Antifouling membrane filtration system

What is claimed is: 1. A membrane filtration system having antifouling properties, comprising: at least one functionalized filtration membrane having a plurality of carbon nanotubes and disposed in a cross-flow filtration module or filtration cell for filtering a liquid, the functionalized filtration membrane surrounded by the liquid; a plurality of microwave generators located outside the cross-flow filtration module or filtration cell that produces an area source of a microwave energy rather than a point source, the generators either fixed or movable around the filtration membrane for producing the microwave energy to treat the liquid, the microwave energy in direct or indirect contact with the liquid and the filtration membrane; a controller in communication with a sensor, a pressure gauge or a flux meter to monitor degree of fouling on the functionalized filtration membrane and automatically control a cleaning process when fouling reaches a preset level; the microwave generator emitting the microwave energy during the cleaning process forming a continuous or an intermittent microwave irradiation of a certain power or intensity over a controlled time interval; an interfacial nano-bubble formation in the liquid onto a functionalized membrane surface of the functionalized membrane, the nano-bubble formation providing an antifouling effect and a non-thermal effect caused by the microwave energy; the antifouling effect having a plurality of nano-bubbles that remove foulants from the membrane surface due to random Brownian motion; the non-thermal effect having a collapse of the nano-bubbles that forms a hot spot that induces decomposition of the liquid to form reactive hydroxyl radicals that degrade foulants; a cooling part to cool a feed solution source that supplies the liquid when circulating the feed solution through the membrane filtration system; and a cross-flow stream in the cross-flow filtration module where foulants or pollutants are removed by the microwave energy from the filtration membrane and carried away in the cross-flow stream or recycled back into the feed solution source. 2. The membrane filtration system of claim 1 , wherein the cross-flow filtration module further comprises: an inlet conduit for introducing the liquid into the filtration membrane; an outlet conduit for removing a liquid concentrate from the filtration membrane, and the inlet and outlet conduits open on both sides of the membrane filtration system in an axial direction; a permeate outlet conduit for removing a filtered fluid from the filtration membrane; wherein, the inlet conduit and the outlet conduit are in communication with a first surface of the filtration membrane and the permeate outlet conduit is in communication with a second surface of the filtration membrane, and the microwave generator producing the microwave energy is in contact with the liquid and the filtration membrane. 3. The membrane filtration system of claim 1 , wherein the microwave generator is a magnetron based microwave generator. 4. The membrane filtration system of claim 1 , wherein the filtration membrane is selected from a group consisting of a ceramic, a polymeric, a metallic, and any combinations thereof. 5. The membrane filtration system of claim 1 , wherein the filtration membrane has a geometric configuration selected from a group consisting of a flat sheet, a hollow fiber, a spiral wound, a tubular membrane, and any combinations thereof. 6. The membrane filtration system of claim 1 , wherein the filtration membrane is a porous filtration membrane and synthesized through deposition and cross-linking of carbon based materials. 7. The membrane filtration system of claim 6 , wherein the carbon based materials are selected from a group consisting of a graphite, an expanded graphite, a graphene, a carbon nanotubes (CNTs), and any combination thereof. 8. The membrane filtration system of claim 6 , wherein the filtration membrane is coated with a metal, an alloy, or a metal oxide microparticle or nanoparticle to form a functionalized membrane, wherein the metal, the alloy, or the metal oxide is based on at least one chemical element from a group that includes iron (Fe), bismuth (Bi), cobalt (Co), copper (Cu), silver (Ag), nickel (Ni), aluminum (Al), and any combinations thereof. 9. The membrane filtration system of claim 1 , wherein the filtration membrane is coated or blended or cross-linked with a material displaying strong microwave absorption. 10. The membrane filtration system of claim 1 , wherein the filtration membrane incorporates or is coated with a substance selected from the group consisting of carbon nanotubes (CNTs), graphene, metal particles, and any combination thereof for achieving at least antifouling effects, conductivity, selective adsorption, and antimicrobial activity. 11. A membrane filtration circuit having antifouling properties, comprising: a feed solution source; a pump connected to the feed solution source to provide a liquid for filtering; a filtration cell having a functionalized filtration membrane, the filtration cell to receive the liquid, and wherein the filtration cell further includes a plurality of rods and nuts that support and seal the filtration cell, an inlet conduit for the liquid to enter into the filtration cell, an outlet conduit for removing a liquid concentrate, and a permeate outlet conduit for transporting a filtered liquid, wherein the inlet and outlet conduits communicate with a first surface of the filtration membrane, at least one microwave generator to produce microwave energy, the microwave generator is in either direct or indirect contact with the liquid and the filtration membrane, and the microwave generator is either fixed or moveable around the filtration membrane a controller in communication with a sensor, a pressure gauge or a flux meter to monitor degree of fouling on the functionalized filtration membrane and automatically control a cleaning process when fouling reaches a preset level; the microwave generator emitting the microwave energy during the cleaning process forming a continuous or an intermittent microwave irradiation of a certain power or intensity over a controlled time interval; an interfacial nano-bubble formation in the liquid onto a functionalized membrane surface of the functionalized membrane, the nano-bubble formation providing an antifouling effect and a non-thermal effect caused by the microwave energy; the antifouling effect having a plurality of nano-bubbles that remove foulants from the membrane surface due to random Brownian motion; the non-thermal effect having a collapse of the nano-bubbles that forms a hot spot that induces decomposition of the liquid to form reactive hydroxyl radicals that degrade foulants; a cooling part to cool the feed solution source that supplies the liquid when circulating the feed solution through the membrane filtration circuit; and a cross-flow stream in the cross-flow filtration module where foulants or pollutants are removed by the microwave energy from the filtration membrane and carried away in the cross-flow stream or recycled back into the feed solution source. 12. The membrane filtration circuit of claim 11 , further including a raw solution source connected to the feed solution source, wherein the liquid concentrate is recycled back to the feed solution source, or sent to a waste receptacle. 13. The membrane filtration circuit of claim 11 , wherein the filtration membrane is surrounded by the microwave generator and the filtration membrane cell is either fixed or movable in any oriented direction to match various configurations of the filtration membran