The present invention relates to an automated radiosynthesis device adapted for enhanced automatic disconnection of a disposable kit once a radiosynthesis has been carried out. The automated radiosynthesis device of the invention therefore reduces the time to remove the disposable kit from the radiosynthesis device and reduces radiation exposure to the operator.

A furnace for gas fields, refineries reforming, petrochemical plants, or hydrogen generation by gasification may include: a radiant zone; a convective zone; and a first and second series of pipes through which at least two segregated process gas flows respectively pass. A first process gas flow may enter the furnace through the convective zone and, flowing through the first series of pipes, may leave the furnace through the radiant zone, or alternatively the first process gas flow may enter the furnace through the radiant zone and, flowing through the first series of pipes, may leave the furnace through the radiant zone. At least a second process gas flow may enter the furnace through the convective zone, may pass through the second series of pipes, and may leave the furnace through the convective zone. The second of series of pipes may be made of material resistant to acid gases.

A device for synthesizing a radioisotope-labelled target tracer includes a microfluidic chip having an SCX module configured to concentrate and capture a radioisotope from a radioisotope solution and release the captured radioisotope therefrom, an SAX module configured to purify the released radioisotope from the SCX module, and an passive in-plane mixing/reaction module configured to mix the purified radioisotope with a target precursor and perform labelling reaction to synthesize the radioisotope-labelled target tracer therein. The device also includes a heating means positioned in relation to the microfluidic chip for heating the microfluidic chip during the labelling reaction; and a first valve fluidically coupled with the SCX and SAX modules and a second valve fluidically coupled with the SAX module and the in-plane mixing/reaction module for operably controlling transit of various substances or mixtures among the SCX module, the SAX modules and the in-plane mixing/reaction module.