Patent ID: 8920573
Filing Date: 2014-12-30
Classification: B08B

Abstract:
1. A method of improving purity and yield of chemical product in an automatic radioactive medicine synthesis system, comprising steps of: (a) washing by: inputting a total solution of reaction solutions sequentially pushed by nitrogen gas to be flown through a second electromagnetic valve, a first electromagnetic valve and a fourth electromagnetic valve to enter into a first buffer tube; flowing said total solution sequentially pushed by nitrogen gas through a sixth electromagnetic valve to enter an adhesion column to process adhesion; flowing said total solution sequentially pushed by nitrogen gas from the adhesion column through an eighth electromagnetic valve and a seventh electromagnetic valve to enter a second buffer tube; flowing waste nitrogen gas from the second buffer tube through a fifth electromagnetic valve and a third electromagnetic valve to be discharged; and staying said total solution in said second buffer tube; (b) backwashing by: flowing nitrogen gas through said second electromagnetic valve, said third electromagnetic valve and said fifth electromagnetic valve to push out said total solution sequentially pushed by nitrogen gas in said second buffer tube; flowing said total solution sequentially pushed by nitrogen gas through said seventh electromagnetic valve and said eighth electromagnetic valve to enter said adhesion column to process adhesion; flowing said total solution sequentially pushed by nitrogen gas through said sixth electromagnetic valve to enter said first buffer tube; and flowing waste nitrogen gas from the first buffer tube through said fourth electromagnetic valve and said first electromagnetic valve to be discharged; (c) discharging reaction solution by: flowing nitrogen gas through said second electromagnetic valve, said first electromagnetic valve and said fourth electromagnetic valve to push out said total solution sequentially pushed by nitrogen gas stayed in said first buffer tube; flowing said total solution through said sixth electromagnetic valve, the adhesion column, said eighth electromagnetic valve and a ninth electromagnetic valve to be discharged; (d) backwashing by: flowing a cleaning fluid sequentially through said second electromagnetic valve, said third electromagnetic valve and said fifth electromagnetic valve to enter a fourth buffer tube; sequentially flowing said cleaning fluid through said seventh electromagnetic valve and said eighth electromagnetic valve to enter said adhesion column to wash out impurities; sequentially flowing said cleaning fluid through said sixth electromagnetic valve to enter a third buffer tube; and sequentially flowing said cleaning fluid through said fourth electromagnetic valve and said first electromagnetic valve to be discharged; (e) washing by: sequentially flowing a cleaning fluid through said second electromagnetic valve, said first electromagnetic valve and said fourth electromagnetic valve to enter said third buffer tube; sequentially flowing said cleaning fluid through said sixth electromagnetic valve to enter said adhesion column to wash out impurities; and sequentially flowing said cleaning fluid through said eighth electromagnetic valve and said ninth electromagnetic valve to be discharged; and (f) eluting out product by: sequentially flowing an eluting fluid through said second electromagnetic valve, said first electromagnetic valve and said fourth electromagnetic valve to enter said third buffer tube; sequentially flowing said eluting fluid through said sixth electromagnetic valve to enter said adhesion column to elute out a product; and sequentially flowing said product through said eighth electromagnetic valve and said ninth electromagnetic valve to be flown out.