HYDROELECTRIC CORPORATION HOW TO Generate a superior energy balance, Without braking the law of physics

NEW PUMPING TECHNOLOGY CALCULATION OF costs

TO KEEP THE ENERGY COST AT A MINIMUM LEVEL, IT WILL BE REQUIRED TO UTILIZE PRESSURE BELOW SEALEVEL, AS ILLUSTRATED IN THIS VIDEO CLIP WITHOUT UTILIZING THE PRESSURE BELOW THE SEA SURFACE, IT WOULD NOT BE POSSIBLE to PUSH WATER ALL THE WAY 400 METER UPWARDS, AS DEMONSTRATED IN THE FOLLOWING CALCULATION: http://og-executives.com/calculations.xls

THE MODERN TECHNOLOGY OF WATER PUMPS IS BASED ON THE PRINCIPLE OF USING COMPRESSED AIR THIS TECHNOLOGY IS ESPECIALLY USED TO MOVE LARGE QUANTUM OF FLUID, LIKE SEWAGE REMOVAL 

HYDROELECTRIC CORPORATION HAS CONDUCTED A EXTENSIVE PROGRAM OF PILOT TESTING WHICH CONFIRMS THAT we ONLY NEED A SMAL AMOUNT of air TO MOVE MASSIVE AMOUNT OF FLUIDS IN THIS VIDEO CLIP A SMALL AMOUNT OF AIR IS RELEASED INTO A SUBMERGED PIPE 45M BELOW SEA LEVEL, WHICH THEN AGAIN PUSH MASSIVE AMOUNT OF FLUIDS UPWARDS

BASED ON A SENSITIVITY ANALYSIS, CONDUCTED BY A THIRD PARTY, WE ARE ABLE TO CALCULATE HOW MUCH AIR IS NEEDED TO MOVE 2 600 LITER OF WATER PER SECOND

THE ELECTRICITY USAGE (MW/h) DEPEND ON HOW MUCH WATER is provided in each pipe

THE SOLUTION IS BASED ON A DUAL PURPOSE SUBSEACABLE, WHERE ELECTRICITY TO OPERATED THE UNITS ARE PURCHASED FROM THE ONSHORE GRID HOWEVER, AND FOR US TO IMPROVE THE EBITDA MARGINS, we will USE A GAS OPERATED GENERATOR TO SUPPLY THE POWERPLANT WITH ELECTRICITY.

Production of: 44,488kwh*24hr*365days/1000/1000 gives a consumption of 389 GWh per year, 1,06 GWh a day, or 0,0444 GWh an hour TO OBTAIN AN SUPERIOR ENERGY BALANCE, THE NUMBER TO BEAT IS 389 GWh a YEAR

THE MOTORS WILL BE OPERATED AT 80% LOAD WHICH GIVES US A USAGE OF 320 GWH ANUALLY

Based on American MMBtu prices 2018, we get the following costs: 422,1 MMBtu/hr * 8760 hours a year * $ 2,88 MMBtu price per hr * 3 generators = $ 31,9 millions

Generation of electricity CALCULATION OF revenues

THE MW OUTPUT FOR A FRANCIS TURBINE HEAVILY DEPEND ON THE HEAD IN METERS

TO CALCULATE THE MW output of a flow, (WATER FEEDING THE WATER TURBINES), YOU MAY USE THE FOLLOWING LINK: https://www.engineeringtoolbox.com/hydropower-d_1359.html FLOW FOR EACH OF THE 3 PILLARS IS ESTIMATED TO BE: 79,2 M3/S HEAD FOR ALL 3 PILLARS IS ESTIMATED TO BE: 350 METER With a volume flow of 79.2 m3/s the power output is estimated to be 244 740 kw, or 244 mw, under the condition that the head pressure is 35 bars

HYDROELECTRIC CORPORATION solution is based on three Francis turbines consuming A MASSIVE AMOUNT OF WATER DEPENDING ON HIGHT WE EXPECT THAT EACH TURBINE PRODUCE 244 MW, GIVING A TOTAL OUTPUT OF 734 MW AN HOUR 244 mw * 3 = 734 mw 734 MW * 24 Hr a day = 17,6 GW a day

Based on kwh prices dated back in 2018 for New York, we get the following earnings:

ENERGY BALANCE ABT. $1 BILLION IN GROSS SALES ANNUALLY ABT. $ 20 MILL. IN MAINTENANCE ABT. $ 30 MILL. IN FUEL COSTS

All renewable energy produced offshore will be distributed to the onshore grid through a MASSIVE SUBSEA cable. Our intention is that one power plant supply electricity to other power plants close by, which then again reduce the exposure risk towards fluctuation of MMBtu prices. In a scenario where 6 power plants are operated by one MMBtu driven power plant, the electricity output would be more than 38 terawatt A YEAR, or 105 GIGAWATT A DAY