A complete integrated solution, with hardware and software components that have been specifically designed to provide optimal performance and reliability
Radleys has introduced Lara, a controlled laboratory reactor (CLR) system that sets new standards in flexibility and ease-of-use for process automation.
With many years experience in developing and supplying glass reaction vessels to the leading process laboratories worldwide, Radleys has now designed an innovative, modular system that offers the capabilities normally associated with much higher priced CLRs.
Unlike do-it-yourself systems, Lara delivers a complete integrated solution, with hardware and software components that have been specifically designed to provide optimal performance and reliability.
The standard Lara system comprises a choice of easily interchangeable jacketed glass reaction vessels (500ml, 1 litre and 5 litres), integral stirrer, secure mounting stand with an intuitive, easy-to-use PC control system to set-up and run experiments.
The compact footprint of Lara minimises valuable laboratory space and allows the unit to easily fit into a regular fume hood.
The standard system offers direct connection for up to three sensors and the utility of controlling an unlimited number of third party devices via RS232 or analog input/outputs.
Lara has been designed to operate over a -70 to + 200C temperature range and can work under vacuum or with inert atmospheres.
Drawing upon Radleys considerable practical experience, the system has a range of simple yet valuable features that make the day-to-day running of the system easy and productive.
Everything from the novel single-handed clamp mechanism that holds the reaction vessel and lid, to the integral hinged stirrer drive that simply lifts out of the way after use, have been designed for simplicity and ease of use.
Designed as a future proof investment, a range of plug and play expansion modules will be available for Lara to develop its capabilities and functionality as experimental requirements change.
Modules will include automated reagent addition, calorimetry, crystallisation, liquid/liquid extraction, fractionation and automated sampling.
