Carbon Metrics
Fixation Rate
0.000 g/L/h
Laju serapan CO2
Carbon Fixation Rate
Kecepatan alga mengubah CO2 menjadi biomassa.
f = (CO2_In - CO2_Out) * Flow
Optimum: > 0.5 g/L/h
Capture Eff.
0.0 %
Efektivitas tangkapan
Capture Efficiency
% Gas CO2 yang terserap sistem.
Eff = (Delta CO2 / CO2_In) * 100
Optimum: > 80%
Biomass
0
mg/L (Dry)
Est. Biomass
Estimasi berat kering alga dalam cairan.
Est = Turbidity * Factor
Optimum: 2000 - 3000 mg/L
O2 Prod
0
mg/min
O2 Production
Laju produksi oksigen murni.
O2 = Fixation * PQ
Optimum: Maximal
Bio-Analytics
DIC (Stock)
0.0 mM
Dissolved Inorganic Carbon
Total karbon terlarut siap konsumsi.
f(pH, Temp, Pressure)
Optimum: 2.0 - 5.0 mM
PQ (Meta)
0.0
Photosynthetic Quotient
Rasio O2 Rilis / CO2 Serap.
PQ = O2_Out / CO2_Consumed
Optimum: 1.0 - 1.3
LUE (Light)
0.0 %
Light Utilization Eff.
Efisiensi konversi foton ke biomassa.
LUE = Energy_Bio / Energy_Light
Optimum: 3 - 5%
Growth (µ)
0.0 /h
Specific Growth Rate
Laju pembelahan sel per jam.
µ = ln(X2/X1) / dt
Optimum: 0.05 - 0.10 /h
Expert Eng.
kLa (Gas)
0.0 /h
Volumetric Mass Transfer
Efisiensi perpindahan gas ke cairan.
kLa = f(Flow, Viscosity)
Optimum: > 30 /h
RQ (Stress)
0.0
Respiratory Quotient
Indikator stress/kanibalisme.
RQ = CO2_Prod / O2_Cons
Optimum: < 0.8
EROI
0.0
Energy Return On Investment
Rasio kalori biomassa vs listrik.
EROI = E_Out / E_In
Optimum: > 1.5
Harvest
--h
Harvest Prediction
Estimasi jam menuju panen.
Time = (Target-Current)/Rate
Optimum: < 24 Hours
Process Dynamics
Shear Rate
0.0 1/s
Shear Stress
Tekanan fisik pada sel akibat aerasi.
Shear = Flow * Factor
Optimum: < 200 1/s
Gas Hold-up
0.0 %
Gas Hold-up Ratio
Persentase volume gas yang tertahan.
ε = V_gas / V_reactor
Optimum: 5 - 15%
N-Uptake
0.0 mg/h
Nitrogen Uptake Rate
Laju konsumsi nutrisi.
N_up = Fixation / 6
Optimum: Balanced
Shadow
0.0 %
Shadow Factor
Persentase cahaya yang terblokir.
S = 1 - e^(-Turbidity)
Optimum: < 90%
Real Costing (BI)
OPEX Rate
Rp 0/h
Operational Expenditure
Biaya per jam (Listrik + Dosing).
Cost = (Watt*Tarif) + (Dosing*Harga)
Optimum: Minimal
Gross Profit
Rp 0
Gross Profit (Batch)
Keuntungan kotor = Revenue - Biaya.
Profit = Revenue - Total_OPEX
Optimum: Maximal
Unit Cost
Rp 0/g
HPP (Harga Pokok Produksi)
Modal untuk 1 gram alga.
HPP = Total_Cost / Total_Gram
Optimum: Minimal
C-Credit Val
$ 0.0
Carbon Credit Value
Pendapatan dari sertifikat karbon.
Val = Ton_CO2 * Market_Price
Optimum: Maximal
C-Credit Vol
0.0 Ton/Yr
Est. Carbon Volume
Total massa CO2 yang diserap per tahun.
Mass = Rate * 24h * 365d
Optimum: Maximal
Chlorella vulgaris
Habitat: Freshwater | Use: Biofuel & Feed
INTAKE
EXHAUST
REACTOR STATUS
INITIALIZING
AI PREDICTION (1h)
Connecting to Neural Engine...
Accuracy: 94.2%
Real-time Sensors
Temp (°C)--
Temperature
Range: 20 - 30 °C
pH Level--
Acidity (pH)
Range: 7.0 - 8.5
DO (mg/L)--
Dissolved Oxygen
Target: > 6.0 mg/L
Nitrate (mg/L)--
Nitrate Level
Range: 2 - 10 mg/L
Pressure (Bar)--
Tank Pressure
Safe: 1.0 - 1.5 Bar
PAR (µmol)--
Photosynthetic Radiation
Optimum: 500 - 1500
CO2 In (%)--
CO2 Injection
Range: 5 - 15%
CO2 Out (%)--
CO2 Exhaust
Target: < CO2 In
Biomass (OD)--
Optical Density
Growth: Increasing
Flow (L/m)--
Gas Flow Rate
Range: 2 - 5 L/m
Power (Watt)--
Energy Usage
Target: Minimal
Nutrient (mL/m)--
Dosing Rate
Target: Demand Based