Hydropower has been used for hundreds of years in watermills and is now commonly used to generate electricity in applications such as hydroelectric dams and tidal power plants. Explore the power of water by building models and conducting experiments with them. Learn about how different devices are used to extract useful energy from moving water — from a waterwheel in a small stream to a giant turbine in a tidal power station.
Build a waterwheel, a sawmill, and a hammer mill to harness the energy of moving water to do different types of physical work. Investigate the intriguing properties of water by performing experiments involving surface tension, adhesion, and cohesion. Learn about water pressure by building a water tower, communicating vessels, and a water fountain.
Construct a hydroelectric power station to generate electricity and light an LED. Learn about where the energy in ocean waves, tides, and rivers comes from, and discover how we can generate electricity from them.
The full-color, 32-page experiment manual offers illustrated instructions and scientific information. Ages 8 and up.
Assess your fluid handling volumes, sterility requirements, compatibility with solvents or reagents, and workflow endpoints. Foxx’s technical support team can assist in selecting assemblies and filtration components suited to your process.
Biotech, pharmaceutical manufacturing, vaccine production, research laboratories, clinical development, and diagnostic centres widely use Foxx single-use systems and consumables.
Yes. With global manufacturing facilities and strict quality control, Foxx products meet regulatory requirements in major markets including the US, EU, and Asia for scientific, clinical, and manufacturing applications.
Labs should follow regulatory guidelines for sterility assurance levels, validate fluid handling pathways, perform risk assessments per relevant standards (e.g., FDA, USP), and maintain traceability documentation for audit readiness. (Industry practice)
Yes. The company’s cleanroom manufacturing and quality certifications make its products suitable for Good Manufacturing Practice (GMP) environments where sterility and documentation standards are required.
Foxx Life Sciences offers Autofil® 2, EZlabpure™ and APEX™ bottle top filters, EZlabpure™ and EZFlow syringe filters, membrane disc filters, vent filters, and cell strainers engineered for high-purity filtration in analytical labs, bioprocessing, and cell culture workflows.
Foxx stands out for its ISO-certified quality, USP Class VI materials, extensive SKU portfolio with patented designs, rapid shipment, and global manufacturing footprint, providing superior compliance, performance, and cost value.
Foxx offers custom single-use solutions and assemblies designed to meet unique workflow requirements, enabling bespoke fluid paths, connectors, and tailored assemblies to optimize specific lab processes.
Standard Foxx products typically ship within 24–48 hours, while Made-to-Order (MTO) or custom SUT assemblies generally ship in 4–6 weeks, balancing speed with tailored specifications.
Single-use systems reduce contamination risk, eliminate cleaning and sterilization validation needs, cut turnaround times, lower labour and water use, and improve overall operational efficiency.
Foxx products are manufactured under ISO 13485 quality management systems in ISO Class 7 certified cleanrooms, use USP Class VI materials, and many are FDA registered. This ensures reliability, compliance, and suitability for regulated environments.
Single-Use Technology refers to disposable fluid handling and storage assemblies used in biopharmaceutical manufacturing and labs that eliminate traditional cleaning and sterilization processes, reducing contamination risk and operational complexity.
Foxx Life Sciences provides a broad range of life science and bioprocess consumables, including single-use systems (SUS), custom tubing & bottle assemblies, filtration products, lab safety equipment, glassware, plasticware, caps & gaskets, connectors, vent filters, and stainless-steel components for research, biotech, and pharmaceutical applications.
