Pressure or flow regulation method for gaseous hydrogen dispensing system

The invention claimed is: 1. A system for adding a pressurized gas to a receptacle container that is fluidically connected thereto, the system comprising: a) a plurality of banks of pressurized gas containers, the banks each having a plurality of pressurized gas containers, wherein each pressurized container of a bank is fluidically connected to a common bank manifold and a common bank pressure control valve (PCV); b) the common bank PCV being configured to be downstream from that bank, and all pressurized gas containers thereof, the common bank PCV adapted to control a flow of the pressurized gas from that bank to the receptacle container; c) the bank PCVs configured and adapted to operate in sequence in response to a computer control; d) the computer control configured and specifically programed to control the opening and closing of the bank PCVs in response to a pressure value representing a pressure of the pressurized gas in a first pressurized container of a first bank (Bank A), the computer control specifically programmed to execute the steps of: (A) detecting a first pressure in a first pressurized gas container of the first bank (Bank A), (B) comparing the first pressure of the first pressurized gas container of the first bank (Bank A) to a receptacle container pressure, (C) when the comparison of (B) reaches a pre-determined minimum pressure differential, comparing a pressure value for each pressurized gas containers of a second bank (Bank B) to identify a second pressurized gas container having the smallest pressure differential with the receptacle pressure container, (D) opening a second isolation valve of the second pressurized gas container of the second bank to create a fluid communication between the second pressurized gas container and the second bank PCV, (E) proportionally opening the second bank PCV to maintain a minimum pressure of the gas flow to the receptacle container based on a pressure decay of a pressurized gas flow through the first bank PCV, and (F) when the first pressure of the first pressurized gas container falls to a second preset pressure differential with the pressure of the receptacle container, closing the first PCV. 2. The system of claim 1 , further comprising (G) closing a first isolation valve of the first pressurized gas container concurrently with or subsequent to (F). 3. The system of claim 1 , wherein the computer control is configured and specifically programed to additionally execute a set point swap process wherein a set point of the second PCV is set to a pre-determined value below the set point of the first PCV and then the pre-determined set point value is reduced to zero. 4. The system of claim 1 , wherein the computer control is configured and specifically programed to repeat (A)-(F) for the second pressurized container and a third pressurized container in the first bank. 5. A method of adding a pressurized gas to a container that is fluidically connected to a pressurized gas delivery system in accordance with claim 1 , the method comprising: a) detecting a first pressure in a first pressurized gas container of the first bank (Bank A); b) comparing the first pressure of the first pressurized gas container of the first bank (Bank A) to a receptacle container pressure; c) when the comparison of (B) reaches a pre-determined minimum pressure differential, comparing a pressure value for each pressurized gas containers of a second bank (Bank B) to identify a second pressurized gas container having the smallest pressure differential with the receptacle pressure container; d) opening a second isolation valve of the second pressurized gas container of the second bank to create a fluid communication between the second pressurized gas container and the second bank PCV; e) proportionally opening the second bank PCV to maintain a minimum pressure of the gas flow to the receptacle container based on a pressure decay of a pressurized gas flow through the first bank PCV; and f) When the first pressure of the first pressurized gas container falls to a second preset pressure differential with the pressure of the receptacle container, closing the first PCV. 6. The method of claim 5 , further comprising step g), closing a first isolation valve of the first pressurized gas container concurrently with or subsequent to step f). 7. The method of claim 5 , further comprising a set point swap process wherein a set point of the second PCV is set to a pre-determined value below the set point of the first PCV and then the pre-determined set point value is reduced to zero. 8. The method of claim 5 , further comprising repeating steps a)-f) for the second pressurized container and a third pressurized container in the first bank.