Mechanical pressure converter for water desalination

1 . A pressure converter system for sustainably forcing saline water through a semi-permeable membrane, the pressure converter system comprising: a hydraulic oil pump; a hydraulic oil cylinder comprising pressurized oil generated from the hydraulic oil pump; a sustainable energy source for powering the hydraulic oil pump; a saline water cylinder containing saline water; wherein the hydraulic oil cylinder and the saline water cylinder are connected using a piston; and an electrical circuit for determining a direction of movement of the piston. 2 . The pressure converter system of claim 1 , wherein the electrical circuit comprises: a first limit switch; a second limit switch; and a solenoid valve; wherein the solenoid valve is triggered to switch a direction of movement of the piston, when the piston comes in contact with the first or second limit switch. 3 . The pressure converter system of claim 2 , wherein the first and second limit switches are positioned at a first end of the hydraulic oil cylinder and a second end of the saline water cylinder. 4 . The pressure converter system of claim 1 , wherein the electrical circuit further comprises: a voltage regulator; an RS flip-flop; and a relay. 5 . The pressure converter of claim 4 , wherein the voltage regulator controls a power provided to the first and second limit switches ensuring that the first and second limit switches do not overheat. 6 . The pressure converter system of claim 1 , wherein pressure from the pressurized oil is transmitted to the saline water contained within the saline water cylinder, resulting in pressurized saline water. 7 . The pressure converter system in accordance of claim 1 , wherein the system is used for transforming saline water into fresh water sustainably. 8 . The pressure converter system of claim 1 , wherein the sustainable energy source is a ducted windmill. 9 . The pressure converter system of claim 1 , wherein the system further comprises a plurality of relief valves to control an increase or decrease in pressure within the hydraulic oil cylinder and the saline water cylinder. 10 . The pressure converter system of claim 1 , wherein the hydraulic oil cylinder is a double acting cylinder. 11 . The pressure converter system of claim 2 , wherein the solenoid valve is a four-way valve. 12 . The pressure converter system of claim 1 , wherein the saline water cylinder is made of stainless steel for resisting salinity of the saline water being stored. 13 . The pressure converter system of claim 1 , wherein a plurality of hydraulic O-rings are positioned within the hydraulic oil cylinder and saline water cylinder. 14 . The pressure converter system of claim 1 , wherein a plurality of hydraulic seals are positioned within the saline water cylinder to separate fluids from the hydraulic oil cylinder and saline water cylinder. 15 . The pressure converter system of claim 1 , wherein the saline water cylinder is connected with a saline water reservoir. 16 . The pressure converter system of claim 1 , wherein the piston is extendable and retractable. 17 . A method of sustainably pressurizing seawater for penetrating through a semi-permeable membrane for desalination, the method comprising the steps of: retracting a piston from a first position to a second position owing to which oil flows through a hydraulic oil cylinder; wherein retraction of the piston creates a suction force within a seawater cylinder, thereby filling the seawater cylinder with seawater; switching a direction of movement of the piston when the piston comes in contact with a limit switch; pushing the seawater contained within the seawater cylinder towards the semi-permeable membrane; wherein the seawater being pushed out of the seawater cylinder is pressurized and capable of penetrating through the semi-permeable membrane. 18 . The method of claim 17 , wherein a solenoid valve is used for switching the direction of movement of the piston when in contact with the limit switch. 19 . The method of claim 17 , wherein movement of the piston is automatic. 20 . The method of claim 17 , wherein the piston is extendable and retractable.