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NEW GREEN CIVILIZATION

| INDEX / NEW GREEN INDUSTRY |
 
01
NEW GREEN INDUSTRY
NATURAL GAS INDUSTRY
 
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SPEZIFICATION DATA 5 MW NATURAL GAS TURBINE from SIEMENS for 125ha Algae-Farm
Leistung  5,05 MW(e) / (5,4 MW(e))
Brennstoff  Erdgas/ Flüssigbrennstoff / Zweibrennstoff; andere Brennstoffe auf Anfrage
Automatische Umschaltung zwischen Primär- und Sekundärbrennstoff unter beliebiger Last 
Frequenz  50/60 Hz
Elektrischer Wirkungsgrad  30,2 % / 31,0 %
Wärmeverbrauch  11,914kJ/kWh / (11,613kJ/kWh)
Turbinendrehzahl  17.384 U/min
Verdichter-Druckverhältnis  14.0:1 / 15,6:1
Abgasmassenstrom / -temperatur  19.5kg/s, 545°C / 20,6 kg/s, 531°C
NOx Emissionen (mit DLE, umgerechnet auf 15 % O2 trocken)  ≤ 25 ppmV
CALCULATION:  
Version 1 29.10.2015 / CET 01.08
Version 2 30.10.2015 / CET 00:03
   
   
SPEZIFICATION DATA NATURAL GAS TURBINE 5,4 MW elec.
Operation Time 8600 h
Heat Consumption 3,22 kWh/kWh
Natural Gas Energy 10-14 kWh/kg
Energy Production GAS-TURBINE/GENERATOR + Energy-STORE 150.000.000 kWh (thermisch)
  46.350.000 kWh (electro)
Natural Gas Consumption (CH4,Ethan,Propan) 12.500 t/a : /a = per year (12 kWh/kg)
CO2 Production from Natural Gas 34.700 t/a (after infos from internet)
Reaction Formula from Methane, CH4 CH4 + 2O2 ---> CO2 + 2H2O ; Atommass 16 + 64 ---> 44 + 36
CO2 Production Diesel 13.150 t/a (38.500 t/a)
   

   
CARBON (C) in EXHAUST from GAS-TURBINE 8.375 t/a
Calculation formula from natural gas fuel 12.500 t/a Atommass C = 12 ; Atommass H = 4 ; C/C-H4 = 0,67
   
CARBONDIOXID (CO2) in EXHAUST from GAS-TURBINE 30.700 t/a
Calculation formula from carbon (C) 8.810 t/a Atommass C = 12 ; O = 16 : CO2/C = 44/12 = 3,67
   
SPEZIFICATION DATA ALGAE CULTIVATION AGDO PHOTOBIOREACTOR Version 4
   
1. Algae-Farm Production CARBON capture (AGDO CONCEPT) / min. 48 t/ha Carbon ( 80 t/ha (dry) Algae Biomass )_60%
2. Algae-Farm Production CARBON capture (AGDO CONCEPT) 75 t/ha Carbon ( 125 t/ha (dry) Algae Biomass )_60%
3. Algae-Farm Production CARBON capture (AGDO CONCEPT) 110 t/ha Carbon ( 170 t/ha (dry) Algae Biomass )_60%
4. Algae-Farm Production CARBON capture (AGDO CONCEPT) 120 t/ha Carbon ( 200 t/ha (dry) Algae Biomass )_60%
5. Algae-Farm Production CARBON capture (AGDO CONCEPT) / max. 160 t/ha Carbon ( 260 t/ha (dry) Algae Biomass )_60%
   
ALGAE CULTIVATION / AREA 125 ha / 1,2km x 1,2km
   
1. Algae-Farm Production CARBON capture (AGDO CONCEPT) / min. 6.000 t/a (dry)
2. Algae-Farm Production CARBON capture (AGDO CONCEPT) 9.375 t/a (dry)
3. Algae-Farm Production CARBON capture (AGDO CONCEPT) 13.750 t/a (dry)
4. Algae-Farm Production CARBON capture (AGDO CONCEPT) 15.000 t/a (dry)
5. Algae-Farm Production CARBON capture (AGDO CONCEPT) / max. 19.500 t/a (dry)
   
ENERGY CONSUMPTION 125 ha ALGAE-FARM
   
2 Shift Operation / Mo.-Fr. 3840 h per year
Algae-Farm min. Energy for Pumps per ha 50 kW/ha * 0,5 X 8760h per year = 219.200 kWh/ha elec.
Algae-Farm min. Energy for Pumps 125 ha 27.375.000 kWh (electro)
Rest Energy for operation for production hydrocarbons 16.625.000 kWh (electro)
Algae-Farm 125 ha + Equipment + Refinery + CO2-Recycler need Energy 44.000.000 kWh (electro) / SUM
+ WASTEHEAT RECYCLING / max. 100.000.000 kWh/a + Fischer-Tropsch Process + Carbonator
CARBON (C) & CARBONDIOXID (CO2) CAPTURE 125 ha Algae-Farm
   
ALGAE YIELD 200 t/ha (dry)
CARBON (C) CAPTURE WITH ALGAE 15.000 t/a
Calculation constante quantity from carbon (C) to carbondioxid (CO2) Atommass C = 12 ; O = 16 : CO2/C = 44/12 = 3,67
CARBONDIOXID (CO2) CAPTURE WITH ALGAE ( C [t/a] x 3,67 ] 55.000 t/a
ALGAE YIELD 125 t/ha (dry)
CARBON (C) CAPTURE WITH ALGAE 9.375 t/a
Calculation constante quantity from carbon (C) to carbondioxid (CO2) Atommass C = 12 ; O = 16 : CO2/C = 44/12 = 3,67
CARBONDIOXID (CO2) CAPTURE WITH ALGAE ( C [t/a] x 3,67 ] 34.400 t/a
ALGAE YIELD 126 t/ha (dry)
CARBON (C) CAPTURE WITH ALGAE 9.450 t/a
Calculation constante quantity from carbon (C) to carbondioxid (CO2) Atommass C = 12 ; O = 16 : CO2/C = 44/12 = 3,67
CARBONDIOXID (CO2) CAPTURE WITH ALGAE ( C [t/a] x 3,67 ] 34.700 t/a
ALGAE YIELD** 260** t/ha (dry)
CARBON (C) CAPTURE WITH ALGAE 19.500 t/a (dry)
Calculation constante quantity from carbon (C) to carbondioxid (CO2) Atommass C = 12 ; O = 16 : CO2/C = 44/12 = 3,67
CARBONDIOXID (CO2) CAPTURE WITH ALGAE ( C [t/a] x 3,67 ] 71.500 t/a
   
SPEZIFICATION DATA (ECO/BIO) HYDROCARBONS PRODUCTION
   
ALGAE YIELD 230 t/ha (dry)
CARBON (C) CAPTURE WITH ALGAE 17.300 t/a
CARBON USE EFFECTIVENESS (+ CO2-RECYCLER) 90%
CARBON PRODUCTION: 15.600 t/a
HYDROCARBONS PRODUCTION WITH special Gasifier + Fischer-Topsch Reactor 12.500 t/a (Methan C5 ,.., C30)
  CnH2n (Atommass C=12 ; H = 1 ; CnH2n/Cn = 1,17) 1,25
SPEZIFICATION DATA ALGAE GROWTH QUANTITY/ha  
   
**| Algae Nannochloropsis oculata 1 g (dry) / Liter * d (12h)
AGDO Photobioreactor Version 4 ; (600 x 1200)Liter/ha ; SUM 720.000 Liter = 260 t/ha*a (max. possible by optimal environment)
   
max. Algae yield: 30 g/ m2 & day with AGDO-Photobioreactor Version 4 130 t/ha (dry) : 600 Units * 20 m2 (4m x high 5m)
max. Algae yield: 30 g/ m2 & day with AGDO-Photobioreactor Version 4.2 260 t/ha (dry) : 600 Units * 40 m2 (4m x high 10m) (to test)
or (125 ha x 2 = 250 ha with) use the natural gas turbine rotary for pump 260 t/2ha (to be check up) /Energy reduction for pumps / Pneu./Hydr.
or/and constant Temperature 25°C over year (+ 500% Algae) Growth (after Information from G.K.)
GtL / GAS TO LIQUID  
fossil METHAN-TO-LIQUID NEED MUCH MORE ENERGY Steamreforming: | GOTO / CALCULATION |
  (Recycling waste heat reduces the energy losses)
GAS-TO-LIQUID HTR (High Temperatur Reactor ) from _Russland: Polymerbenzin + High Energy