This can be an efficient way to provide low-level mixing in a tank as well as opening up valuable space on top of the tank for other process equipment or fittings.
Lightnin magnetic mixers by SPX FLOW, Inc. are engineered to overcome the weaknesses of multi-purpose commercial gearboxes, enabling them to deliver reliability and a lower cost of ownership. Learn more here: https://lnkd.in/g4e2kZ-n #AndersonProcess #IndustrialMixers #MagneticMixers
The Type MP Oscillating Piston Flowmeter from Neptune is designed for precise measurement of industrial liquids, ensuring high accuracy across a range of applications. Part of Neptune’s trusted MP Series, this flowmeter has a proven track record, measuring over 400 common industrial liquids reliably for years. Its magnetic drive eliminates leaks, while its mechanical batching capability requires no external power, making it ideal for environments with fluctuating power needs. Learn more at our new website. https://ow.ly/SZfe50UiF8Q #OscillatingPistonFlowmeter #Flowmeter #Neptune
#restubecell : Using cell-integrated heat pipes for heat transfer, makes the cell iself to a heat transfer element. https://lnkd.in/dW3J8Mz https://lnkd.in/epPbsRYk For those of you who are aware of the crucial importance of thermal conditioning of the traction battery, I have developed the tubular battery cell shown here. During high-voltage charging, it can be cooled both from the outside and from the inside. This can be done with a thermal oil circuit or even more simply in a water circuit, where the cell is the heat source and the water is the heat sink. A closer look at the patent specification provides insight into advantageous variants of this unique invention. #cool from #theländ #restubecell #asktheinventor #emobility #batterystorage #elektrofahrzeug #energy #recharging #accumulatorcell #thermalconditioning www.res-institute.com
#restubecell : The cell, which in itself is a heat transfer element. https://lnkd.in/dW3J8Mz https://lnkd.in/epPbsRYk #cool from #theländ #towhomitmayconcern For those of you who are aware of the crucial importance of thermal conditioning of the traction battery, I have developed the tubular battery cell shown here. During high-voltage charging, it can be cooled both from the outside and from the inside. This can be done with a thermal oil circuit or even more simply in a water circuit, where the cell is the heat source and the water is the heat sink. A closer look at the patent specification provides insight into advantageous variants of this unique invention. #asktheinventor #emobility #batterystorage #elektrofahrzeug #energy #recharging #accumulatorcell #thermalconditioning www.res-institute.com
Reliable flow rate measurement is crucial in central tank batteries(CTB), where magnetic flow meters gauge produced fluids. However, contaminants like paraffin can hinder their accuracy. Our innovative nanoscale surface treatment effectively helps to prevent buildup on mag meter electrodes, leading to longer operational life and reduced maintenance costs. Contact e9 Treatments to discuss how we can help enhance flow measurement reliability at your CTB. #FlowMeasurement #OilAndGas #Innovation #Accuracy #Maintenance #magneticflowmeters
#restubecell : The cell, which in itself is a heat transfer element. https://lnkd.in/dW3J8Mz https://lnkd.in/epPbsRYk #cool from #theländ #towhomitmayconcern For those of you who are aware of the crucial importance of thermal conditioning of the traction battery, I have developed the tubular battery cell shown here. During high-voltage charging, it can be cooled both from the outside and from the inside. This can be done with a thermal oil circuit or even more simply in a water circuit, where the cell is the heat source and the water is the heat sink. A closer look at the patent specification provides insight into advantageous variants of this unique invention. #asktheinventor #emobility #batterystorage #elektrofahrzeug #energy #recharging #accumulatorcell #thermalconditioning www.res-institute.com
🔧 Fullcryo: Leading the Way in Electronic Specialty Gases for Semiconductor Manufacturing 🌐 As the world continues to evolve in the digital age, semiconductor manufacturing remains a cornerstone of technological advancement. At Fullcryo, we recognize the essential role that electronic specialty gases play in the production of high-performance integrated circuits (ICs) – the second largest consumable in chip manufacturing. 📊 The Role of Electronic Specialty Gases in Chip Production From photolithography and etching to ion implantation, every step of the IC manufacturing process relies on precise and high-quality gases. These specialty gases are crucial for processes such as: Etching: Using fluorine and chlorine-based gases (e.g., CF4, SF6, C2F6) to remove unwanted materials and transfer patterns onto silicon wafers. Doping: Introducing controlled impurities (e.g., arsine, phosphine) into semiconductor materials to alter electrical properties, crucial for building circuits. Epitaxial Deposition: Ensuring the precise growth of semiconductor layers, directly impacting chip performance and yield. 🌱 Domestic Development of Electronic Specialty Gases As the semiconductor industry grows, so does the demand for advanced specialty gases. Fullcryo is proud to contribute to this sector with a steady supply of top-quality gases that support the efficient and sustainable production of chips, helping to enhance product performance and integration. 🌍 A Key Player in the Industry At Fullcryo, we are committed to advancing the future of semiconductor manufacturing through the development and supply of cutting-edge electronic specialty gases. We are constantly innovating to meet the growing needs of the industry, with an eye on both quality and sustainability. Join us in shaping the future of technology. Let's keep pushing the boundaries of what's possible. 🚀 ✨ Contact Information: Website: www.fullcryogas.com WhatsApp: https://lnkd.in/ecyPxxAw Email: fullcryogas@fuhaicryo.com #Fullcryo #Semiconductor #ElectronicSpecialtyGases #ChipManufacturing #Innovation #Sustainability #TechIndustry #IndustrialGases
Pretty Plasma Patterns 💗 💚 Using the Genesis Vacuum Coater at the E+R Group (Emerson and Renwick Ltd.) Innovation & Application Centre, to manipulate the colour of the plasma created during the sputtering process by altering gas flow ratios. #innovation #technology #colours
Copper to the Rescue! 🧲⚡ Discover how copper coils are revolutionizing electric motors and powering a more efficient future. Sometimes, the simplest materials make the biggest impact. Read the full story 👉 https://lnkd.in/gz6CdujE
The Type MP Oscillating Piston Flowmeter from Neptune is designed for precise measurement of industrial liquids, ensuring high accuracy across a range of applications. Part of Neptune’s trusted MP Series, this flowmeter has a proven track record, measuring over 400 common industrial liquids reliably for years. Its magnetic drive eliminates leaks, while its mechanical batching capability requires no external power, making it ideal for environments with fluctuating power needs. Learn more at our new website. https://ow.ly/1n3l50UuEXi #OscillatingPistonFlowmeter #Flowmeter #Neptune
Now that we have installed the #newlinac equipment, we need to get this fine-tuned machine working optimally. This week, our staff have been getting the linear accelerator ready to create a high-quality vacuum. Our synchrotron consists of a network of pipes, from the electron source all the way to the beamlines, that operates under a vacuum. Without the vacuum, countless gas molecules in the pipes would become a giant obstacle course for the electrons, knocking them off their path, and we wouldn’t be able to provide bright light for innovative research. To create a vacuum in the linac, we use turbo pumps to push air out until it reaches a very low pressure. Ion pumps then capture any charged atoms or molecules that are floating inside. During normal operations, our vacuum has less molecules than outer space near the international space station. Once a vacuum is created, we check for any leaks where air might be sneaking in. We use a residual gas analyzer to determine what types of gas molecules are inside the pipe. An ideal vacuum will only have a few light species of gas molecules remaining. If we find gases heavier than helium, this indicates a leak. There are many valves throughout the system that allow us to close off a particular section of the pipe while looking for or correcting a leak. Leaks are fixed by tightening connections, re-soldering joints, etc. Optimizing the vacuum for the whole linac takes time as this involves testing and correcting dozens of components. Images: 1. Two turbo pumps attached to our HXMA beamline's superconducting wiggler. 2. An ion pump in our storage ring. 3. A turbo pump in our modulator room that is connected to waveguides headed towards our linac. | Pumps like these are being used in our linac hallway. Learn more about the #newlinac project: https://bit.ly/4aKQVCM