GEA Pharma Systems - Christian Berner AS
Transcription
GEA Pharma Systems - Christian Berner AS
www.geapharmasystems.com Central Know-How on a Global Scale Based on a strong commitment to research and development, pharmaceutical technology centres in Belgium, Denmark, Switzerland, the UK, Singapore, and USA provide global technical support and know-how to the pharmaceutical industry. These centres of excellence give customers access to a range of test facilities and expert teams with technical and process know-how. Our teams work closely with our customers to optimise processes and evaluate their products, enabling © GEA Pharma Systems 2008 Specifications subject to change without notice All trademarks recognized them to achieve their process and production goals. Contracting Profitable Experience A world leader in supplying pharmaceutical equipment, GEA Pharma Systems offers manufacturers all over the world the opportunity to enter into a profitable partnership for development and contract. GPS combine advanced inhouse technology with a thorough understanding of the pharmaceutical industry to help customers maximize their development results. Aeromatic-Fielder GEA Pharma Systems AG PO Box 112, Hauptstrasse 145 CH-4416 Bubendorf, Switzerland Tel: (CH) +41 61 936 36 36, (UK) +44 23 8026 7131 GEA Pharma Systems aeromatic-fielder@geapharmasystems.com Fluid Bed Processor Aeromatic-Fielder Technologies GEA Pharma Systems GEA Pharma Systems is world leader in providing advanced processing solutions for solid dosage forms to the pharmaceutical industry. Based on a dedication to research and durable quality, GEA Pharma Systems offers a wide range of solutions, from individual pieces of equipment to complete integrated plants, by uniting the state-of-the-art technologies of Aeromatic, Buck, Collette, Courtoy, Fielder, Lyophil, Nica and Niro. Product Know-How Process Expertise • For more than forty years, Aeromatic-Fielder has supplied advanced solids processing plants for blending, granulating, drying, pelletizing and coating to the pharmaceutical industry. This includes small capacity systems designed for R & D as well as industrial size plants for batch production of pharmaceutical compounds under cGMP conditions. Our plant and process expertise is based on experience and R & D. With plants installed around the world and literally thousands of tests performed, we have established a solid base of expertise related to the needs of the pharmaceutical manufacturing industry. Delivering the Right Solutions A Partnership in Every Perspective Every Aeromatic-Fielder plant begins with the Working with Aeromatic-Fielder means entering a customer’s desire to create a product that will solid partnership every step of the way, from process succeed in the market. In Aeromatic-Fielder, the testing and design to specification of the software customer finds a partner who will assist him to meet controlling your new plant. And our comprehensive that goal. Our expertise includes technologies for after sales program ensures that your return on processing Active Pharmaceutical Ingredients using, investment is optimised throughout the lifetime Blending, Granulating, Drying, Pelletizing and of the plant. Coating. Safety and the environment Plants Customised for Success For full compliance with national, local and in-house Every pharmaceutical plant and system from regulations, Aeromatic-Fielder offers a range of Aeromatic-Fielder is a unique union of proven emission control options including solvent recovery technology and individual solutions. Based on systems, outlet filters and full containment plants. standard components, we supply plants for cGMP Equipment can be supplied to meet explosion-proof production configured to meet the customer’s and pressure shock standards as required. specific requirements. 3 • Drying • Granulating • Pelletizing • Coating Process Technologies • For maximum process flexibility, Aeromatic-Fielder can supply a single Fluid Bed unit or Multi-Processor™ system with interchangeable modules. Drying Warm air is blown through a perforated distributor to rapidly and gently dry materials until the required residual moisture content is reached. Drying Moisture evaporated from the product is exhausted with the drying air. Special features Selection of air distributors Short process time Top Spray Granulator The top spray granulator agglomerates finer particles into larger, free flowing granulates in a one-pot process. Ingredients are mixed and preheated by an upward flow of heated air. Granulation occurs by spraying liquid into the fluidized powder. The granules are subsequently dried with heated air. The top spray granulator can also be used for top spray coating, layering from liquids, and instantizing. Top Spray Granulator Special features One pot process Selection of air distributors Spray Dryer Granulator The spray dryer granulator transforms suspensions or solutions into dry, free-flowing, dustless granules. A suspension or solution of the substance to be dried is sprayed onto warm air, simultaneously drying and agglomerating the product. Batch or continuous discharge is available – in the continuous mode, the product is discharged at a controlled rate to maintain an optimum bed height Spray Dryer Special features Compact unit Easy scale-up Batch or continuous discharge 4 Granulator Built-in Versatility Precision-Granulator™ A rotating high velocity air stream is established in the central agglomeration tube. Particles are picked up at the base of the tube Precision and accelerated by the air stream. The particles come into contact Granulator with liquid droplets produced from the spray nozzle at the base of the tube \ the relative velocity of air, liquid droplets and particles are high so wetting is efficient and drying begins almost immediately. Most of the feed material is in the outer “holding area”, where the gas velocity is very low. Attrition is greatly reduced. The gas humidity is also low in the holding area so the material is dry not sticky. Individual particles may make repeated cycles (typically from 10 to 1,000) through the tube, allowing very large agglomerates to be built up. Precision-Coater™ Used for smaller particles, such as powders, granules, seeds, crystals, pellets, and small tablets. The product is coated and partially dried by Precision Coater being blown upward through a central column with atomized liquid and drying air. The material falls into the outer part of the container where heated air completes the drying process. On reaching the air distributor at the base of the module, the product flows again into the central column for further coating. This process continues until the specified degree of coating is obtained. Special features High spray rates for short processes Highly controlled product movement Minimal agglomeration or granulation 5 Batch Fluid Technology • Using proven standard components, Aeromatic-Fielder can supply both simplicity and flexibility in plant design. User-selected process modules, filters, control systems and air preparation units combine in a system to meet process requirements exactly. This modular approach ensures that qualification and validation procedures are kept to a minimum. Through-the-wall installation By positioning the support column at the back of the fluid bed, a through-the-wall installation is achieved which ensures that all the auxiliary equipment is housed outside the process room. This greatly simplifies compliance with GMP guidelines. Solvent emission control External bag fitter Normally used in conjunction with the particle retainer to collect dust from the fluid bed in coating applications. A range of open- and closed-cycle systems for removing or recovering organic solvents is available. Options include condensation, adsorption, thermal oxidation and wet scrubbing. Spraying systems Nozzles, pumps and liquid preparation units are supplied according to process needs. Product discharge For automatic product discharge, pneumatic conveying or gravity-based systems are available for Open Cycle Design use with the Non-Sifting Gill Plate™ air distributor technology. Inlet air preparation unit Inlet air is treated using a series of filters and conditioning units according to the sensitivity of the process and the ambient climatic conditions. Options range from the basic minimum, consisting of a prefilter, heater and final filter, to full air-conditioning to provide consistent processing conditions all year round. Condensers are used for dehumidifying in most applications, but for hygroscopic or effervescent products which require a very low dew point, additional adsorption devices can be installed. Humidification is achieved by an injection of steam. 6 Quick closing valve HEPA filter Optimized Designs Process filters In granulation, drying, and most pelletizing applications, a process filter is used to trap mall particles, which are returned to the bed Quick closing valve when the filter is cleaned. In coating Silencer applications, fine particles usually need to be removed. Fluid beds that are used for more than one type of process can be supplied Police filters Suction fan 1 with interchangeable process filters. 1 Single shaker bag filter A simple, basic filter with a single bag, which is cleaned by shaking. Fluidization stops during filter cleaning. 2 Multi shaker bag filter 2 This filter is divided into two or more sections, with a separate filter bag in each Pre-filter one. Bags are cleaned individually by shaking the filter, while fluidization continues in the other sections, for faster and more efficient production. Pre-heater 3 Blow-back filter There are multiple filter bag sections in this 3 design. Cleaning takes place one bag at a Humidifier time, so that a large proportion of the filter is always available for continuous fluidization. 4 Cartridge filter Stainless steel filter cartridges are cleaned one at a time, so that a large proportion of Filter Heater (face and by-pass) Cooler/ condenser the filter is always available for continuous 4 fluidization. Unlike bag filters, this system can be cleaned-in-place. 5 Particle retainer Used for coating applications, this design retains the coarser particles and returns them to the process, removing the dust to an external filter unit. 5 7 Your Process • Understanding & Controlling For optimum compatibility with existing plant control strategies, fluid bed systems are available with a choice of manual or FDA compliant automated controls. Programmable logic controller (PLC) and PC-based options offer a wide range of recipe handling, data acquisition and network communication functions. SynTQ PAT data analysis and modelling platform Materials information Multivariate analysis PAT data Process engineering models Process optimisation Controls The PLC front panel key-pad and built-in monitor are used for recipe programming and real-time process MIMIC display. For optimum compatibility with existing plant control strategies, fluid bed systems are available with a choice of manual or FDA compliant automated controls. Programmable logic controller (PLC) and PC-based options offer a wide range of Drying curve monitored by NDC Pharmaveiw NIR moisture measurement system recipe handling, data acquisition and network communication functions. Monitoring of coat growth using Zeiss Corona NIR 8 Monitoring coating conditions GPS real time process humidity model (RTPD) (above) to navigate the pychometric chart (below In processs measurement position Clean and calibrate position GEA Pharma Systems integrate process engineering and PAT to provide Process Intelligence The FDA’s PAT (process analytical technologies) initiative has enabled GPS Pharma Systems to combine its equipment design skills and process engineering know–how in order to integrate online (PAT) analysers into its process systems in a way which can provide real insight into the operation of the process and help customers achieve key product quality target . The goal of the PAT initiative is to ensure that pharmaceutical products are manufactured using processes which are understood and monitored so that the key quality characteristics of the products can be actively controlled. Combining process monitoring using online analysers, together with solid process engineering principles and advanced process modelling techniques will enable processes to be actively controlled in order to compensate for minor input variations (eg. raw materials) so that the specifications for the final product will be closer to the ideal target. Using process models to identify the process conditions that highlite products which perform best in subsequent processes will enable the whole production process to be targeted towards the performance of the final dose rather than just optimising each unit operation individually. GPS Pharma Systems wide scope gives it a unique perspective on the complete process. CIP position at end of process Lighthouse Probe™ Technology GEA Pharma Systems (GPS) has joined forces with J&M GmbH to create a compact and cleanable in-process optical probe for use in powder processing equipment. The result is the novel Lighthouse Probe™, which can be used with a range of spectroscopic techniques, including NIR and UV/vis, to overcome the traditional problem of product sticking to observation windows. The probe is compact and easy to install and makes it possible to take a reliable in process measurement of quality critical product characteristics including: • Material and active content identification • Active content uniformity during high shear blending operations • Moisture content and end-point during drying processes • Coat growth during coating processes Optical methods such as UV/Vis or NIR spectroscopy can be very powerful tools for analysing a range of product characteristics, but in processes involving wet and sticky powders it is necessary to ensure that the system has a clear view of the product. Conventional windows used in process equipment such as fluid bed systems or high shear granulators, have always suffered from the risk of window fouling. The new GPS & J&M Lighthouse Probe™ has overcome this problem. 9 Sizes & Capacities Meeting Every Requirement • Standard modules configured into tailor-made plants. The philosophy behind the design is that a combination of standardised modules are built together in order to meet the requirement for a specific duty. Therefore, dryers of equal capacity may be completely different with respect to design, configuration and physical size. To meet the high requirements of the pharmaceutical industry, Aeromatic-Fielder has a series of fluid bed systems suitable for formulation, process development, production of clinical material through to full-scale production. Production capacities 150 300 400 400 600 800 1200 1800 2400 3000 (Size 3) (Size 4) (Size 5) (Size 5) K3 (Size 6) (Size 6) K3 (Size 7) (Size 8) (Size 9) (Size 10) 30 to 100 L 60 to 200 L 90 to 300 L 90 to 400 L 120 to 400 L 120 to 600 L 240 to 800 L 360 to 1200 L 480 to 1600 L 600 to 2000 L 15 to 50 kg 30 to 100 kg 45 to 150 kg 60 to 200 kg 60 to 200 kg 90 to 300 kg 120 to 400 kg 180 to 600 kg 240 - 800 kgs 320 to 1200 kg 125 L 225 L 355 L 450 L 600 L 650 L 900 L 1350 L 1800 L 2250 L Typical working capacity Typical batch capacity (average product density 0.5kg/l) Maximum working volume Values are process and product specific and may vary from those shown above. 10 Integration Optimum Process Efficiency • Current Good Manufacturing Practices increasingly require that product is fully contained during processing to protect operators and environment. Integrated process systems not only offer containment but improved productivity through automation, increased yield and efficient cleaning procedures. System integration GEA Pharma Systems specialises in the design and manufacture of fluid bed and high-shear granulation technology and is uniquely qualified to provide state-of-the-art integrated high shear mixergranulator and fluid bed drying technology. Drawing on its world-class expertise, GPS Pharma Systems offers fully integrated turnkey installations. The service includes: design, installation assistance, commissioning, process validation, as well as training, and technical support. Installation, operation qualification and documentation are carried out according to FDA/GAMP guidelines. Integration by design Aeromatic-Fielder’s entire range of process equipment is designed with system integration in mind. A modular approach allows customers to select standard process modules to suit project needs. Fluid bed dryers and coaters can be combined with top-drive and bottom-drive high shear mixergranulators, wet and dry milling facilities, product handling systems, binder and coating preparation units, filtration units, all designed for fully integrated systems. Safety, containment, product flow and building requirements are in-built for full integration for optimum process efficiency 11 Design Cleanability & Maintenance • Process optimisation depends on efficient, effective cleaning. Automation of the cleaning process ensures repeatability, allows validation and minimises down-time. In recognition of the fundamental role played in today’s advanced powder processing industry by automated cleanin-place procedures Aeromatic-Fielder has developed a unique approach to CIP. WIP and CIP All process plant can be supplied with a basic wash- in-place (WIP) system or with fully automated cleaning-in-place system. CIP options for the fluid bed processor include process filters that do not have to be removed for cleaning. CIP Kitchen 12 Safety & the environment • Continuous Improvement For full compliance with national, local and in-house regulations, GPS Pharma Systems offers a range of emission control options including solvent recovery systems, outlet filters and full containment plants. Equipment can be supplied to meet explosion-proof and pressure shock standards as required. Improved safety for integrated granulation the VDI standard - or where the configuration of the and drying suites interconnecting duct is outside the safe design Extensive safety testing confirms pressure parameters, then either the granulator must be enhancement effects and identifies safe design designed to a higher pressure shock resistance or a limits for integrated systems GPS Pharma Systems hygienic fast acting valve, or some other form of in conjunction with the FSA, the safety specialist protection, is essential. The test program showed centre in Germany, have carried out an extensive test that the pressure enhancement effects are caused by programme involving over 100 test explosions. This the difference in the propagation speed between the research has shown conclusively that should an pressure wave and the flame front. The worst cases explosion occur during the transfer operation in an are when the pressure in the granulator is able to integrated system where a granulator is connected rise significantly before the flame can reach it and directly to a fluid bed dryer without an explosion ignite the pre-compressed material. For the range of isolation valve, the secondary explosion pressures in transfer duct configurations to be used with the 16- the granulator can be significantly higher than in bar granulator design, the presence of bends and the fluid bed. These tests have enabled GPS Pharma obstructions such as mills was not seen to affect the Systems to gain full EC type approval for a range of increase in pressure. pressure shock resistant integrated systems and 16- For plant processing powders, or mixtures that are bar pressure shock resistant high shear granulators. not flammable at the time of transfer between the granulator and the fluid bed, then the risk of Safety when using organic solvents explosion is eliminated and hence a wider range of The tests were carried out with hybrid mixtures that transfer duct designs can be used safely. This behave in the same way as pharmaceutical products extensive research program has significantly containing organic solvents and showed that the final advanced the state of the art in safety technology for explosion pressure in the granulator is dependent on pharmaceutical plants and confirms GPS Pharma the volumes of the two vessels and that the length Systems’ commitment to introducing new products and diameter of the interconnecting duct is critical in which are based on sound research and development ensuring that the pressure remains within safe limits. using solid process know how and understanding. The tests showed that where the fluid bed is designed in accordance with VDI 2263 part 5 (i.e.: for a 10-bar explosion pressure, which the standard considers to be adequate for all pharmaceutical powders and organic solvent combinations), then the granulator must be able to withstand an over pressure of at least 16 bar to provide a range of transfer duct configurations which are both practical and safe. Where the fluid bed is required to handle materials with explosion pressures greater than 10 bar (e.g.: metal powders) - and hence is designed outside of 10 bar PSR design (no relief duct neccessary) Explosion suppression system (no relief duct neccessary) 2 bar PSR design with explosion relief duct 13 The Complete Partnership • Working with you… Entering a partnership with Aeromatic-Fielder means entering a partnership that does not end until you are completely satisfied. From the moment you have specified your user requirements and until the plant has been put into service and has been qualified, our trained staff stays with you at every step of the process, working in close co-operation with your own staff creating the components and systems that will result in a finished plant. Client Verification Customer responsibilty User Requirements Process Qualification Functional Specification Aeromatic-Fielder / Client Verification Operational Qualification Joint tasks Software design Aeromatic-Fielder responsibilty Hardware design Mechanical design Installation Qualification Mechanical equipment build FAT testing Hardware manufacturing Integrated testing Software Configuration Bench testing …Every Step of the Way Based on years of experience, equipment qualification will be carried out according to an agreed plan using documents prepared by Aeromatic-Fielder. Our engineers will contribute to a successful qualification of the equipment in close co-operation with your validation staff. 14 Service for Life • Project Management The expertise of the Aeromatic-Fielder engineering team is available to help customers find the optimum solution for their individual processing needs. The company assists with single phases of a project, or takes full responsibility for design and installation of a complete turnkey plant. Training Operators of Aeromatic-Fielder equipment can undergo training to help them maximise efficiency, either at the time of installation or periodically as required. After Sales Regular maintenance is essential to ensure equipment operates to maximum efficiency. Fully trained engineers can carry out on-site servicing and calibration of equipment, either as part of a planned maintenance programme or in response to customer need. Replacement parts can be supplied from stock or manufactured to order. To avoid the expense of equipment replacement Aeromatic-Fielder can upgrade existing systems and plant to meet different operational parameters, to comply with changing regulations, or to modify for use at another location. 15