Systems for measuring electric resistance and relation between applied pressure and streaming potential across the membrane and utility thereof

What is claimed is: 1. An apparatus for measuring a net charge density of a membrane, comprising: a membrane permeation measurement module, comprising a chamber, two electrodes disposed in the chamber, a target membrane to be measured, and a solution, for measuring permeation rate caused by a pressure difference ΔP between two surfaces of the target membrane and electroosmotic volumetric flow rate caused by an electric field applying across the target membrane; a pressure measurement module, for measuring the mechanical pressure difference ΔP between the two surfaces of the target membrane; and a streaming potential measurement module, for measuring the streaming potential Ē across the target membrane; and a control module, for controlling measurement procedures and collecting data from each module to calculate the net charge density ρ E of the target membrane per unit volume according to the relation of the mechanical pressure difference ΔP and the streaming potential Ē, by the following equation (7): ρ E =−( Ē/ΔP )*(μ∈ k m /K p )  (7) where ∈k m represents the product of the porosity ∈ and average electrical conductivity k m of the target membrane, μ represents viscosity of the solution, and K p represents permeability; and wherein the product of the porosity ∈ and average electrical conductivity k m of the target membrane is acquired by measuring electric resistance of the target membrane. 2. The apparatus according to claim 1 , further comprising: a membrane electric resistance measurement module, for measuring resistance of the target membrane. 3. The apparatus according to claim 1 , wherein the membrane permeation measurement module further comprises: a temperature controller, for controlling the chamber at a fixed temperature; a pump, for transporting the solution into the chamber; an electronic balance, for measuring a flow quantity of the solution flowing through the target membrane and outputting the flow quantity; and a power supply, electrically coupled to the two electrodes of the membrane permeation measurement module. 4. The apparatus according to claim 1 , wherein the pressure measurement module comprises: a pressure valve, for controlling and applying a pressure on the two surfaces of the target membrane to generate a mechanical pressure difference ΔP across the target membrane; and a pressure sensor, for measuring the mechanical pressure difference ΔP and outputting the mechanical pressure difference ΔP. 5. The apparatus according to claim 1 , wherein the streaming potential measurement module comprises: a high impedance voltmeter, for measuring voltage between the two electrodes when the solution passes through the target membrane and outputting the voltage. 6. The apparatus according to claim 1 , wherein the membrane electric resistance measurement module comprises: a membrane resistance measurement container; two electrode plates, disposed in the membrane resistance measurement container and having a specific distance between the two electrode plates; a solution, filled in the membrane resistance measurement container; an AC power supply, for supplying power between the two electrode plates; two voltmeters, one of which is electrically coupled to the two electrode plates and the other of which has one end electrically coupled to the AC power supply and has the other end electrically coupled to one of the two electrode plates to measure voltages and currents; wherein under a specific voltage the variation of currents between the two electrodes is measured while the target membrane is installed in between or is not installed and then the resistance of the target membrane is calculated from the above relation of current variation based on Ohm's law. 7. An apparatus for measuring resistance of a membrane, comprising: a membrane resistance measurement container; two plate-electrodes, disposed in the membrane resistance measurement cell and having a specific distance between the two electrode plates; a solution, filled in the membrane resistance measurement cell; an AC power supply, for supplying power between the two electrode plates; two voltmeters, one of which is electrically coupled to the two electrode plates and the other of which has one end electrically coupled to the AC power supply and has the other end electrically coupled to one of the two electrode plates to measure voltages and currents; and a control module, for controlling measurement procedures and collecting data from each module to calculate the net charge density ρ E of the target membrane per unit volume according to the relation of the mechanical pressure difference ΔP and the streaming potential Ē, by the following equation (7): ρ E =−( Ē/ΔP )*(μ∈ k m /K p )  (7) where ∈k m represents the product of the porosity ∈ and average electrical conductivity k m of the target membrane, μ represents viscosity of the solution, and K p represents permeability; and wherein the product of the porosity ∈ and average electrical conductivity k m of the target membrane is acquired by measuring electric resistance of the target membrane, and wherein under a specific voltage the variation of currents between the two electrodes is measured while the target membrane is installed in between or is not installed and then the resistance of the target membrane is calculated from the above relation of current variation based on Ohm's law.