The Czech Republic saw significant growth in solar PV installations in 2009-2010 due to feed-in tariffs, but reduced the tariffs in 2011 which slowed growth. While wind and solar capacity grew in 2012, the government capped tariffs and premiums at a maximum of €174/MWh. The Czech Republic aims to source 14% of energy from renewables by 2020 according to its National Renewable Energy Action Plan.
International energy partnership program manuscript instructions: case BulgariaSimeon Arnaudov
Green economic growth became slogan of thousands public and private activities, nevertheless there are arguments for switching to low-carbon, high-efficiency energy systems disregard enormous investment cost. Innovative energy technologies are able to reduce carbone emissions in aim to limit or avoid climate change directs the public debate. However renewable energy source reduced dependence on imported energy, suspension of conflicts over energy resources, and the increasing price of fossil fuels also are motivate actions. Nonetheless, the potential price and difficulty of doing the transition to a new energy system have brought forted essential opposition from fortified economic interests and consumers equally. In this paper we investigate whether and how photovoltaic power plants as case of renewable energy growing market as Bulgaria do, could become an economic occasion rather than a precious burden. Could a photovoltaic energy capacity induce net economic growth rather than social pay off burden? Analyzing foreign (Korean) direct investment as photovoltaic power plant case study as example of some successful or unsuccessful practices of rapidly growing domestic renewable market. Our aim is this paper to be useful to public or private energy communities in supporting them with professional renewable domestic market anatomy.
Janez Kopac, Director of the Energy Community SecretariatWEC Italia
Slides presentate in occasione del Seminario "The Energy transition in Europe: different pathways, same destination? organizzato da Edison in collaborazione con WEC Italia il 29 maggio 2013 a Roma - TWITTER #NRGstrategy
Bhutan - Utility Scale Solar Power AssessmentVikas Lakhani
Preliminary Assessment of Utility Scale Solar Power in Bhutan, including screening of potential regions for economically and technically viable Solar Projects
V SIMPOSIO EMPRESARIAL INTERNACIONAL FUNSEAM: LOS RETOS DEL SECTOR ENERGÉTICO
CLAUSURA
Presentación
D. Antonio Brufau, Presidente de Repsol
Conferencia de clausura
La regulación en la consecución de los Retos Energéticos: el papel de ACER: D. Alberto Pototschnig, Director de ACER
Carsten Rolle, Executive Director WEC Germany WEC Italia
Slides presentate in occasione del Seminario "The Energy transition in Europe: different pathways, same destination? organizzato da Edison in collaborazione con WEC Italia il 29 maggio 2013 a Roma - TWITTER #NRGstrategy
In 2011, the European Commission concluded in its white paper “Roadmap to a Single European Transport Area” that the phase-out of fossil fuels driven cars by 2050 was necessary to achieve its energy and climate objectives. In 2019, as part of the European Green Deal, the Commission is proposing to revise the regulation on CO2 standards for cars and vans, to ensure a clear pathway towards zero-emission mobility.
Greenhouse gas (GHG) emissions due to road transport have grown since 1990 by 20.5%, and now account for one-fifth of EU GHG emissions – and they keep growing. The picture is similar regarding final energy consumption. Road transport uses 24% of EU final energy, having grown by 28% since 1990.
The good news is that a zero-emission technology is ready today for market uptake: the battery electric vehicle. From day one this vehicle completely cuts local GHG and air pollutant emissions and emits three times less GHG emissions on a well-to-wheel basis. On a life cycle basis (“cradle to grave”), a battery electric vehicle also generates significantly less GHG emissions than cars using gasoline or diesel. Moreover, the full decarbonisation of the electricity system, which is foreseen well before 2050, will enable battery electric vehicles to make transport fully climate-neutral.
Electrifying road transport is also the fastest and most cost-effective way to achieve energy efficiency goals because it is the asset with the highest replacing rate (average car ownership period 5-7 years1)and is currently at least 2.5 times more efficient than alternative technologies.
On 28 November 2019 the European Parliament declared a climate emergency and its Members asked for immediate and ambitious action to limit the effects of climate change2. Battery electric vehicles are ready to contribute to addressing this challenge. What is needed now is to accelerate the deployment of full electric vehicles.
Copper is one of the main materials that makes this transition possible. On average a battery electric vehicle requires three times more copper than a vehicle driven by a combustion engine. Half of it is in the battery system, mainly as foil in the anode of the cell working as current collector and heat dissipator. About one quarter is in the drive motors and their control system, and the other quarter is in wire harness, connectors and electronics. In addition, copper plays a role in the charging infrastructure and in the generation of renewable electricity to power the vehicles.
Development of 2050’s national long-term energy plans for carbon neutrality t...IEA-ETSAP
Development of national long-term energy plans, for 2050’s carbon neutrality targets, using the DESSTINEE model.
Dr. Gabriel David Oreggioni, Imperial College London
International energy partnership program manuscript instructions: case BulgariaSimeon Arnaudov
Green economic growth became slogan of thousands public and private activities, nevertheless there are arguments for switching to low-carbon, high-efficiency energy systems disregard enormous investment cost. Innovative energy technologies are able to reduce carbone emissions in aim to limit or avoid climate change directs the public debate. However renewable energy source reduced dependence on imported energy, suspension of conflicts over energy resources, and the increasing price of fossil fuels also are motivate actions. Nonetheless, the potential price and difficulty of doing the transition to a new energy system have brought forted essential opposition from fortified economic interests and consumers equally. In this paper we investigate whether and how photovoltaic power plants as case of renewable energy growing market as Bulgaria do, could become an economic occasion rather than a precious burden. Could a photovoltaic energy capacity induce net economic growth rather than social pay off burden? Analyzing foreign (Korean) direct investment as photovoltaic power plant case study as example of some successful or unsuccessful practices of rapidly growing domestic renewable market. Our aim is this paper to be useful to public or private energy communities in supporting them with professional renewable domestic market anatomy.
Janez Kopac, Director of the Energy Community SecretariatWEC Italia
Slides presentate in occasione del Seminario "The Energy transition in Europe: different pathways, same destination? organizzato da Edison in collaborazione con WEC Italia il 29 maggio 2013 a Roma - TWITTER #NRGstrategy
Bhutan - Utility Scale Solar Power AssessmentVikas Lakhani
Preliminary Assessment of Utility Scale Solar Power in Bhutan, including screening of potential regions for economically and technically viable Solar Projects
V SIMPOSIO EMPRESARIAL INTERNACIONAL FUNSEAM: LOS RETOS DEL SECTOR ENERGÉTICO
CLAUSURA
Presentación
D. Antonio Brufau, Presidente de Repsol
Conferencia de clausura
La regulación en la consecución de los Retos Energéticos: el papel de ACER: D. Alberto Pototschnig, Director de ACER
Carsten Rolle, Executive Director WEC Germany WEC Italia
Slides presentate in occasione del Seminario "The Energy transition in Europe: different pathways, same destination? organizzato da Edison in collaborazione con WEC Italia il 29 maggio 2013 a Roma - TWITTER #NRGstrategy
In 2011, the European Commission concluded in its white paper “Roadmap to a Single European Transport Area” that the phase-out of fossil fuels driven cars by 2050 was necessary to achieve its energy and climate objectives. In 2019, as part of the European Green Deal, the Commission is proposing to revise the regulation on CO2 standards for cars and vans, to ensure a clear pathway towards zero-emission mobility.
Greenhouse gas (GHG) emissions due to road transport have grown since 1990 by 20.5%, and now account for one-fifth of EU GHG emissions – and they keep growing. The picture is similar regarding final energy consumption. Road transport uses 24% of EU final energy, having grown by 28% since 1990.
The good news is that a zero-emission technology is ready today for market uptake: the battery electric vehicle. From day one this vehicle completely cuts local GHG and air pollutant emissions and emits three times less GHG emissions on a well-to-wheel basis. On a life cycle basis (“cradle to grave”), a battery electric vehicle also generates significantly less GHG emissions than cars using gasoline or diesel. Moreover, the full decarbonisation of the electricity system, which is foreseen well before 2050, will enable battery electric vehicles to make transport fully climate-neutral.
Electrifying road transport is also the fastest and most cost-effective way to achieve energy efficiency goals because it is the asset with the highest replacing rate (average car ownership period 5-7 years1)and is currently at least 2.5 times more efficient than alternative technologies.
On 28 November 2019 the European Parliament declared a climate emergency and its Members asked for immediate and ambitious action to limit the effects of climate change2. Battery electric vehicles are ready to contribute to addressing this challenge. What is needed now is to accelerate the deployment of full electric vehicles.
Copper is one of the main materials that makes this transition possible. On average a battery electric vehicle requires three times more copper than a vehicle driven by a combustion engine. Half of it is in the battery system, mainly as foil in the anode of the cell working as current collector and heat dissipator. About one quarter is in the drive motors and their control system, and the other quarter is in wire harness, connectors and electronics. In addition, copper plays a role in the charging infrastructure and in the generation of renewable electricity to power the vehicles.
Development of 2050’s national long-term energy plans for carbon neutrality t...IEA-ETSAP
Development of national long-term energy plans, for 2050’s carbon neutrality targets, using the DESSTINEE model.
Dr. Gabriel David Oreggioni, Imperial College London
Opportunities in the Hungarian Wind Energy MarketEnerjimiz Güneş
Opportunities in the Hungarian Wind Energy Market
Levente Csók, HWEA Board Member
Dr. Andrea Biróné Kircsi, HWEA President
Dr. Péter Tóth, HWEA Honorary President
Energy a practical approach for the benefit of sustainable economic develop...Lulzim
ENERGY- A PRACTICAL APPROACH IN FAVOUR OF A SUSTAINABLE ECONOMIC DEVELOPMENT IN KOSOVO
POLICY BRIEF KOSOVO
On the occasion of the EU Sustainable Energy Week (EUSEW) the Konrad-Adenauer-Stiftung publishes the new policy brief about Energy and Energy efficiency titled "ENERGY - A practical approach in favor of a sustainable economic development in Kosovo" written by Lulzim Syla from Kosovo Renewable Energy Association. The document summarizes the main topics and challenges regarding Energy and gives specific recommandations about the following actions that should be fulfilled in favor on a sustainable energy policies.
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MESA 1. RETOS PARA EL SECTOR DE LA ELECTRICIDAD
Inversión en proyectos intensivos en capital y señales de mercado: Dña. Ana Quelhas, Directora de Planificación Energética del Grupo EDP
Preside la mesa: D. Ferran Tarradellas, Director Representación en Barcelona de la Comisión Europea
Developing Climate Resilient Flood and Flash Flood Management Practices to Protect Vulnerable Communities of Georgia - The Role of Risk Modelling in the Development of Flood Insurance Model in Georgia
The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
All these questions and more will be explored as we talk about matching clients’ needs with what your agency offers without pulling teeth or pulling your hair out. Practical tips, and strategies for successful relationship building that leads to closing the deal.
"Impact of front-end architecture on development cost", Viktor TurskyiFwdays
I have heard many times that architecture is not important for the front-end. Also, many times I have seen how developers implement features on the front-end just following the standard rules for a framework and think that this is enough to successfully launch the project, and then the project fails. How to prevent this and what approach to choose? I have launched dozens of complex projects and during the talk we will analyze which approaches have worked for me and which have not.
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
1. Unifying Large Language Models and Knowledge Graphs: A Roadmap.
https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
Smart TV Buyer Insights Survey 2024 by 91mobiles.pdf91mobiles
91mobiles recently conducted a Smart TV Buyer Insights Survey in which we asked over 3,000 respondents about the TV they own, aspects they look at on a new TV, and their TV buying preferences.
Essentials of Automations: Optimizing FME Workflows with ParametersSafe Software
Are you looking to streamline your workflows and boost your projects’ efficiency? Do you find yourself searching for ways to add flexibility and control over your FME workflows? If so, you’re in the right place.
Join us for an insightful dive into the world of FME parameters, a critical element in optimizing workflow efficiency. This webinar marks the beginning of our three-part “Essentials of Automation” series. This first webinar is designed to equip you with the knowledge and skills to utilize parameters effectively: enhancing the flexibility, maintainability, and user control of your FME projects.
Here’s what you’ll gain:
- Essentials of FME Parameters: Understand the pivotal role of parameters, including Reader/Writer, Transformer, User, and FME Flow categories. Discover how they are the key to unlocking automation and optimization within your workflows.
- Practical Applications in FME Form: Delve into key user parameter types including choice, connections, and file URLs. Allow users to control how a workflow runs, making your workflows more reusable. Learn to import values and deliver the best user experience for your workflows while enhancing accuracy.
- Optimization Strategies in FME Flow: Explore the creation and strategic deployment of parameters in FME Flow, including the use of deployment and geometry parameters, to maximize workflow efficiency.
- Pro Tips for Success: Gain insights on parameterizing connections and leveraging new features like Conditional Visibility for clarity and simplicity.
We’ll wrap up with a glimpse into future webinars, followed by a Q&A session to address your specific questions surrounding this topic.
Don’t miss this opportunity to elevate your FME expertise and drive your projects to new heights of efficiency.
Let's dive deeper into the world of ODC! Ricardo Alves (OutSystems) will join us to tell all about the new Data Fabric. After that, Sezen de Bruijn (OutSystems) will get into the details on how to best design a sturdy architecture within ODC.
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Leading Change strategies and insights for effective change management pdf 1.pdf
Czech republic
1. The Czech Republic has seen massive growth in the installations of renewable energy in recent years. This was
particularly the case for solar photovoltaic energy in 2009 and 2010, due to the introduction of a feed-in tariff. To
restrict such massive growth, the Czech government reduced the feed-in tariffs, which resulted in minimal growth
in 2011. However both wind and photovoltaic installed capacity grew in 2012 by 44 MW and 109 MW respectively
(WWEA, 2013 & EurObserv’Er, 2012).The major promotion instrument for renewable energy to date in the Czech
Republic has been the optional choice of a feed-in tariff or a feed-in premium paid on top of the market price
Czech Republic
General Country
Information
Population: 10,514,810
Surface Area: 78,870 km²
Capital City: Prague
GDP (2012): $ 195.7 billion
GDP Per Capita (2012): $ 18,608
WB Ease of Doing Business: 75
Sources: ESHA (2011); World Bank (2014); EPIA (2013); Lewandowski et al. (2006); Orságová (2009); WWEA (2013); ERO (2012); Re-
newable Facts (2013); EIA (2013); Hoogwijk and Graus (2008); Hoogwijk (2004); JRC (2011); and UNDP calculations.
R E N E W A B L E E N E R G Y S N A P S H O T :
Key information about renewable energy in Czech Republic
Empowered lives.
Resilient nations.
15.9%
RE Share
20,253 MW
Total Installed Capacity
Biomass Solar PV Wind Small Hydro
592.6 2,072 260 2971
4,200 73,700 20,500 500
3,222 MW
Installed RE Capacity
Electricity Generating
Capacity 2012
Installed Renewable Electricity
Capacity 2012 in MW
Technical Potential for Installed
Renewable Electricity Capacity in MW
1 Value is from 2011
2. either annually or hourly (Act No. 165/2012, Art. 8(2)). Both the tariff and the annually set premium are set by the
Energy Regulation Office and are applicable for 20 years and 30 years respectively for small hydropower plants.
Renewable energy sources from wind, solar, geothermal, biogas, hydro and biomass power are eligible for the
tariff. Renewable energy installations exceeding a certain level of power capacity (see table, above) were eligible
to receive an hourly set premium derived from the daily market electricity price (Act No. 165/2012, Art. 9 (4b)).
However, Regulation No. 310/2013 states that only power plants (except small hydropower plants) that were
commissioned before 31 December 2013 can benefit from this promotion. Exceptions are biomass, geothermal
and wind installations not exceeding 100 KW, if they start operations before the end of 2015 and if they hold a
building permit issued before the amended rule entered into force (on 2 October 2013).
In accordance with EU Directive 2009/28/EC, the Czech Republic published a National Renewable Action Plan,
which sets a national binding target of the share of energy from renewable sources in the gross final energy con-
sumption by 2020 at 14 percent (Czech Republic, 2012).The newest renewable energy law Act No. 165/2012 On
Promoted Energy Sources, is the legislative basis for the promotion of renewable energy. The law provides more
benefits and protection for investors. The annual reversion of feed-in tariffs for projects that have the right to
benefit from the tariff for more than 12 years, is capped at a minimum of 95 percent and a maximum of 115 per-
cent of the previous year’s tariff (Art. 11 (6)). However, both the premium and the tariff are capped at a maximum
of 4,500 koruna (€174) per MW-h (Art. 12(7)). Several subsidies and funding programmes are available, for example
the ECO-Energy Programme by the European Regional Development Fund. Renewable energy plant operators
have the right to prioritized access to the grid, and grid expansion if necessary. The new renewable energy
law no longer offers tax incentives, but a tax on the feed-in tariff (26 percent) and premium (28 percent) for
solar installations commissioned between January 2009 and December 2010 on revenues between 2011 and
Legislation and policy
R E N E W A B L E E N E R G Y S N A P S H O T :
Source: ResLegal (2013) (Koruna/€ exchange rate as on 4 December 2013)
Feed-in tariff and feed-in premiums in Czech Republic2
Eligible technologies Additional constraint Tariff granted in
€/MW-h valid until
31 December 2013
Bonus granted in
€/MW-h valid until
31 December 2013
Wind
(up to 100 KW)
If power plant developer holds
a building permit issued before
the 02.10.2013
77.34 57.27
Roof top Solar
(up to 30 KW)
If power plant developer commissions
the plant before end of 2013
88.65 - 109.08 68.58 - 89.01
Small Hydro
(up to 10 MW)
reconstructed new commissioned 73.47 - 126.59
107.43 - 138.62
44.47 - 57.15
78.43 - 87.19
Pure Biomass in CHPS
(up to 100 KW)
If power plant developer holds
a building permit issued before
the 02.10.2013
75.15 - 136.07 36.48 - 97.4
2 Please note, except for small hydropower, these tariffs apply to installations not exceeding 100 KW, which begin operations
before the end of 2015 and which hold a building permit issued before 2 October 2013.
3. Czech Republic
Institutions
Organization Responsibility Website
Ministry of Industry
and Trade
- The Energy and Raw Material section is responsible
for the national energy policy
www.mpo.cz/en/
Energy Regulatory Office - Responsible for annual setting of premiums and tariffs
- Grants licences for enterprises in the energy industry
www.eru.cz/
Czech Market Operator
(OTE)
- Electricity and gas market operator responsible for
organizing trading in the electricity markets
- Concludes contracts with feed-in premium recipients
www.ote-cr.cz/
Electricity Transmission
Operator (CEPS)
- Responsible for operation, maintenance and devel-
opment of the national grid
- Distribution is privatized into eight regional compa-
nies that contract with renewable energy plant oper-
ators for the feed-in tariff
www.ceps.cz/
Czech Invest - State investment agency, established to attract, con-
sult and facilitate potential investors
www.czechinvest.org/en
Opportunities to finance renewable energy projects in Czech Republic
Financing organization Details Website
Ministry of Industry
and Trade
ECO–energy programme entitles small and medium
renewable energy enterprises and entrepreneurs to
apply for loans of up to 50 million koruna (c. €2 mil-
lion) at a fixed interest rate of 1 percent per year for 15
years; or for a direct subsidy, depending on the region
and enterprise size (max. 50 percent of the investment
costs). However, the projects are announced in calls
and currently there are no calls currently available.
www.mpo.cz/default.html
International Finance
Corporation (IFC)
Private and environmentally and technically sound
projects may apply for loans of up to 35 percent of the
estimated project costs, usually provided through
partner intermediaries.
www.ifc.org/
EU Means
- European Investment
Facility (EIF)/
- European Investment Bank
(EIB)
- Structural Funds
Loans and guarantees through Czech financial Inter-
mediaries (e.g. Regionalne Towarzystwo Inwestycyjne,
Bank BGŻ), and private equity/venture capital are
available.
www.europa.eu/youreurope/business/fi-
nance-support/access-to-finance/
2013.3
In 2013, however, the tax regime was extended with a lower tax rate: 10 percent on the feed-in tariff and
11 percent on premium. Power plants commissioned in 2010 have to pay this tax for the entire support period.
Roof top and faced integrated solar PV installations up to 30 KW are exempt from this tax.
3 Despite a Supreme Court judgement that the retroactive solar tax is not unconstitutional, it ruled at the end of 2013 that each
operator that proves that the solar tax has had a strangling effect on their plants’returns may receive a waiver for the solar tax.
4. Czech Republic
References
Czech Republic, 2012: National Renewable Action Plan
of the Czech Republic. Available at: http://ec.europa.eu/
energy/renewables/action_plan_en.htm
Czech Republic, 2012: Act No. 165/2012“On promoted
energy sources and on amendment to some laws”.
Available at: www.eru.cz/user_data/files
/legislativa/english/acts/165_2012_AJ.pdf
Energy Regulatory Office (ERO), 2012: Installed capacity
in the Czech Republic. Available at:
www.eru.cz/user_data/files/statistika_elektro/mesicni_
zpravy/2012/zari/page50.htm
EurObserv’Er, 2012:The state of Renewable Energies in
Europe, Edition 2012. Available at: www.energies-
renouvelables.org/observ-er/stat_baro/barobilan/barob
ilan12.pdf
European Photovoltaic Industry Association (EPIA),
2013: Global Market Outlook for Photovoltaics 2013 -
2017. Available at: www.epia.org/fileadmin/user
_upload/Publications/GMO_2013_-_Final_PDF.pdf
European Small Hydropower Association (ESHA), 2011:
HYDI Database. Available at: http://streammap.esha.be/
Hoogwijk, M., 2004: On the global and regional
potential of renewable energy sources. Utrecht:
Universiteit Utrecht, Faculteit Scheikunde.
Dissertation. Available at: http://igitur-
archive.library.uu.nl/dissertations/2004-0309-123617
/full.pdf
Hoogwiijk, M. andW. Graus, 2008: Global Potential of
Renewable Energy Sources: A Literature Assessment.
Available at: www.ecofys.com/files/files/report_
global_potential_of_renewable_energy_sources_a
_literature_assessment.pdf
Joint Research Centre of the European Commission
(JRC), 2011:Technical Assessment of the Renewable
Energy Action Plans. Available at:
http://ec.europa.eu/dgs/jrc/downloads/jrc_reference
_report_2011_reap.pdf
Lewandowski, I.,Weger, J., van Hooijdonk, A., Havlickova,
K., van Dama, J., and A. Faaija, 2006:The potential
biomass for energy production in the Czech Republic.
In: Biomass and Bioenergy (30): 405-421
Orságová, J.Toman, P., Ptacek, J., and P. Modlitba, 2009:
Analysis of the wind energy potential of the Czech
Republic with respect to its integration into the power
system. In: Energyspectrum (4): 1-6
Renewable energy policy database and support
(ResLegal), 2013: An initiative of the European
Commission – Romania. Available at: www.res-legal.eu
Renewable Energy Policy Network for the 21th Century
(Ren21), 2013: Renewables 2013 Global Status Report.
Available at: www.ren21.net/REN21Activities/Global
StatusReport.aspx
Renewable Facts, 2013: Czech Republic. Available at:
www.renewablefacts.com/country/czech-republic
U.S. Energy Information Administration (EIA), 2013:
Levelized Cost of New Generation Resources in the
Annual Energy Outlook 2013. Available at:
www.eia.gov/forecasts/aeo/electricity_generation.cfm
WorldWind Energy Association (WWEA), 2013: 2012
Annual Report. Available at: www.wwindea.org/
webimages /WorldWindEnergyReport2012_final.pdf
World Bank, 2014: Data Catalog. Available at:
http://datacatalog.worldbank.org/
Recent projects
Company Project Status
Scatec Solar (Norway) Commissioned 10 MW Sulkov solar park. Commissioned
Econenerg Windkraft
(Germany)
Commissioned 43 MW Kryštofovy wind park. Commissioned