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Current conditions for biogas and
biogas market in France
Claire Ingremeau
Engineer
ATEE Club Biogaz
French Biogas Association
14.01.2014 BIOGAS 23. Jahrestagung and Fachmesse
2
Summary
Current French biogas context
Energy production, number and type of plants, growing segment, biogas uses
Framework conditions
Law, economic and politic supports
Future development
Potential, governmental plans, energy transition scenario
3
Current French biogas context
4
French energy production
Renewable hydroelectric; 3,92
Wind power; 1,05
Photovoltaic; 0,17
Solar thermal; 0,06
Geothermal; 0,09
Heat pumps; 1,3
Renewable municipal waste; 1,25
Wood/wood waste; 8,87
Crop residues; 0,35
Biogas; 0,35
Bioethanol; 0,43 Biodiesel; 1,63
French renewable primary energy production in 2011 (Mtoe)
Renewable energy : 14% of total energy production
Biogas : 1,8 % of renewable energy production
Source : S0eS (2013)
TOTAL : 19,49 Mtoe
5
French biogas plants
Source : Ademe (2012), ErDF (June, 2013), Irstea (June 2013)
370 plants More than 246 MWélec connected
2,2 GWh produced
7%
7%
7%
5%
1%
73%
Installed electric power (2012)
Agriculture Territorial
Household waste Sewer sludge
Industrial Landfill
0
20
40
60
80
100
120
140
Number of French biogas plants in 2013
6
Growing segment : biogas in agriculture
Source : Ademe (2013)
Farm biogas development (2012)
Nb of operational plants Cumulative P (Mwe)
Power ranges of farm plants (2012)
Cumulative P (Mwe) Nb plants
7
Technology : great majority of « completely mixed », but dry process is in development
Main energy recovery : CHP (average Power=180kWe), biomethane in progress
Feedstock : manure is the mix basis, energy main crops are not subsidized, intermediate crops are privileged
French agriculture biogas scheme
Source : Ademe (2013), Irstea (2013)
63% 9%
4%
11%
13%
Feedstock (2012)
Manure
Agro-food wastes
Green wastes
Energy crops
Others wastes
8
Biogas uses
CHP : use of heat is required to obtain maximum electricity price
Biomethane injection has been possible since end of 2011
2013 : 3 plants (2 using household waste, 1 agriculture)
More than 400 projects : transport and distribution networks
Biomethane fuel : 4 plants
Natural gas for vehicles is little known
1st market to be developed : local council for dumpsters, buses, company vehicles
9
Framework conditions
10
Current regulations
Anaerobic digestion is now fully taken into account by law :
Specific “ICPE” (risk management, environment) regulation depending types and quantities of feedstock, files submitted at region level
Feed-in tariffs for electricity and biomethane
2013 last news :
Biomethane injection and CHP possible on the same plant (February 2013)
Electricity : bonus for manure use raises for medium sized plants (August 2013)
Expected developments :
Animal by products European regulation and his French application
Digestate use and Land Application Plans
11
AD support
Investment subsidies
By ADEME regional agencies : through request for proposal. Funds « Waste » (40 M€ in 2013)
By regional council
Subsidies represent 10 – 40 % of a plant investments
Feed-in tariffs
CHP : electricity prices reassessed in 2011
Biomethane feed-in possible since 2011
15 years contracts, purchase obligation
Traceability :
« Green certificate » for renewable electricity
Guarantee of origin certificates for biomethane
12
Feed-in tariffs
Electricity price :
↘ with power
↗ with % of
manure
↗ with energy
efficiency
02468
101214161820
Landfill (CHP) Digestion (CHP) Landfill (bioCH4) Digestion(bioCH4)
c€/k
Wh
Feed in tariffs
Minimum Maximum
Electricity price Biomethane price Biomethane price :
↘ with power
↗ with % of agriculture and agro-food substrates (dedicated energy
crops)
↗ with % of waste from community (excluding sewer sludge), households
and catering
Source : Arrêté du 23 novembre 2011, Arrêté du 19 mai 2011
13
Barriers to overcome
Economics : Low profitability High dependence on subsidies
Long administrative formalities
Simplification tests in progress, state agencies better understanding
Facilitate digestate use Land Application Plan are restrictive Only French standard : composted digestate Approval by agriculture ministry : first cases in 2013
Feedbacks will increase knowledge and facilitate uses
Public opinion AD is unknown, fear about gas explosion/transport/competition with food
Importance of communication, consultation around projects, increasing public knowledge, building a secure sector
14
Political will
2013 : national debate on energy transition
EMAA Action Plan (march 2013) : to develop anaerobic digestion and nitrogen autonomy
1 000 agricultural plants in 2020, collective plants, medium size, involved in their territory
Development of a French equipment network
Facilitate digestate use, under produce status, develop the use of organic fertilizers
15
Future development
16
Planned plants
Since 2011 : follow-up by compulsory statement to ADEME
Statement registered 6 months before electrical connexion request or biomethane sale purchase
AD Plants in the planning stage identified by ADEME (landfills are excluded)
Cumulative P (Mwe)
Nb identified
plants
Cu
mu
lati
ve
P (
Mw
e)
02/2
01
2
06/2
01
2
02/2
01
3
08/2
01
3
10/2
01
3
Source : Ademe (2013)
17
ADEME study about potential feedstock available for AD in 2030 :
132 Mt of raw matter, 90% from agriculture
56 TWh primary energy
Political will to make available biowaste from the biggest producers
Obligation to sort waste in order to use it in compost or AD
Potential feedstock for AD
Source : ADEME (2013), Arrêté du 12 juillet 2011
Eligible waste producers
Year Biowaste (t/year) Used edible oil (l/an)
2012 120 1500
2016 10 60
One step / year …
Biomass ressources in
primary energy (MWh/an)
67 000 – 75 000
4 000 000 – 5 600 000
18
National plans
(*) work in progress : foretold end of 2013
7 TWh biogas
2010
Grenelle de
l’Environnement
Heat/elec
tricity
12 TWh biogas
2020 National action plan
about renewable energies
Heat/electricity
entre 22 et 60 TWh biogas
2030 Roadmap project
ADEME(*)
Heat/electricity
Underlying Proactive
19
Forecasting scenarios
ADEME : French Environment and Energy Management Agency
négaWatt : a pro active scenario from a group of energy and economics experts
GrDF : gas grid operator
0
20
40
60
80
100
120
140
160
180
2013 2030 2050
Pri
mar
y p
rod
uct
ion
(TW
h)
Biogas production in 2030 and 2050 according to 3 scenarii
ADEME
négaWatt
At present
GrDF : *biomethane injectiononly
*
*
Source : ADEME (2013), négaWatt (2011), GrDF (2013)
20
Conclusion
Quick growth of French biogas sector since 2011 : agricultural and territorial plants
But economic weakness
Willingness to develop a French model :
Few/No dedicated energy crops
Tailor-made plants linked to their areas
French expertise and firms network
A successful start essential to future development :
Economics, industrial risks, environmental impacts …
21
French Environment and Energy Management Agency : ADEME
SINOE : french database about waste management, description of plants
Ministries of environment and agriculture
SOeS : Official statistics about environment, energy and sustainable development
Legifrance : French law website
French inter branch organisation :
www.biogaz.atee.fr
Find out more
ATEE Club Biogaz
+ 33 1 46 56 41 43
club.biogaz@atee.fr
Directory of French biogas sector
Claire INGREMEAU c.ingremeau@atee.fr + 33 1 46 56 41 42
22
Appendix
23
French primary energy production
111,7
82,6
40
21 9,8 1,3
French production : primary energy (Mtep)
Primary electricity non-renewable
Oil products
Gas
Renewable energy
Coal
Non renewable wastes
Source : Soes, 2011
24
Hors chauffage digesteur,
hygiénisation…(process
amont)
Electricity feed-in tariffs
Anaerobic digestion
Puissance maximale
installée
Tarif de base
( c€/kWh )
≤150 kW 13,37
300 kW 12,67
500 kW 12,18
1 000 kW 11,68
≥ 2 000 kW 11,19
Valeur de l’efficacité énergétique V Prime M ( c€/kWh )
V ≤ 35 % 0
V ≥ 70 % 4
Landfill
Puissance maximale
installée
Tarif de base
( c€/kWh )
≤150 kW 9,745
≥ 2 000 kW 8,121
Prime effluents d’élevage ( c€/kWh )
Pmax Pr max
≤300 kW 2,6
500 Kw 2,1
≥ 1 000 kW 0
Ef (% d’effluents) Valeur de Pr
≤ 20 % 0
≥ 60 % Pr max
Selon:
Pour tout: interpolation
linéaire entre les valeurs
25
Biomethane feed-in tariff
Anaerobic digestion
Débit maximal (Nm3/h) Tarif de base (c€/kWh)
≤50 9,5
100 8,65
150 7,8
200 7,3
250 6,8
300 6,6
≥ 350 6,4
Prime agricole (c€/kWh)
Débit maximal
(Nm3/h) Pr max
≤50 3
≥ 350 2
Landfill
Capacité
maximale de
production
C€/kWh PCS
≤ 50 Nm3/h 9,5
≥ 350 Nm3/h 4,5
Proportion de produits issus de cultures
intercalaires à vocation énergétique et des
déchets ou résidus provenant de l'agriculture, de
la sylviculture, de l'industrie agroalimentaire ou
des autres agroindustries
Proportion de déchets des collectivités (hors
boues de station d'épuration), déchets des
ménages et assimilés ou déchets de la
restauration hors foyer 0,5 c€/kWh
26
Recyclage matière organique de déchets ménagers prévu à 35% en 2012 et 45% en 2015 (Directive décharge du 26/04/1999 et Grenelle Environnement, Décret n° 2011-828 du 11 juillet 2011 et Arrêté du 12 juillet 2011 sur les biodéchets)
Biowaste availability
Article 204 loi Grenelle II: les personnes qui produisent des quantités importantes de déchets composés majoritairement de biodéchets sont tenues d’en assurer le tri à la source en vue de leur valorisation dès le 1er janvier 2012
27
Feedstock disponibility in 2030
Source : Estimation des gisements potentiels de substrats utilisables en méthanisation, ADEME, 2013
28
Digestate uses
Standard
Digestate
(as a fertilizer)
Product
User responsible
Waste
Producer responsible
Traceability
Article L255-2 du Code Rural
Get back to soil
Land application plan Approval by agriculture ministry
29
Bibliography
Etat des lieux du parc des installations de valorisation du biogaz, ADEME, 2013
Bilan national des projets biogaz identifiés au 1er juillet 2013, ADEME, 2013
Estimation des gisements potentiels de substrats utilisables en méthanisation, ADEME, 2013
Scenarii
Contribution de l'ADEME à l'élaboration de visions énergétiques 2030-2050, ADEME, 2013
Scénario négaWatt 2011, négaWatt, 2011
Objectif facteur/4, GrDF, 2013
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