The photovoltaic dairy of SYCOMOREEN : production and savings in CO2 dismissals

Note : Sycomoreen has published in this FAQ a very complete information about the photovoltaic issues.

EVALUATION PRODUCTION
CO2 BALANCE

EVALUATION OF PRODUCTION

To value the savings in CO2 dismissals, it is necessary to estimate the electric production first. A certain number of maps of the sunshine exists in France and 4 methods to evaluate the production of a solar installation.

METHOD n°1 :
DIRECT CALCULATION according to the local solar irradiation and the outputs of the installation.

Below, 2 maps of the solar energy received in France (WARNING : very different from the produced electric energy!).

France card of the average solar irradiation : received energy on a full south oriented surface with an angle of slope equal to the local latitude ; kWh/m²/day

France card of the average solar irradiation : received energy on a full south oriented surface with an angle of slope equal to the local latitude ; kWh/m²/day

The project is oriented full South with a slope of 50° on 74 m² and therefore the precedent maps are directly exploitable.

The photovoltaïc output is worth : 15% x 0,75 = 11,25%

The current panels have an output of 15%, however, the 0,75 factor is here because different effects generate losses :
- 5% of reflexion of solar rays,
- 15% because of the heating of the panels, what diminuates the output,
- 5% of electric losses (cables, connexions and converters)

The surface hit by the sun is worth 74 m².

With these hypotheses, the injected production on the electric network is :
- by using the left map (3,9 kWh/m²/day) : 3,9 x 365.25 x 74 x 0,1125 = 11 859 kWh
- by using the right map (1350 kWh/m²/year) : 1350 x 74 x 0,1125 = 11 239 kWh

METHOD n°2 :
INDIRECT CALCULATION according to the installed "kiloWatt peak"

It is necessary for it to know the installed peak power. The notion of kWp (kilowatt peak) corresponds to the power delivered by a panel of an adequate surface (depending on its efficiency) and irradiated in very precise conditions (flux of 1000 W / m² and solar light specter normalized AM 1,5).

One ordinarily admits that with the modern panels (2010), 8 m² of panel provide 1 kWp.

For an installation of 74 m², it makes 9,45 kWp.

A map of the levels of kWh/kWp is thus necessary. Here are the data taken from Hespul

correction factor of the levels kWh/kWc according to the orientation

And opposite, of other departmental data
source

These maps give an idea of the yearly electric production of a photovoltaic plant of 1 kWp. All this data are to ponder by the factor of orientation : 95%.

The photovoltaic farm of SYCOMOREEN stays near the triple boundary Cantal / Puy de Dôme / Haute Loire (15/63/43) and near of "1000 à 1100 kWh/kWc limit" of the opposite map.

Considering the altitude bringing a cool temperature, but also a slightly more intense brightness :
- in our case, we keep : 1100 kWh/kWp,
- then the plant would supply : 10 395 kWh

An other way is the online-calculation taken from the simulator PVGIS of European Commission which computes 10 600 kWh electric for 9.45 kWp installed on our solar powerplant.

METHOD n°3 :
CALCULATION with a Professional

on a "profession sofware" (doing various and precise scientific and financial evaluations (shadiness, subsidies ...)

"Cap Energy Pro ENR" example

(N.B. this picture is only an example and has no link with our project)

CO2 BALANCE

Extracted from Thermodynamique de l'ingénieur: énergétique - environnement

by Francis Meunier. Editeur: Dunod - Date of publication : Februar 12th, 2004

Values of national averages for CO2 dismissals by electric kWh for different countries
(source AIE)

Average of Europe of the 15 : 0,46 kg CO2 / kWh electric.

1. Sweden : 0,04 kg CO2 / kWh él. 2. France : 0,09 kg CO2 / kWh él. 3. Austria : 0,20 kg CO2 / kWh él.

4. Finland : 0,24 kg CO2 / kWh él. 5. Belgium : 0,29 kg CO2 / kWh él. 6. Spain : 0,48 kg CO2 / kWh él.

7. Italia : 0,59 kg CO2 / kWh él. 8. Germany : 0,60 kg CO2 / kWh él. 9. Holland : 0,64 kg CO2 / kWh él.

10. Greece : 0,64 kg CO2 / kWh él. 11. United Kingdom : 0,64 kg CO2 / kWh él. 12. Portugal : 0,64 kg CO2 / kWh él.

13. Ireland : 0,70 kg CO2 / kWh él. 14. Denmark : 0,84 kg CO2 / kWh él. 15. Luxembourg : 1,08 kg CO2 / kWh él.

One will notice the excellent swedish example (mainly hydraulic energy)
and also the very low values of France (nuclear 80% and hydraulics 15%)

The produced energy by the photovoltaïc dairy of SYCOMOREEN is about 11 000 kWh / year

1 electric kWh with renewable origin saves 0,46 kg of the CO2 dismissals,
based on the european electric mix (needing 0,46 kg/kWh electric consumed).

Thus, 5 060 kg / year of CO2 dismissals are avoided.
like an annual carbon well equivalent to the absorption CO2 from a surface of a french wood of about 0,7 ha (7 000 m²).
1 hectare of french wood = 7 tons de CO2 yearly fixed,, IFN's evaluation

However, on 25 years of life span guaranteed, only 21 years will be efficient for the carbon balance
Amortization and economy in CO2 of the photovoltaics

Amortization and economy in CO2 of the photovoltaics

according to outilssolaires.com

(4 years to pay back the CO2 costs for manufacturing and recycling the photovoltaïc panels,
and the plants are often maintaining themselves over 30 years)

THUS, THE PHOTOVOLTAIC DAIRY
REDUCES THE CO2 DISMISSALS
of at least 106 TONS

(on its life span guaranteed of 25 years)

like the CO2 dismissals of 6 cars browsing 140 000 km
(based on 125 g CO2/ km)

Finally, this modest project contributes to fulfill the European engagements taken by France
to hold at more than 20% the part of the renewable energies in her electric mix.

Let's not forget that the small streams make the big rivers...