%0 Journal Article %1 Zhou2015Comprehensive %A Zhou, Yuyu %A Hejazi, Mohamad %A Smith, Steven J. %A Edmonds, Jae A. %A Li, Hong-Yi %A Clarke, Leon %A Calvin, Katherine %A Thomson, Allison %D 2015 %I The Royal Society of Chemistry %J Energy Environ. Sci. %K review energy renewables hydroelectricity %R 10.1039/c5ee00888c %T A Comprehensive View of Global Potential for Hydro-generated Electricity %U http://dx.doi.org/10.1039/c5ee00888c %X In this study, we assess global hydropower potential using runoff and stream flow data, along with turbine technology performance, cost assumptions, and consideration of protected areas. The results provide the first comprehensive quantification of global hydropower potential including gross, technical, economic, and exploitable estimates. Total global potential of gross, technical, economic, and exploitable hydropower are estimated to be approximately 128, 26, 21, and 16 petawatt hours per year, respectively. The economic and exploitable potential of hydropower are calculated at less than 9 cents/kWh. We find that hydropower has the potential to supply a significant portion of the world energy needs, although this potential varies substantially by region. Globally, hydropower potential is comparable to the total electricity demand in 2005. Hydropower plays different roles in each country owing to regional variation in potential relative to electricity demand. In some countries such as the Congo, there is sufficient hydropower potential (>10 times) to meet all electricity demands, while in other countries such as United Kingdom, hydropower potential can only accommodate a small portion (<3\%) of total demand. A sensitivity analysis indicates that hydropower estimates are sensitive to a number of parameters: design flow (varying by -10\% to +0\% at less than 9 cents/kWh), cost assumptions (by -35\% to +12\%), turbine efficiency (by -40\% to +20\%), stream flow (by -35\% to +35\%), fixed charge rate (by -15\% to 10\%), and protected land (by -15\% to 20\%). This sensitivity analysis emphasizes the reliable role of hydropower for future energy systems, when compared to other renewable energy resources with larger uncertainty in their future potentials.

@article{Zhou2015Comprehensive, abstract = {In this study, we assess global hydropower potential using runoff and stream flow data, along with turbine technology performance, cost assumptions, and consideration of protected areas. The results provide the first comprehensive quantification of global hydropower potential including gross, technical, economic, and exploitable estimates. Total global potential of gross, technical, economic, and exploitable hydropower are estimated to be approximately 128, 26, 21, and 16 petawatt hours per year, respectively. The economic and exploitable potential of hydropower are calculated at less than 9 cents/kWh. We find that hydropower has the potential to supply a significant portion of the world energy needs, although this potential varies substantially by region. Globally, hydropower potential is comparable to the total electricity demand in 2005. Hydropower plays different roles in each country owing to regional variation in potential relative to electricity demand. In some countries such as the Congo, there is sufficient hydropower potential (>10 times) to meet all electricity demands, while in other countries such as United Kingdom, hydropower potential can only accommodate a small portion (<3\%) of total demand. A sensitivity analysis indicates that hydropower estimates are sensitive to a number of parameters: design flow (varying by -10\% to +0\% at less than 9 cents/kWh), cost assumptions (by -35\% to +12\%), turbine efficiency (by -40\% to +20\%), stream flow (by -35\% to +35\%), fixed charge rate (by -15\% to 10\%), and protected land (by -15\% to 20\%). This sensitivity analysis emphasizes the reliable role of hydropower for future energy systems, when compared to other renewable energy resources with larger uncertainty in their future potentials.}, added-at = {2018-06-18T21:23:34.000+0200}, author = {Zhou, Yuyu and Hejazi, Mohamad and Smith, Steven J. and Edmonds, Jae A. and Li, Hong-Yi and Clarke, Leon and Calvin, Katherine and Thomson, Allison}, biburl = {https://www.bibsonomy.org/bibtex/21cc0b8870259ce6532806b1bff90f4ae/pbett}, citeulike-article-id = {13669634}, citeulike-linkout-0 = {http://dx.doi.org/10.1039/c5ee00888c}, citeulike-linkout-1 = {http://www.rsc.org/Publishing/Journals/article.asp?doi=C5EE00888C}, doi = {10.1039/c5ee00888c}, interhash = {6b28bf1b09f9adcf67295082b40edc21}, intrahash = {1cc0b8870259ce6532806b1bff90f4ae}, journal = {Energy Environ. Sci.}, keywords = {review energy renewables hydroelectricity}, posted-at = {2015-07-11 12:29:53}, priority = {2}, publisher = {The Royal Society of Chemistry}, timestamp = {2018-06-22T18:34:53.000+0200}, title = {A Comprehensive View of Global Potential for Hydro-generated Electricity}, url = {http://dx.doi.org/10.1039/c5ee00888c}, year = 2015 }