Dual method subsea chemical delivery and pressure boosting

What is claimed is: 1. A method to minimize the overall cost from both a manufacturing and installation perspective for modular subsea chemical injection system comprising a power and communications umbilical termination module to be operatively connected to an umbilical that lacks a chemical delivery conduit, a power and communications umbilical terminator to be operatively connected to the umbilical where the power and communications umbilical terminator comprises a data communications port and an electrical power port, a power and communications foundation module comprising a subsea electronics module operatively in communication with the power and communications umbilical terminator data communications port and further comprising an electrical power distributor operatively in communication with the power and communications umbilical terminator electrical power port, a fluid storage module operatively in communication with the subsea electronics module and the electrical power distributor and comprising a plurality of fluid storage bays adapted to selectively receive a corresponding plurality of high and/or low flow fluid storage units, a pump module operatively in communication with the subsea electronics module and the electrical power distributor and the fluid storage module and comprising a plurality of pump bays adapted to selectively receive a corresponding plurality of high fluid flow and/or low fluid flow pumps, and a fluid distribution unit in fluid communication with a pump module fluid port, the method comprising: a. providing the umbilical that lacks a chemical delivery conduit; b. operatively connecting the umbilical to the power and communications umbilical termination module and the power and communications umbilical terminator; c. disposing the fluid storage module on a seafloor adjacent to a well site, the fluid storage module configured to selectively provide low fluid flow requirement fluids and high fluid flow requirement fluids for the well; and d. selectively providing low and high flow fluid delivery by use of subsea storage and pressure boosting for low flow fluid needs and high flow fluid needs. 2. The method of method to minimize the overall cost from both a manufacturing and installation perspective of claim 1 , further comprising: a. providing a dedicated flowline from a host facility to the well; and b. using the dedicated flowline to provide high flow fluid to the well for high flow needs. 3. The method of method to minimize the overall cost from both a manufacturing and installation perspective of claim 1 , further comprising using a pump from the high fluid flow and/or low fluid flow pumps to boost fluid pressure subsea from the fluid storage module for high flow chemical requirements. 4. The method of method to minimize the overall cost from both a manufacturing and installation perspective of claim 3 , further comprising allowing a low pressure flowline to supply a fluid whose fluid pressure is to be boosted by the pump. 5. The method of method to minimize the overall cost from both a manufacturing and installation perspective of claim 1 , further comprising boosting fluid flow pressure from ambient to that required for injection into a production stream. 6. A modular subsea chemical injection system, comprising: a. a power and communications umbilical termination module configured to be operatively connected to an umbilical that lacks a chemical delivery conduit; b. a power and communications umbilical terminator configured to be operatively connected to the umbilical, the power and communications umbilical terminator comprising a data communications port and an electrical power port; c. a power and communications foundation module, comprising: i. a subsea electronics module operatively in communication with the power and communications umbilical terminator data communications port; and ii. an electrical power distributor operatively in communication with the power and communications umbilical terminator electrical power port; d. a fluid storage module operatively in communication with the subsea electronics module and the electrical power distributor, the fluid storage module comprising: i. a plurality of fluid storage bays adapted to selectively receive a corresponding plurality of high fluid flow and/or low fluid flow fluid storage units; and ii. a fluid storage module fluid port in fluid communication with the plurality of high fluid flow and/or low fluid flow fluid storage bays; e. a pump module operatively in communication with the subsea electronics module and the electrical power distributor, the pump module comprising: i. a plurality of pump bays adapted to selectively receive a corresponding plurality of pumps, at least one pump being in fluid communication with the fluid storage module fluid port; ii. a fluid port in fluid communication with the plurality of pump bays; and iii. a pump module fluid port in fluid communication with the plurality of pump bays; and f. a fluid distribution unit, comprising: i. a distribution fluid port in fluid communication with the pump module fluid port; ii. a fluid distribution unit fluid supply port in fluid communication with the distribution fluid port; and iii. a fluid metering valve disposed intermediate the distribution fluid port and the fluid distribution unit fluid supply port. 7. The modular subsea chemical injection system of claim 6 , further comprising a subsea control module (SCM) in fluid communication with the fluid distribution unit fluid supply port. 8. The modular subsea chemical injection system of claim 7 , wherein the power and communications foundation module further comprises an integral SCM power and data communications port operatively in communication with the SCM. 9. The modular subsea chemical injection system of claim 7 , wherein the power and communications umbilical termination module further comprises a non-integral SCM power and data communications port operatively in communication with the SCM. 10. The modular subsea chemical injection system of claim 6 , further comprising a subsea processing system, the subsea processing system further comprising: a. a subsea processing system fluid inlet port in fluid communication with the fluid distribution unit fluid supply port; b. a subsea processing system fluid outlet port; and c. a fluid delivery booster in fluid communication with the subsea processing system fluid inlet port and the subsea processing system fluid outlet port. 11. The modular subsea chemical injection system of claim 10 , further comprising a subsea control module (SCM) comprising a distribution port in fluid communication with the fluid distribution unit fluid supply port and an SCM fluid port in fluid communication with the subsea processing system fluid inlet port. 12. The modular subsea chemical injection system of claim 10 , further comprising a host facility operatively connected to the power and communications umbilical, the host facility in fluid communication with the subsea processing system fluid outlet port. 13. The modular subsea chemical injection system of claim 6 , wherein the power and communication umbilical termination module comprises a low voltage power outlet and a high voltage power outlet. 14. The modular subsea chemical injection system of claim 6 , wherein the fluid port comprises a high flow fluid port in fluid communication with the plurality of pump bays. 15. The modular subsea chemical injection system of claim 6 , wherein: a. the pump module comprises a low fluid flow pump or a high fluid flow pump; and b. the fluid storage module