Onshore equipped ocean thermal and hydraulic energy conversion system and method

I claim: 1. An ocean thermal and hydraulic energy conversion system comprising: a closed loop assembly comprising a first pipeline filled with a working fluid, a working fluid pressurizer and a first turbine; a first heat exchanger; a water junction; a first water supply line adapted to transport high temperature water to the first heat exchanger and then to the water junction, wherein the first heat exchanger is adapted to evaporate the working fluid from a working fluid liquid into a working fluid vapor using the high temperature water, and the working fluid vapor powers the first turbine; a first generator connected to the first turbine and adapted to generate electricity by the powered first turbine; a second heat exchanger; a second water supply line adapted to transport low temperature water to the second heat exchanger and then to the water junction, wherein the second heat exchanger is adapted to condense the working fluid vapor to a working fluid liquid using the low temperature water; a hydraulic converter adapted to receive the high and low temperature water from the water junction and convert the hydraulic energy into electricity. 2. The energy conversion system of claim 1 , wherein the working fluid pressurizer is a liquid pump. 3. The energy conversion system of claim 1 , wherein the first heat exchanger is an evaporator. 4. The energy conversion system of claim 1 , wherein the second heat exchanger is a condenser. 5. The energy conversion system of claim 1 , wherein the hydraulic converter is a hydraulic turbine and second generator. 6. The energy conversion system of claim 1 , wherein the working fluid has a low boiling point. 7. The energy conversion system of claim 6 , wherein the working fluid is ammonia. 8. The energy conversion system of claim 1 , further comprising: a first water pump connected to the first water supply line adapted to pump high temperature water under pressure through the first water supply line; and a second water pump connected to the second water supply line adapted to pump low temperature water under pressure through the second water supply line. 9. The energy conversion system of claim 1 , wherein the second heat exchanger is adapted to condense the working fluid vapor that exits the first turbine. 10. An ocean thermal and hydraulic energy conversion system comprising: a closed loop assembly comprising a first pipeline filled with a working fluid, a pump and a first turbine; an evaporator; a water junction; a first water supply line adapted to transport high temperature water to the evaporator and then to the water junction, wherein the evaporator is adapted to evaporate the working fluid from a working fluid liquid into a working fluid vapor using the high temperature water, and the working fluid vapor powers the first turbine; a first generator connected to the first turbine and adapted to generate electricity by the powered first turbine; a condenser; a second water supply line adapted to transport low temperature water to the condenser and then to the water junction, wherein the condenser is adapted to condense the working fluid vapor exiting the first turbine to a working fluid liquid using the low temperature water; and a hydraulic converter adapted to receive the high and low temperature water from the water junction and convert the hydraulic energy into electricity. 11. The energy conversion system of claim 10 , wherein the hydraulic converter is a hydraulic turbine and second generator. 12. The energy conversion system of claim 10 , wherein the working fluid has a low boiling point. 13. The energy conversion system of claim 12 , wherein the working fluid is ammonia. 14. The energy conversion system of claim 10 , further comprising: a first water pump connected to the first water supply line adapted to pump high temperature water under pressure through the first water supply line; and a second water pump connected to the second water supply line adapted to pump low temperature water under pressure through the second water supply line. 15. A method for maximizing the energy conversion of an ocean thermal and hydraulic energy conversion system comprising the steps of: providing a closed loop assembly comprising a pipeline filled with a working fluid, a pump and a first turbine; pumping warm water from at or near the upper surface of the ocean in a first supply line to an evaporator and then to a junction; evaporating the working fluid from a liquid into a vapor using the warm water via an evaporator; powering the first turbine with the working fluid vapor; providing a first generator connected to the first turbine and the generator generating electricity by the powered turbine; pumping cold water from a lower portion of the ocean in a second supply line to a condenser and then to the junction; condensing the working fluid vapor exiting the first turbine to a liquid using the cold water via the condenser; and combining the warm and cold water at the junction and converting the hydraulic energy of the combined warm and cold water into electricity via a hydraulic converter. 16. The method of claim 15 , wherein the hydraulic converter is a hydraulic turbine and second generator. 17. The method of claim 16 , further comprising the step of returning the combined warm and cold water to the ocean after powering the hydraulic turbine.