-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
1/31
PROCESSES AND ISSUES FORINTRODUCING RENEWABLE GENERATION
Pter Kaderjk
Corvinus University of Budapest
23 September, 2009, ERRA, Riga
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
2/31
OUTLINE OF PRESENTATION
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
3/31
RATIONALS TO PROMOTE RES
Reduce local and global pollutionFirst best solution: pollution taxation/pricing, including CO2pricing
Increase supply securityGas import dependenceFuel mix diversity
Industrial developmentDeveloping local industry and employment
Germany, Spain, Denmark
Importing the positive externalities of technological innovation ordeveloping a local champion choice of support system
Developing an exporting EU industry Given that world trends are for RESChina, India?Importance of understanding local comparative advantages
COST EFFICIENCY, GRADUALITY
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
4/31
PROBLEMS WITH RES
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
5/31
OUTLINE OF PRESENTATION
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
6/31
EU RES POLICY FRAMEWORK
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
7/31
OVERVIEW OF THE NEWRENEWABLES DIRECTIVE 1
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
8/31
OVERVIEW OF THE NEWRENEWABLES DIRECTIVE 2
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
9/31
OUTLINE OF PRESENTATION
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
10/31
RES PENETRATION IN EUROPE 1
0
100
200
300
400
500
600
700
800
900
2000 2001 2002 2003 2004 2005 2006 2007
Totalinstalledcapacity,GW
Other RES
PV+Solar
Wood
Wind
Hydro
Non RES
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
11/31
0
500
1000
1500
2000
2500
3000
3500
2001 2002 2003 2004 2005 2006 2007
Grosselectricitygeneration,TWh
Other RES
PV+Solar
WoodWind
Hydro
Non-RES
RES PENETRATION IN EUROPE 2
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
12/31
GLOBAL WIND PENETRATION 1
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
13/31
GLOBAL WIND PENETRATION 2
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
14/31
GLOBAL WIND PENETRATION 3
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
15/31
EUROPEAN WIND PENETRATION 1
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
16/31
EUROPEAN WIND PENETRATION 2
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
17/31
FUEL CHOICE FOR NEW GENERATIONEUROPE, 2008
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
18/31
FUEL CHOICE FOR NEW GENERATIONEUROPE, 2000 2008
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
19/31
0
10
20
30
40
50
ProductionCost:USCentsperkWh
PV
2000
2005
GEOBIOWIND
1990
cost of non-renewable
production in 2000
Source: IEA
COST DEVELOPMENT IN RESTECHNOLOGIES: SCALE AND LEARNING
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
20/31
OUTLINE OF PRESENTATION
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
21/31
MAJOR POLICY COMPONENTS
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
22/31
ASSESSMENT OF RES POTENTIAL
Renewable energy Source
Academy of Sciences,
theoretical potential 2006 level of utilisation
Renewable Energy
Strategy,
2020 level of utilisation
Solar 1838 0.1 2
Hydro 14.4 0.7 1
Geothermal 63.5 3.6 11
Biomass/Fuel wood 203-328 131Organic waste
49.23
Biogas + bio-methane 12
Bio-fuel 20
Wind 532.8 0.16 6
Total 2600-2700 53.8 186
Renewable resource potential and utilization in Hungary, PJ
+ Accomplishment of wind and geothermal maps,registry of wells, biogas sources, etc.
Information should be publicly available
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
23/31
ASSESSMENT OF RES POTENTIAL
Stocktaking report for regional assessment of renewable energy, EC,USAID, 2009
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
24/31
MAJOR REGULATORY COMPONENTS
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
25/31
THE LICENSING TROUBLE
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
26/31
THE HUNGARIAN FEED-IN TARIFFS INFORCE FROM JANUARY 2009, (HUF ())
FEED-IN TARIFF
From 1st January 2009HUF
()
Peak Off-peak Pit
Solar, Wind
28.13(10.1) 28.13(10.1) 28.3(10.1)
Based on resolution of
Hungarian Energy Office(HEO) if it was adopted or the
application was received before
01. 01. 2008.[except hydro power station units
(PSU) >5 MW]
Other than Solar and Wind
31.42
(11.2)
28.13
(10.1)
11,48
(4.1)
Solar 27.86
(10.0)
27.86
(10.0)
27.86
(10.0)Produced by PSU
of 20 MW or less (except Solar)31.13(11.1)
27.86(10.0)
11.37(4.1)
Produced by PSU of
>20 MW - max. 50 MW
(except Wind from 30th Nov. 2008, Solar)
24.90
(8.9)
22.29
(8.0)
9.09
(3.2)
Produced by Wind PSUof >20 MW - max. 50 MWfrom 30th Nov. 2008
31.13
(11.1)
27.86
(10.1)
11.37
(4.1)
Based on resolution of HEO
adopted after 01. 01. 2008.
(except hydro PSU >5 MW, other
PSU > 50 MW)
Produced by PSU
comprising used equipment19.36
(6.9)
12.39
(4.4)
12.39
(4.4)
Produced from
renewable
energy sources
Produced by hydro PSU > 5 MW, other PSU >50 MW 19.36(6.9)
12.39(4.4)
12.39(4.4)
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
27/31
THE PROCESS OF GRID CONNECTION FOR ASMALL POWER PLANT IN HUNGARY, 2009
START
PLANT NOTIFICATION
DISCO PRELIMINARY GRID CONNECTION INFORMATION
PLANT FEASIBILITY STUDY
DISCO
CONNECTION AT
120 kVAPPROVAL
PLANT GRID CONNECTION PLAN
DISCO APPROVAL
TSO (MAVIR) CONNECTION AT 120
kV
APPROVAL
DISCO / PLANT DOCUMENTS TO
ATTACH:- Company registration
- Environmental license
- Building license
GRID CONNECTION CONTRACT
PLANT LICENCE APPLICATION (OVER 0,5 MW)
HEO APPROVAL
PLANT CONSTRUCTION PLAN
DISCO APPROVAL
PLANT BUILDING THE POWER PLANT AND THE CONNECTION
DISCO / PLANT INSTALLATION PROCEDURE
DISCO /PLANT OPERATIONAL AGREEMENT, GRID AND BALANCE
CIRCLE CONTRACTS
STOP
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
28/31
GRID INTEGRATION
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
29/31
NON-COST BARRIERS
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
30/31
QUESTIONS
-
8/8/2019 Kaderjak Process for Introducing Renewable Generation RES WOrkshop Riga 2009 Eng
31/31
ASSESSMENT OF RES POTENTIAL
Stocktaking report for regional assessment of renewable energy, EC,USAID, 2009
HOMEWORK!