VACUU-LAN® Vacuum Networks for Laboratories
VACUU·LAN® - modern laboratory vacuum supply through local networks
Many applications in chemistry such as separation, drying, distillation, filtration, etc. are conducted under vacuum. So chemical laboratories, both in universities and in industry alike, need a vacuum supply. This must meet the application based, technical requirements regarding pumping speed and ultimate vacuum and frequently also the controllability of these parameters. In addition consideration must also be given to space restrictions, ecological and economic criteria. These constraints mean that it is not always possible to have the technically best solution i.e. each application with a separate pump. Local area vacuum networks offer the most balanced solution in these circumstances. However achieving a fully functional, economic and customer-oriented solution, requires a useful selection, of the appropriate components. VACUU•LAN®, the third generation of VACUUBRAND local area vacuum network, fulfils these requirements outstandingly. An important element is the chemistry non return valve, which is integrated into the basic elements and acts against the cross interference of individual applications and which operates even with small pressure differentials. To the basic element can be added a wide range of flexible, modular components such as manual control valves, an electromagnetic chemistry valve for vacuum regulation with a vacuum CONTROLLER, gauges, T-connectors and so on.
- better quality vacuum provided by a small, local pump
- Individual ports can be controlled electronically, offering different vacuum conditions at applications on the same network.
- High flexibility: should a need for vacuum arise later, the VACUULAN® network can be installed quickly and easily when and where needed.
- The modularity of the network technology can save on capital and operating costs compared with central vacuum
- Demand-responsive operation can save 70 to 90 percent of the energy associated with he 24/7 operation typical of central vacuum systems