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1.
 
InstituciónUruguay XXI
Publicado 2016
Título de la serie
ISBN o ISSN
Tamaño del Archivo (MB)2,4
Número páginas38
Descargar bajo http://www.uruguayxxi.gub.uy/informacion/wp-content/uploads/sites/9/2016/03/Informe-de-energ%C3%ADas-renovables-Uruguay-XXI-Marzo-2016.pdf
Resumen/AbstractEl presente informe trata de la producción de energía en base a fuentes renovables en Uruguay, que genera importantes oportunidades para el inversor.
Palabras claveEnergía de biomasa; Energía eólica; Energía hidraúlica; Energía solar; Inversiones; Marco regulatorio; Pobreza energética; Uruguay
 
2.
 
InstituciónInternational Renewable Energy Agency (IRENA)
Publicado 2016
Título de la serie
ISBN o ISSN
Tamaño del Archivo (MB)1,1
Número páginas84
Descargar bajo http://www.irena.org/DocumentDownloads/Publications/IRENA_LAC_RE_Statistics_2016.pdf
Resumen/Abstract The International Renewable Energy Agency (IRENA) produces comprehensive renewable energy statistics on a range of topics. This publication presents IRENA’s latest statistics for renewable power
generation and capacity, as well as renewable energy balances for all countries in the Latin America and Caribbean region. Data have been obtained from a variety of sources, including the IRENA questionnaire, official national statistics, industry association reports, consultant reports and news articles. IRENA gratefully acknowledges the support of national correspondents and other experts for their help in compiling this dataset.  
Palabras claveAmérica Latina y el Caribe; Biogas; Energía de biomasa; Energía eólica; Energía hidroeléctrica; Energía solar; Energías alternativas; Estadísticas
 
3.
 
InstituciónInternational Renewable Energy Agency (IRENA)
Publicado 2016
Título de la serie
ISBN o ISSN
Tamaño del Archivo (MB)3,3
Número páginas20
Descargar bajo http://www.irena.org/DocumentDownloads/Publications/IRENA_RE_Jobs_Annual_Review_2016.pdf
Resumen/Abstract Renewable Energy and Jobs – Annual Review presents the status of renewable energy employment, both by technology and in selected countries, over the past year. In this third edition, IRENA estimates
that renewable energy employed 8.1 million people around the world in 2014 (excluding large hydropower). This is a 5% increase from the number reported the previous year. In addition, IRENA conducted a second global estimate of large hydropower employment, showing approximately 1.3 million direct jobs in the sector. While the growth in jobs slowed down compared to previous years, the total number of jobs in renewables worldwide continued to rise, in stark contrast with depressed labour markets in the broader energy sector. Countries with the highest number of renewable energy jobs were China, Brazil, the United States, India, Japan and Germany. Solar PV was the largest renewable energy employer with 2.8 million jobs worldwide, an 11% increase over 2014. Solar PV employment grew in Japan and the United States, stabilised in China, and continued decreasing in the European Union. Wind power witnessed a record growth year. Strong installation rates in China, the United States and Germany resulted in a 5% increase in global employment, to reach 1.1 million jobs.  
Palabras claveBrasil; Energía de biomasa; Energía eólica; Energía hidroeléctrica; Energía renovable; Energía solar; Género; Mercado de trabajo; Nivel mundial
 
4.
 
InstituciónInternational Renewable Energy Agency (IRENA)
Publicado 2016
Título de la serie
ISBN o ISSN
Tamaño del Archivo (MB)1,2
Número páginas56
Descargar bajo http://www.irena.org/DocumentDownloads/Publications/IRENA_RE_Capacity_Statistics_2016.pdf
Resumen/Abstract Los datos de capacidad de generación eléctrica con energías renovables que se muestran en el presente documento representan la capacidad máxima de generación neta de las centrales
eléctricas y otras instalaciones que utilizan fuentes de energías renovables para producir electricidad. Para la mayoría de los países y las tecnologías, los datos reflejan la capacidad instalada y conectada al final del año natural. Los datos se presentan en megavatios (MW) redondeados al megavatio entero más cercano, con cifras entre cero y 0.5MW representadas como un 0.  
Palabras claveEnergía de biomasa; Energía eólica; Energía geotérmica; Energía hidroeléctrica; Energía solar fotovoltaica; Estadísticas; Generación de energía; Nivel mundial
 
5.
 
InstituciónRenewable Energy Policy Network for the 21st Century (REN21)
Publicado Paris, 2016
Título de la serie
ISBN o ISSN
Tamaño del Archivo (MB)20,0
Número páginas272
Descargar bajo http://www.ren21.net/wp-content/uploads/2016/06/GSR_2016_Full_Report_REN21.pdf
Resumen/Abstract The year 2015 was an extraordinary one for renewable energy. High-profile agreements were made by G7 and G20 governments to accelerate access to renewable energy and to advance energy efficiency. The
United Nations General Assembly adopted a dedicated Sustainable Development Goal on Sustainable Energy for All (SDG 7). Despite a dramatic decline in global fossil fuel prices, the world saw the largest global capacity additions from renewables to date. However, continuing fossil fuel subsidies and low fossil fuel prices did slow growth in the heating and cooling sector, in particular. This year’s report clearly demonstrates the enormous potential of renewables. However, to accelerate the transition to a healthier, more secure and climate-safe future, we need to build a smarter, more flexible system that maximises the use of variable sources of renewable energy and that accommodates both centralised and decentralised as well as community-based generation.  
Palabras claveEnergía de biomasa; Energía eólica; Energía geotérmica; Energía hidroeléctrica; Energía solar; Energías renovables; Estadísticas; Inversiones; Mercados de energía; Nivel mundial
 
6.
 
InstituciónSoluciones Prácticas
Publicado 2015
Título de la serie
ISBN o ISSN
Tamaño del Archivo (MB)2,2
Número páginas28
Descargar bajo www.solucionespracticas.org.pe/Descargar/481243/1459163
Resumen/Abstract La presente cartilla está dirigida a líderes de organizaciones de base, autoridades de comunidades rurales y representantes de gobiernos locales. Describe, de forma sencilla, las características de
las Pico Centrales Hidráulicas para generar electricidad, sus componentes principales y su funcionamiento; está fundamentalmente orientada a cómo realizar su operación y mantenimiento de las mismas.  
Palabras claveEnergía hidraúlica; Mantenimiento de sistemas; Microcentrales hidroeléctricas
 
7.
 
InstituciónInter-American Development Bank (IDB)
Publicado 2015
Título de la serie
ISBN o ISSN
Tamaño del Archivo (MB)8,4
Número páginas100
Descargar bajo https://publications.iadb.org/bitstream/handle/11319/7292/IDB-TN-891%20River%20Hydrokinetic%20%28Body%20%2b%20Cover%29.pdf
Resumen/Abstract The Inter-American Development Bank (IDB) produced this report for the Sustainable Energy for All Americas initiative. A team of experts on Amazon hydrology from the Universidade Federal do Amazonas
(UFAM) based in Manaus, Amazonas, Brazil carried out the work. This report analyzes existing hydrological data and other available information in order to determine high level feasibility for the deployment of River Hydrokinetic Energy technology in the Amazon River Basin. The investigation is based on an analysis of the ORE-HYBAM database (www.orehybam.org). Eight sites were chosen from the database and analyzed for velocity (water speed) and discharge data, while also considering existing Acoustic Doppler Current Profiler (ADCP) images. The first part of the report provides an overview of the database and data used, as well as of the performed analysis. The second part (results) describes the analysis via graphs and tables of detailed information about the sites investigated. It includes maps with the geographic distribution of the sites and associated data, Google Earth images from each site with an analysis of the river section, and ADCP images. The annex includes graphs showing the results of discharge and velocity analysis.  
Palabras claveBrasil; Energía hidroeléctrica; Generación de energía; Recursos energéticos; Suministro de energía
 
8.
 
InstituciónGerman Federal Ministry for Economic Affairs and Energy (BMWi)
Publicado 2015
Título de la serie
ISBN o ISSN
Tamaño del Archivo (MB)4,7
Número páginas131
Descargar bajo http://www.bmwi.de/English/Redaktion/Pdf/innovation-durch-forschung-forschungsfoerderung-ee-2014,property=pdf,bereich=bmwi2012,sprache=en,rwb=true.pdf
Resumen/Abstract The annual "Innovation Through Research" report provides substantive information about the entire spectrum of applied research funded by the Federal Ministry for Economic Affairs and Energy in the
field of non-nuclear energy technology. This report is the first one which, following the change in ministerial portfolios, presents the research being funded along the entire energy chain: the generation of energy from renewable and fossil sources, energy transmission and storage, and efficient energy use in buildings, urban environments and industry. It highlights findings from research and development made in 2014, provides background information on the latest technological and market developments, and presents in detail individual projects which illustrate the significance and diversity of the research work.  
Palabras claveAlemania; Eficiencia energética; Energía de biomasa; Energía eólica; Energía geotérmica; Energía hidroeléctrica; Energía solar; Financiación de la investigación; Innovación tecnológica; Redes electricas inteligentes
 
9.
 
InstituciónWorld Energy Council (WEC)
Publicado 2015
Título de la serie
ISBN o ISSN
Tamaño del Archivo (MB)1,4
Número páginas53
Descargar bajo https://www.worldenergy.org/wp-content/uploads/2015/05/World-Energy-Resources_Charting-the-Upsurge-in-Hydropower-Development_2015_Report2.pdf
Resumen/Abstract The hydropower sector is set to double in potential to 2,000GW capacity by 2050. It has enjoyed healthy growth in capacity worldwide over the last decade as stakeholders continue to value the
potential of hydropower development to help meet growing energy demand. Hydropower’s stock is also set to rise thanks to the multiple roles hydro projects can fulfil, particularly in climate change mitigation and adaptation. However, there remain a number of challenges where the potential effects of new developments on local environments and communities. World Energy Resources Report 2015: Charting the Upsurge in Hydropower Development is a critical and expansive review of the current state and trends within the hydropower sector, examining the sector’s development from technological, economic and socio-political perspectives. The report highlights the key opportunities for further growth in the sector, along with the major challenges it must overcome in realising its future potential. The study will feed into the upcoming World Energy Resources and the World Energy Scenarios, two of the World Energy Council flagship publications. It is aimed at assisting key decision makers ensure hydropower development is managed in the most sustainable manner possible.  
Palabras claveAgua; Energía hidroeléctrica; Recursos
 
10.
 
InstituciónUniversiteit Twente
Publicado 2015
Título de la serie
ISBN o ISSN
Tamaño del Archivo (MB)2,1
Número páginas15
Descargar bajo http://waterfootprint.org/media/downloads/Mekonnen-et-al-2015.pdf
Resumen/Abstract Water is essential for electricity and heat production. This study assesses the consumptive water footprint (WF) of electricity and heat generation per world region in the three main stages of the
production chain, i.e. fuel supply, construction and operation. We consider electricity from power plants using coal, lignite, natural gas, oil, uranium or biomass as well as electricity from wind, solar and geothermal energy and hydropower. The global consumptive WF of electricity and heat is estimated to be 378 billion m3 per year. Wind energy , solar energy through PV and geothermal energy have the smallest WFs, while biomass and hydropower have the largest. The WFs of electricity from fossil fuels and nuclear energy range between the extremes. The global weighted-average WF of electricity and heat is 4241 m3. Europe has the largest WF (22% of the total), followed by China (15%), Latin America (14%), the USA and Canada (12%), and India (9%). Hydropower (49%) and firewood (43%) dominate the global WF. Operations (global average 57%) and fuel supply (43%) contribute the most, while the WF of construction is negligible (0.02%). Electricity production contributes 90% to the total WF, and heat contributes 10%. In 2012, the global WF of electricity and heat was 1.8 times larger than that in 2000. The WF of electricity and heat from firewood increased four times, and the WF of hydropower grew by 23%. The sector's WF can be most effectively reduced by shifting to greater contributions of wind, PV and geothermal energy.  
Palabras claveEnergía de biomasa; Energía eólica; Energía geotérmica; Energía hidroeléctrica; Energía solar fotovoltaica; Generación de energía eléctrica; Huella de agua
 
 
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