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centrifuge in chemical plant Industrial centrifuges are widely used for mechanical solid-liquid separation of components in the pharmaceutical and chemical industries. This is achieved by rapidly rotating the contents within a container to separate fluid of different densities or to remove liquids from solids.

What does process development mean in continuous-flow manufacturing? Well, specifically for the life sciences and pharmaceutical industry, our Coflore flow reactor range puts process development at the core of reaction design. Optimising the efficiency, safety, and productivity of reactions at any scale is made simple at AM Technology, with our development services leading various life science businesses to better, more consistent products and faster innovations. The development work that goes into producing a continuous chemical process aims to achieve high-quality product and yield, whilst maximising raw materials, reducing waste, improving energy efficiency and optimising reaction speed. With flow, the scale of a reaction is irrelevant. 📈📈📈 Once a process has been developed, we aim to ensure that you can take advantage of all the benefits no matter the reaction volume > https://lnkd.in/eaSdNkRM #processdevelopment #lifesciences #drugproduction

People ask us all the time: What is the benefit of buying a used plant? Well ... 🚀 Buying a complete plant for relocation will save a company about 70% of the new equipment and engineering cost. 🚀 And buying a complete plant for relocation will save a company about 50% of the project lead time. That's the math that drives our #valueproposition at International Process Plants: We provide opportunities and solutions for buyers who want to move quickly to add capacity AND save money. And that's definitely worth a fist bump or two! ➡ See what we can do for you by visiting the new https://lnkd.in/e3qH92Tr. #ProcessPlants #chemical #petrochemical #pharmaceutical #fertilizer #powergeneration #polymer

Whether in manufacturing, chemical processing, pharmaceuticals, or energy production, the ability to accurately measure and analyze gases is critical for ensuring safety, efficiency, and regulatory compliance. Process Insights is a leader in providing innovative analytical gas measurement solutions, revolutionizing how industries manage their operations. Let's explore why https://lnkd.in/ebvvfi3 #processinsights #gasanalysis #wateranalysis #instrumentation

🚀 BIG NEWS AROUND HERE. 🚀 As we went to work developing our new website, we spent a lot of time talking about the International Process Plants difference. Here's one of the checklists we made. You'll find it and more on the new https://lnkd.in/e3qH92Tr! Stop by and take a look! ✅ We understand the complexities of the process manufacturing industries. ✅ Our solutions are focused on cost-effectiveness, time-to-market and sustainability. ✅ Over 160,000 customers around the world look to us to meet their needs. If we don’t have what you’re looking for, we will find it. ✅ We have nearly 150 experts around the world. Our team is dedicated to finding creative solutions that meet your needs. ✅ We provide turn-key solutions for sellers of plants so they can focus on their business. ✅ We ship our used and new equipment fast. #innovation #webdesign #customerservice #processplants #processequipment #chemical #petrochemical #pharmaceutical #fertilizer #powergeneration #polymer

#FAQ ❄️🌪 What's the difference between #ASSAY on #As_is Vs. Assay on #Dried Vs. Assay on #Anhydrous basis ? How to Calculate it ? #Ans: A. Assay on an #As_is basis refers to the measurement of the content of a substance in its original state, without any removal of water or other volatile components. This type of assay is used when the presence of water or other volatile components does not affect the accuracy of the measurement. B. Assay on #Dried basis refers to the measurement of the content of a substance in a material after the removal of water & other volatile components.This is often used in the pharmaceutical and chemical industries to determine the concentration of a particular compound in a sample C. Assay on #Anhydrous basis refers to the measurement of the content of a substance in a material after the removal of water only by KF Titration.

The difference between 1- Assay on As is basis , 2- Assay on Dried basis 3- Assay on anhydrous basis. How to calculated it❓❓

Whether in manufacturing, chemical processing, pharmaceuticals, or energy production, the ability to accurately measure and analyze gases is critical for ensuring safety, efficiency, and regulatory compliance. Process Insights is a leader in providing innovative analytical gas measurement solutions, revolutionizing how industries manage their operations. Let's explore why https://lnkd.in/ebvvfi3 #processinsights #gasanalysis #wateranalysis #instrumentation

Cryogenic recovery of solvents like methyl dichloride and diethyl ether offers significant benefits to the pharmaceutical industry, primarily by minimizing solvent loss and enhancing sustainability. Here are the key points explaining how this process helps: 1. **Solvent Recovery**: - **Efficiency**: Cryogenic recovery systems can capture and condense solvents that would otherwise be lost to the atmosphere during various pharmaceutical manufacturing processes. - **Purity**: These systems can recover solvents in a highly pure form, making them reusable without extensive further purification, which is crucial for maintaining product quality in pharmaceutical manufacturing. 2. **Cost Savings**: - **Reduced Solvent Purchase**: By recovering and reusing solvents, pharmaceutical companies can significantly reduce the cost of purchasing new solvents. - **Lower Disposal Costs**: Recovering solvents also means there is less waste to dispose of, which can be expensive due to stringent environmental regulations. 3. **Environmental Compliance**: - **Emission Reduction**: Cryogenic recovery systems help in capturing volatile organic compounds (VOCs) and other hazardous emissions, ensuring compliance with environmental regulations and reducing the company’s environmental footprint. - **Sustainability**: The reduction in solvent waste contributes to the overall sustainability goals of the pharmaceutical company, aligning with green chemistry principles. 4. **Process Efficiency**: - **Consistent Quality**: Recovered solvents can be reused in the same processes, ensuring consistency and reliability in pharmaceutical production. - **Operational Continuity**: By mitigating the risk of solvent shortages, companies can maintain continuous production schedules without interruptions due to the lack of necessary solvents. 5. **Health and Safety**: - **Worker Safety**: Reduced solvent emissions improve the air quality within manufacturing facilities, enhancing the safety and health of workers. - **Storage and Handling**: Efficient solvent recovery reduces the need for large storage volumes of fresh solvents, minimizing the risks associated with storage and handling of hazardous materials. By integrating cryogenic recovery systems, the pharmaceutical industry can significantly improve solvent management practices, leading to cost savings, regulatory compliance, environmental benefits, and enhanced process efficiency. #pharma #solvent #recovery #distillation #efficiency #purity #costsaving #opex #environment #emission #sustainability #process #engineering #quality #health #safety #storage

Chemtrix BV. is passionate about flow chemistry because in changing how chemical processes are developed, increased process safety, reduced operating costs & new chemical possibilities can be achieved - both at the lab & industrial scale. Chemtrix are experts who have worked closely with the pharmaceutical & fine chemical industry to develop a complete, easy to scale flow reactor portfolio. Contact them to discuss your continuous processing requirements. Visit the Chemtrix website: https://bit.ly/3TJdbHw #FlowChemistry #FlowReactors #ContinuousProcessing #Scaleup #3M #ChemicalSynthesis #Chemistry #ProcessOptimization