| 摘要 |
Fluid storage and dispensing systems and methods for remote delivery of fluids are described, for providing fluid from a source vessel at lower voltage to one or more fluid-utilizing tools at higher voltage, so that the fluid crosses the associated voltage gap without arcing, discharge, premature ionization, or other anomalous behavior, and so that when multiple fluid-utilizing tools are supplied by the remote source vessel, fluid is efficiently supplied to each of the multiple tools at suitable pressure level during the independent operation of others of the multiple vessels. |
| 主权项 |
1. A fluid supply system for delivery of fluid from a fluid supply source vessel at a relatively lower voltage to at least one fluid-utilizing tool at a relatively higher voltage wherein the fluid passes through a corresponding voltage differential, said fluid supply system comprising the fluid supply source vessel, and at least one fluid management apparatus selected from the group consisting of:
(a) a fluid delivery flow circuit comprising a fluid delivery line adapted for coupling to the fluid supply vessel to flow fluid from the fluid supply vessel through the voltage differential to the fluid-utilizing tool, a dielectric interface adapted for coupling to the fluid delivery line to separate lower voltage and higher voltage segments of the fluid delivery line from one another, a first pressure regulator and a flow control component or assembly in the lower voltage segment of the fluid delivery line, a second pressure regulator in the higher voltage segment of the fluid delivery line, wherein the first and second pressure regulators are adapted to regulate pressure of fluid flowed through the fluid delivery line from the fluid supply vessel to the fluid-utilizing tool to reduce pressure variation of fluid flowed to the fluid-utilizing tool; (b) an electric current monitor adapted to monitor current in the fluid supply source vessel and output a signal correlative to said current in an event of electrical disturbance mediating arcing, discharge, or premature ionization of the fluid in a fluid delivery flow circuit when coupled to the fluid delivery source vessel, and an interlock system adapted to receive the signal from the electric current monitor in said event of electrical disturbance, and responsively actuate a remedial action to abate the electrical disturbance or ameliorate an effect thereof; (c) a fluid delivery flow circuit comprising a non-linear fluid delivery line adapted for coupling to the fluid supply vessel, to provide a non-linear extended length flow path for flow of fluid from the fluid supply vessel through the voltage differential to a fluid-utilizing tool, to suppress arcing, discharge, or premature ionization of the fluid; (d) a fluid delivery flow circuit comprising a fluid delivery line adapted for coupling to the fluid supply vessel to flow fluid from the fluid supply vessel through the voltage differential to the fluid-utilizing tool, the fluid delivery line being in fluid communication with a reversible sorbent medium having sorptive affinity for said fluid and arranged to sorptively/desorptively modulate fluid flow through the fluid delivery line to prevent fluid supply interruptions; (e) a control system adapted to monitor and control supply pressure and/or the demand flow rate of fluid flowed from the fluid supply vessel to the fluid-utilizing tool to reduce pressure variation of fluid flowed to the fluid-utilizing tool; (f) a thermal control system adapted to heat or cool fluid flowed from the fluid supply vessel to the fluid-utilizing tool, at sufficient rate to control fluid pressure so as to reduce pressure variation of fluid flowed to the fluid-utilizing tool; (g) a fluid delivery flow circuit comprising a fluid delivery line adapted for coupling to the fluid supply vessel to flow fluid from the fluid supply vessel through the voltage differential to the fluid-utilizing tool, and a surge chamber coupled to the fluid delivery line and adapted to receive fluid from the fluid delivery line so as to provide a gas reservoir to prevent gas supply interruptions; and (h) an on-board vessel associated with the fluid-utilizing tool and at the relatively higher voltage thereof during operation of the fluid-utilizing tool, said on-board vessel being adapted for filling by said fluid supply source vessel during said operation or between successive periods of said operation, and if adapted to be filled during said operation, then comprising at least one fluid management apparatus (a)-(g). |
