2027 results found
    1. IN-LINE MIXERS

      IN-LINE MIXERS

      In-line mixing: The mixing is performed in this device, not in the tank. It is applied to solid-liquid and liquid-liquid mixtures. For continuous or batch production. Disolution or dispersion of solids in powder or crystalline in liquids, emulsion or mixture of liquids Types: ALVAK, VISCOVAK, JETMIXVAK, LIVAK. Power (0.55 a 65 kW). Addition of solids up to 15,000 kg/h and mixing flow rate up to 90,000 l/h. Industrial or sanitary (designed according to EHEDG and 3A). Directive of security ATEX 2014/34/UE and 2006/42/CE.

    2. Independent Overfill Protection Unit

      Independent Overfill Protection Unit

      The IOPU is a simple, dependable panel designed to integrate into Safety Instrumented Functions (SIF) without the need for a programmable controller, making it certifiable for your SIL requirements as part of a safety system. It features SIL-rated relays for reliable valve or pump control, ensuring compliance with stringent industrial safety standards. Each channel includes a clear, ultra-bright LED indicator that remains illuminated until the fault or alarm condition is resolved. The panel supports connection to an external sounder, which can be silenced as needed, providing flexible alarm management for industrial environments. Engineered for straightforward integration and operational safety, the IOPU panel is ideal for robust and cost-effective industrial control applications.

    3. Indexing belt filter (BF)

      Indexing belt filter (BF)

      The indexing belt filter of type BF is a continuously operating vacuum filter that can be used to filter solid suspensions gently and reliably. The suspension is fed from above and the filter cake forms on the belt. A vacuum is applied under the belt, which sucks the filtrate through the belt. The cyclical operation of the belt with stationary vacuum trays ensures sharp filtrate separation. The quality of the filter cake is achieved via further process steps such as washing, steaming, drying or pressing.

    4. Industrial

      Industrial

      Our industrial division offers a range of chemicals and additives to coatings, inks, adhesives, sealant and resin manufacturers. Our market segments include automotive, aerospace and medical applications to name but a few. Our Principals include some of the most recognisable and respected global manufacturers. Key to our success is a focus on partnerships with our customers and suppliers. Working together, this allows Camida to deliver the highest level of service for our customers, whether sourcing materials, supplying our Principal products or offering solutions.

    5. Industrial Bespoke Solutions

      Industrial Bespoke Solutions

      In accordance with the principle of "modular engineering,” LAUDA plans and builds systems precisely to the customer's wishes: process-oriented, made-to-measure and precisely following the local regulations, and compliant with the strictest safety standards. Within the temperature range from -150 to 550 °C, LAUDA systems heat and cool with an accuracy of up to one tenth of a degree Celsius. Since the requirements for constant temperature equipment are continuously growing, the modern LAUDA heating and cooling modules are also flexible as far as expansion and modification are concerned. Project planning is our specialty. Working closely together with our customers, we design customized systems during the planning process. The keyword is modular engineering. With proven building blocks that are put together for the application, you get custom-tailored solutions. Matching of target and actual values requires precise planning of all interfaces. Each individual LAUDA planning component has been proven many times over and undergoes continuous further development. This is how we can guarantee a high quality standard.

    6. Industrial Collaboration Programme

      Industrial Collaboration Programme

      The Henry Royce Institute’s Industrial Collaboration Programme (ICP) provides grant funding for research, development, and innovation sprint projects that support technology translation. This competition is Royce’s flagship funding initiative and is designed to catalyse impactful partnerships between industry, academia, and Research Technology Organisations (RTOs). Through the Industrial Collaboration Programme, Royce funds projects that respond to major national challenges and accelerate the progression of advanced materials from breakthrough discovery to real-world application. ICP supports innovation across the entire economic value chain, from agile start-ups to global corporations and from early-stage research to fully manufactured products. Since its launch, ICP has awarded more than £18.8 million in funding to over 300 partner organisations. This investment has delivered significant economic value for the UK. Project stakeholders who took part in a 2025 survey reported a five-to-one return on investment and more than £60 million in follow-on funding. One fifth of surveyed businesses reported creating new jobs as a result of ICP support, and a growing pipeline of new products and intellectual property has emerged from funded projects. By enabling collaboration between leading UK universities and industry, ICP is harnessing the UK’s world-class expertise in materials science to address critical challenges in areas such as sustainability, energy efficiency, and healthcare. The Industrial Collaboration Programme is accelerating the journey from research to commercialisation and is helping to advance the objectives of the National Materials Innovation Strategy, including increased productivity, enhanced national resilience, and the creation of highly skilled employment opportunities.

    7. Industrial demand response EMS

      Industrial demand response EMS

      The technology for large-scale energy management, demand response multiplies the benefits of several small changes. By adapting the power draw of primary and secondary manufacturing equipment with respect to each other, their total energy consumption is optimised to reduce costs without sacrificing productivity. Each prosumer (consumer and producer) and potential energy source are treated as a separate user in the system, going as far as adapting electrical and gas sources under the same process, understanding the cost benefit of both. Mutual adaptation of machines in separate processes allows energy consumption to be optimised based on all available information—such as production demands, forecasts, time-of-use charges, and energy price—and the use of sources of flexibility that may not be immediately apparent.

    8. Industrial utility automation

      Industrial utility automation

      Industrial utility automation controls and optimises systems such as process water, compressed air, HVAC, and clean utilities in production environments. Aligned with GAMP 5 principles, it uses field instrumentation and analysers, PLC/DCS, SCADA, and predictive models to maintain stable operating conditions, protect equipment, reduce energy and media losses, and support consistent product quality. The end-to-end automation solution covers design and engineering, installation, and maintenance, resulting in transparent monitoring, real-time data visibility, early-fault detection, and integration with plant-wide control systems.

    9. InfraCal 2

      InfraCal 2

      The InfraCal 2 infrared analyser is designed for quick, easy and accurate determination of oil and grease or petroleum hydrocarbons in water and soil. The two models, InfraCal ATR and InfraCal Trans, are rugged and portable with no moving parts and with the portable design and touch screen display, are perfect for on-site testing, providing results in under 15 minutes. Key applications of InfraCal 2 InfraCal 2 ATR-SP correlates to EPA Method 1664 Method compares to EPA 1164 & ISO 9377-2 InfraCal 2 Trans-SP method complies with: ASTM D7066, EPA 413.2, EPA 418.1; method compares with EPA 1664, ISO 9377-2 Versatility in Testing: Suitable for offshore oil in water measurements and industrial wastewater effulents . High Sensitivity: Minimum detection limit of .0.1 ppm in water and 1 ppm in soil. Rapid Analysis: Delivers results in 10-15 minutes, streamlining the testing process. User-Friendly Design: Features a touch screen display for ease of use and portability.