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The present invention can include a reverse osmosis unit, a control system, a display, and/or a memory. The reverse osmosis unit can include a filtration unit, a liquid utilization system, and/or an instrumentation system. The filtration unit includes a plurality of filter banks which each have a pl

The present invention can include a reverse osmosis unit, a control system, a display, and/or a memory. The reverse osmosis unit can include a filtration unit, a liquid utilization system, and/or an instrumentation system. The filtration unit includes a plurality of filter banks which each have a plurality of filter unit. The filtration unit receives a feed liquid and generates permeate and concentrate. The permeate is sent to the liquid utilization system, while the concentrate is removed. The instrumentation system can include a plurality of sensors to detect operational data of the feed liquid, permeate, and/or concentrate. Using the operational data and equations, the control unit can calculate the normalized permeate flow rate indicating whether the filters should be cleaned and/or replaced. The operational data and the equations can be used to determine whether the pressure and/or flow can be manipulated without damaging the filters.

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1. A reverse osmosis system comprising: a reverse osmosis unit including a plurality of filter banks configured to pass permeate and generate concentrate;an instrumentation unit coupled to the reverse osmosis unit and having a plurality of sensors for sensing operational data of the reverse osmosis

1. A reverse osmosis system comprising: a reverse osmosis unit including a plurality of filter banks configured to pass permeate and generate concentrate;an instrumentation unit coupled to the reverse osmosis unit and having a plurality of sensors for sensing operational data of the reverse osmosis unit, the plurality of sensors including a flow sensor configured to detect a permeate flow rate of the permeate and a dissolved solid detection unit configured to detect an amount of dissolved solids in the concentrate;a processor coupled to the instrumentation unit and configured to calculate a normalized permeate flow rate based on the operational data including the permeate flow rate and the amount of dissolved solids in the concentrate and to determine whether to clean or replace the plurality of filter banks based on the normalized permeate flow rate; anda display coupled to the processor and configured to display data indicating whether to clean or replace at least one of the plurality of filter banks. 2. The system of claim 1 wherein the reverse osmosis unit is configured to receive feed liquid, the instrumentation unit includes a temperature sensor configured to detect a temperature of the feed liquid, and the operational data includes the temperature of the feed liquid. 3. The system of claim 1 wherein the instrumentation unit includes a second flow sensor configured to detect a concentrate flow rate of the concentrate and the operational data includes the concentrate flow rate. 4. The system of claim 1 wherein the reverse osmosis unit is configured to receive feed liquid, the instrumentation unit includes a second dissolved solid detection unit configured to detect an amount of dissolved solids in the feed liquid, and the operational data includes the amount of dissolved solids in the feed liquid. 5. The system of claim 1 wherein the reverse osmosis unit is configured to receive feed liquid, the instrumentation unit includes a first pressure sensor configured to detect a feed pressure of the feed liquid, and the operational data includes the feed pressure. 6. The system of claim 5 wherein: the plurality of filter banks includes a first filter bank and a second filter bank,the second filter bank is configured to receive a concentrate of the first filter bank,the instrumentation unit includes a second pressure sensor configured to detect a rejection pressure of the first filter bank corresponding to a pressure of the concentrate of the first filter bank, andthe operational data includes a first pressure differential indicating a pressure differential between the feed pressure and the rejection pressure of the first filter bank. 7. The system of claim 6 wherein the instrumentation unit includes a third pressure sensor configured to detect a rejection pressure of the second filter bank corresponding to a pressure of a concentrate of the second filter bank, and the operational data includes a second pressure differential indicating a pressure differential between the rejection pressure of the first filter bank and the rejection pressure of the second filter bank. 8. The system of claim 7 wherein the processor is further configured to analyze the first pressure differential and the second pressure differential to determine whether to increase or decrease the feed pressure. 9. The system of claim 8 wherein the instrumentation unit includes a recovery detection unit configured to detect a percent recovery of the feed liquid, and the operational data includes the percent recovery of the feed liquid. 10. The system of claim 9 wherein the processor is further configured to determine whether to increase or decrease the feed pressure based on the percent recovery of the feed liquid, the first pressure differential, and the second pressure differential. 11. A reverse osmosis system comprising: a reverse osmosis unit including a first filter bank and a second filter bank and configured to receive feed liquid, pass permeate and generate concentrate;a first pressure sensor configured to detect a feed pressure of the reverse osmosis unit;a second pressure sensor configured to detect a rejection pressure of the first filter bank corresponding to a pressure of concentrate of the first filter bank;a third pressure sensor configured to detect a rejection pressure of the second filter bank corresponding to a pressure of concentrate of the second filter bank;a permeate sensor configured to detect a permeate flow rate of the permeate;a dissolved solid detection unit configured to detect an amount of dissolved solids in the concentrate of the reverse osmosis unit;a processor configured to calculate a normalized permeate flow rate based on the feed pressure, the rejection pressure of the first filter bank, the rejection pressure of the second filter bank, the permeate flow rate and the amount of dissolved solids in the concentrate, determine whether to clean or replace at least one of the first filter bank or the second filter bank based on the normalized permeate flow rate and determine whether a yield of the permeate can be improved based on the normalized permeate flow rate; anda display connected to the control unit and configured to indicate when to clean or replace at least one of the first filter bank or the second filter bank. 12. The system of claim 11 wherein the processor is further configured to determine a first pressure differential indicating a first pressure differential between the feed pressure and the rejection pressure of the first filter bank, and a second pressure differential indicating a pressure differential between the rejection pressure of the first filter bank and the rejection pressure of the second filter bank. 13. The system of claim 12 further comprising a recovery detection unit for detecting a percent recovery of the feed liquid, wherein the processor is further configured to determine whether to increase or decrease the feed pressure based on the percent recovery of the feed liquid, the first pressure differential, and the second pressure differential. 14. The system of claim 13 further comprising a temperature sensor configured to detect a temperature of the feed liquid, and a second dissolved solid detection unit configured to detect an amount of dissolved solids in the feed liquid, wherein the processor is further configured to determine whether to clean or replace at least one of the first filter bank or the second filter bank based on the percent recovery of the feed liquid and the amount of dissolved solids in the feed liquid. 15. A system comprising: a first filter for receiving feed liquid, generating a first concentrate and passing a first portion of a permeate;a second filter for receiving the first concentrate, generating a second concentrate and passing a second portion of the permeate;an initial pressure sensor configured to detect a pressure of the feed liquid;a first pressure sensor configured to detect a pressure of the first concentrate;a second pressure sensor configured to detect a pressure of the second concentrate;a flow sensor configured to detect a flow rate of the permeate;a dissolved solid detection unit configured to detect an amount of dissolved solids in at least one of the first concentrate or the second concentrate;a processor configured to calculate a normalized flow rate based on the pressure of the feed liquid, the pressure of the first concentrate, the pressure of the second concentrate, the flow rate of the permeate, and the amount of dissolved solids in the at least one of the first concentrate or the second concentrate, determine a normalized pressure differential based on the pressure of the feed liquid and the flow rate of the permeate, determine whether a percentage of the permeate relative to the feed liquid can be increased based on the normalized pressure differential, and determine whether to clean or replace at least one of the first filter or the second filter based on the normalized flow rate; anda display configured to output data corresponding to the determination of whether to clean or replace the at least one of the first filter or the second filter. 16. The system of claim 15 wherein the processor is further configured to determine a first pressure differential between the pressure of the feed liquid and the pressure of the first concentrate, and a second pressure differential between the pressure of the first concentrate and the pressure of the second concentrate. 17. The system of claim 16 further comprising a recovery detection unit configured to detect a percent recovery of the feed liquid corresponding to a ratio between an amount of received feed liquid and an amount of passed permeate, wherein the processor is further configured to determine whether to increase or decrease the pressure of the feed liquid based on the percent recovery of the feed liquid, the first pressure differential, and the second pressure differential. 18. The system of claim 17 further comprising a temperature sensor configured to detect a temperature of the feed liquid, a second flow sensor configured to detect a flow rate of the feed liquid, and a second dissolved solid detection unit configured to detect an amount of dissolved solids in the feed liquid, wherein the processor is further configured to determine whether to clean or replace the first filter or the second filter based on the temperature of the feed liquid, the flow rate of the feed liquid, and the amount of dissolved solids in the feed liquid.