COGIX

The so-called COGIX (COGeneration IndeX) is an indicator for the operating efficiency of CHP-plants, that receive revenues at the wholesale electricity market. It is similar to the spark spread resp. green spark spread including emission costs for greenhouse gases, which is a contribution margin calculated from fuel costs, emission costs and revenues from electricity sales. In the COGIX framework, also the revenues from heat sales of the CHP-plant are considered.

Index Calculation
The COGIX evaluates generalised assumptions on cogeneration plants and the current reference prices for input and output streams, such as fuel, greenhouse gases, electrical and thermal energy. The index is for the assessment of the economic situation of the whole cogen-industry, not for single CHP projects, thus the values for technical parameters (efficiency, power-to-heat ratio) should be chosen according to BAT or industry average. Prices refer to delivery at the system boundary of the CHP-plant, e.g. the price for the fuel includes a lump-sum for transportation costs and the estimated heat price has to consider distribution expenses.


 * $$ COGIX = p_{el} - \frac{p_{f} + e_{f} \cdot p_{CO_2}}{\eta_{el}^{CHP}} + \frac{p_{th}}{\sigma_{A}^{CHP}}$$

With

COGIX : contribution margin for cogenerated electricity in €/MWhel pel : electricity price in €/MWhel pth : heat price in €/MWhth pf : fuel price in €/MWhf pCO2 : CO2 price in €/tCO2e ef : fuel specific CO2 emissions in tCO2e/MWhf ηelCHP : electrical efficiency of the CHP-plant σECHP : energy-based power-to-heat ratio of the CHP-plant

Application
The COGIX has been developed in 2011 to analyse the situation of gas-fired cogeneration in the German energy market and is used regularly for an update. A practical figure for the value of heat turned out to be 1,3 times the price for natural gas. This estimate fits both for large industrial heat user and smaller heat customers in extensive district heating networks. As the power-to-heat ratio does affect the COGIX only insignificantly, a ratio of σ=1 is usually chosen normatively, as shown by small CCGT plants and large combustion engines in practical life. The standard assumption for the overall efficiency is 85%, resulting in thermal and electrical efficiencies of ηel = ηth = 42,5 %. The emission factor for national gas is 0,2 t per MWh fuel.

Generating capacity is usually sold on a long-term basis at the future market, therefore COGIX's variable reference prices (for baseload electricity, natural gas, -certificates) are also taken from the futures market, specifically the Y+1 segment with delivery in the following calendar year. Considering the wholesale gas price, an overall surcharge of €4 /MWh (based on the superior heating value Hs) has been added for transportation and structuring.


 * $$ COGIX_{gas} = p_{el} - 1,053 \cdot p_{gas} - 0,47 \frac{t_{CO_2e}}{MWh} \cdot p_{CO_2} $$

Roughly estimated, the COGIXgas is for current CHP technology the electricity price minus the natural gas price minus half the CO2 price.

Note: There is also the option to calculate a COGIX for coal-fired CHP plants with adjusted emission factors, efficiencies and fuel prices. The emission factor of hard coal is 0,34 t per MWh fuel. The coal-fired cogeneration plant has an assumed power-to-heat ratio of 0,7, this results in ηel = 35% and ηth = 50%. The estimation for the coal transportation costs is €2 /MWhfuel.


 * $$ COGIX_{coal} = p_{el} - 2,857 \cdot p_{coal} + 1,857 \cdot p_{gas} - 0,97 \frac{t_{CO_2e}}{MWh} \cdot p_{CO_2} $$