WHRS Tool -

Live calculation ready.

PH Recovered Heat

— kW

From preheater gas

AQC Recovered Heat

— kW

From cooler air

Total Recoverable

— kW

PH + AQC thermal energy

Boiler Duty

— kW

After η boiler

Steam Generated

— TPH

Equivalent steam

Turbine Output

— MW

Shaft power

Gross Power

— MW

After generator

Net WHR Power

— MW

After aux

Specific Power

— kWh/t

Per tonne clinker

Overall Efficiency

— %

Net/Total heat

Heat Rec. Ratio

— %

Captured / available

Stack Loss

— kW

Exhaust to atmos

CO₂ Reduction

— t/yr

Grid displacement

Payback

— yr

Simple estimate

Carbon Credits

— USD/yr

At $15/t CO₂

PH vs AQC Heat Recovery

Energy Balance

Monthly Generation Forecast

WHR System Performance Radar

Core Engineering Formulas

ṁ = V × ρ / 3600 (kg/s)

Q_recovered = ṁ × Cp × ΔT (kW)

Q_boiler = Q_total × η_boiler

Steam = Q_boiler / (Δh_steam − Δh_fw)

P_turbine = ṁ_st × Δh_turbine × η_turb

P_net = P_gross − P_aux (6‑12%)

Specific Power = kW_net / TPH_clinker

Industry Benchmarks

Cement WHR capacity: 4‑15 MW
Boiler efficiency: 72‑84%
Turbine efficiency: 80‑88%
Specific power: 12‑30 kWh/t
Overall WHR efficiency: 16‑26%
CO₂ avoidance: 30,000‑80,000 t/yr

Educational Notes

WHR captures waste heat from PH exhaust and AQC cooler air. Steam Rankine cycles operate at higher temperatures, ORC cycles use organic fluids for moderate temperatures. Hybrid systems maximize recovery across the temperature range. To improve performance, lower outlet temperatures, reduce auxiliary loads, and maintain high component efficiencies.

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PH vs AQC Heat Recovery

Energy Balance

Monthly Generation Forecast

WHR System Performance Radar

Core Engineering Formulas

Industry Benchmarks

Educational Notes

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PH vs AQC Heat Recovery

Energy Balance

Monthly Generation Forecast

WHR System Performance Radar

Core Engineering Formulas

Industry Benchmarks

Educational Notes