delivery, improved patient compliance, and optimized drug release profiles.
Chemicals / Materials
Laboratory-scale spray drying is a versatile and efficient method for producing a wide range of materials in the chemicals and materials science field. In recent years, notable trends have emerged, including the application of spray drying for nano materials, paints and coatings, and catalysts. One trend is the use of laboratory-scale spray drying in the synthesis of nano materials. This technique enables the production of nanoparticles and nanostructured materials with controlled size, morphology, and composition. By tailoring these properties, researchers can develop advanced materials with improved mechanical strength, enhanced conductivity, and tailored surface functionalities. Spray drying also finds application in the production of paints and coatings. By producing fine and uniform particles, spray drying contributes to the desired properties of coatings, such as improved color, durability, and film formation. This trend leads to the development of high-quality coatings with enhanced performance and functionality. Furthermore, laboratory-scale spray drying plays a role in the development of catalysts. By controlling particle size, composition, and surface area, spray drying allows for the design and optimization of catalysts for efficient chemical transformations and environmental applications. In summary, laboratory-scale spray drying in the chemicals and materials science field is witnessing trends in nano materials, paints and coatings, and catalysts. These trends contribute to the development of advanced materials, high-performance coatings, and efficient catalysts, driving innovation in various industries.
Batteries
Laboratory-scale spray drying is a valuable technique in battery research for the fabrication of electrode materials. It enables precise control over particle size and morphology, resulting in electrodes with optimized electrochemical performance. Spray drying allows for the production of fine and uniform particles, contributing to the development of high-performance batteries. This method facilitates the development of electrode materials with enhanced properties, such as improved conductivity and electrochemical stability. By employing laboratory-scale spray drying in battery research, scientists can advance energy storage technologies and develop more efficient and reliable batteries for various applications.
Food
Applications: Encapsulation of additives, controlled release, nutraceuticals, functional foods, flavors, vitamins, proteins, probiotic bacteria, juice concentrate, milk powder Methods: Drying, encapsulation of liquids, Encapsulation of solids, Micronization Instruments used: Mini Spray Dryer S-300, Encapsulator B-390 / B-395, Lyovapor L-200 / L-300
Biotech
Applications: Cells, bacteria and protein encapsulation, cell transplantation, biotransformation Methods: Drying, encapsulation of liquids, Encapsulation of solids, Micronization, Cell encapsulation Instruments used: Mini Spray Dryer S-300, Nano Spray Dryer B-90, Encapsulator B-390 / B-395, Lyovapor L-200 / L-300
Cosmetics
Applications: Cosmetics, fragrances Methods: Drying, encapsulation of liquids, Encapsulation of solids, Micronization Instruments used: Mini Spray Dryer S-300, Encapsulator B-390 / B-395, Lyovapor L-200 / L-300
