Gas handling method for dual bottle subsea accumulators

That which is claimed is: 1. A method of safely handling compressed gas in a dual bottle subsea accumulator during service operations comprising: providing a gas bottle for the primary purpose of storing gas which will be compressed to provide accumulated energy, providing a hydraulic bottle with the primary purpose of converting the energy stored in said gas bottle into pressurized hydraulic supply fluid, providing interconnecting plates at a first end and a second end of said gas bottle and said hydraulic bottle with porting to communicate said gas from said gas bottle to said hydraulic bottle, providing a first closure valve in a protected position within said first end of said gas bottle, providing a second closure valve in a protected position within said second end of said gas bottle, expelling a majority of the gas from said hydraulic bottle into said gas bottle, closing said first closure valve and said second closure valve, and removing said interconnecting plates from said gas bottle and said hydraulic bottle, and servicing said hydraulic bottle. 2. The method of claim 1 further comprising said closure valves are ball valves. 3. The method of claim 2 further comprising said ball valves have a bore equal to the bore or greater than the size of the porting within said interconnecting plates. 4. The method of claim 1 , further comprising moving one or more pistons within said hydraulic bottle to a position to expel the maximum amount of gas from said hydraulic bottle into said gas bottle prior to closing said first closure valve. 5. The method of claim 1 , further comprising venting the compressed gas in said porting in said interconnecting plates prior to removing said interconnecting plates from said gas bottle. 6. A method of safely handling compressed gas in a dual bottle subsea accumulator during service operations comprising: providing a gas bottle for the primary purpose of storing gas which will be compressed to provide accumulated energy, providing a hydraulic bottle with the primary purpose of converting the energy stored in said gas bottle into pressurized hydraulic supply fluid, providing interconnecting plates at a top and a bottom of said gas bottle and said hydraulic bottle with porting to communicate said gas from said gas bottle to said hydraulic bottle, providing a first closure valve in a protected position within the top of said gas bottle, providing a second closure valve in a protected position within the bottom of said gas bottle, expelling a majority of the gas from said hydraulic bottle into said gas bottle, closing said first closure valve and said second closure valve, and removing said interconnecting plates from said gas bottle and said hydraulic bottle, and servicing said hydraulic bottle. 7. The method of claim 6 further comprising said closure valves are ball valves. 8. The method of claim 7 further comprising said ball valves have a bore equal to the bore or greater than the size of the porting within said interconnecting plates. 9. The method of claim 6 , further comprising moving one or more pistons within said hydraulic bottle to a position to expel the maximum amount of gas from said hydraulic bottle into said gas bottle prior to closing said first closure valve. 10. The method of claim 6 , further comprising venting the compressed gas in said porting in said interconnecting plates prior to removing said interconnecting plates from said gas bottle.