Optimal Locations for Siting Wind Energy Projects: Technical Challenges, Economics, and Public Preferences
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[1] Thomas R. Allen,et al. Wind turbines and coastal recreation demand , 2010 .
[2] Mark Z. Jacobson,et al. Providing all global energy with wind, water, and solar power, Part I: Technologies, energy resources, quantities and areas of infrastructure, and materials , 2011 .
[3] P. Jaramillo,et al. What day-ahead reserves are needed in electric grids with high levels of wind power? , 2013 .
[4] D. Horst. NIMBY or not? Exploring the relevance of location and the politics of voiced opinions in renewable energy siting controversies , 2007 .
[5] Jason P. Brown,et al. Spatial Hedonic Analysis of the Effects of US Wind Energy Facilities on Surrounding Property Values , 2015 .
[6] Joseph F. DeCarolis,et al. The Costs of Wind's Variability: Is There a Threshold? , 2005 .
[7] A. D. Mills,et al. Changes in the economic value of wind energy and flexible resources at increasing penetration levels in the Rocky Mountain Power Area , 2014 .
[8] Kristina Ek,et al. Wind farms — Where and how to place them? A choice experiment approach to measure consumer preferences for characteristics of wind farm establishments in Sweden , 2014 .
[9] M. Fripp,et al. Effects of Temporal Wind Patterns on the Value of Wind-Generated Electricity in California and the Northwest , 2008, IEEE Transactions on Power Systems.
[10] Jeremy Neubauer,et al. A Techno-Economic Analysis of PEV Battery Second Use: Repurposed-Battery Selling Price and Commercial and Industrial End-User Value , 2012 .
[11] Maarten Wolsink,et al. Wind power implementation: The nature of public attitudes: Equity and fairness instead of ‘backyard motives’ , 2007 .
[12] Patrick Balducci,et al. Energy storage for variable renewable energy resource integration — A regional assessment for the Northwest Power Pool (NWPP) , 2011, 2011 IEEE/PES Power Systems Conference and Exposition.
[13] M. Slattery,et al. Public attitudes of wind energy in Texas: Local communities in close proximity to wind farms and their effect on decision-making , 2010 .
[14] Martin D. Heintzelman,et al. Values in the Wind: A Hedonic Analysis of Wind Power Facilities , 2011, Land Economics.
[15] Dalia P Ati. Cost of Wind Energy: Comparing Distant Wind Resources to Local Resources in the Midwestern United States , 2010 .
[16] Jacob Ladenburg,et al. PREFERENCES OF COASTAL ZONE USER GROUPS REGARDING THE SITING OF OFFSHORE WIND FARMS , 2009 .
[17] Jay F. Whitacre,et al. Compensating for wind variability using co-located natural gas generation and energy storage , 2010 .
[18] J. Apt,et al. Can a wind farm with CAES survive in the day-ahead market? , 2012 .
[19] Nick Hanley,et al. Using conjoint analysis to quantify public preferences over the environmental impacts of wind farms. An example from Spain , 2002 .
[20] Tor Anders Nygaard,et al. Levelised cost of energy for offshore floating wind turbines in a life cycle perspective , 2014 .
[21] Kenneth E. Train,et al. Discrete Choice Methods with Simulation , 2016 .
[22] Hwa Meei Liou,et al. Wind power in Taiwan: Policy and development challenges , 2010 .
[23] Charles R. Warren,et al. ‘Green On Green’: Public perceptions of wind power in Scotland and Ireland , 2005 .
[24] Maureen Hand,et al. Land Use Requirements of Modern Wind Power Plants in the United States , 2009 .
[25] W. Kempton,et al. Public opinion about large offshore wind power: Underlying factors , 2007 .
[26] Tarla Rai Peterson,et al. States of transmission: Moving towards large-scale wind power , 2013 .
[27] Colleen Lueken,et al. Costs of solar and wind power variability for reducing CO2 emissions. , 2012, Environmental science & technology.
[28] Maureen Hand,et al. 2010 Cost of Wind Energy Review , 2012 .
[29] K. Porter,et al. The Cost of Transmission for Wind Energy: A Review of Transmission Planning Studies , 2009 .
[30] P. Jaramillo,et al. Production cost and air emissions impacts of coal cycling in power systems with large-scale wind penetration , 2013 .
[31] Maarten Wolsink,et al. Wind power and the NIMBY-myth: institutional capacity and the limited significance of public support , 2000 .
[32] Inês L. Azevedo,et al. The role of energy storage in accessing remote wind resources in the Midwest , 2014 .
[33] Jeffery B. Greenblatt,et al. Baseload wind energy: modeling the competition between gas turbines and compressed air energy storage for supplemental generation , 2007 .
[34] P. Jaramillo,et al. The effect of long-distance interconnection on wind power variability , 2012 .
[35] Joseph F. DeCarolis,et al. The economics of large-scale wind power in a carbon constrained world , 2006 .
[36] Søren Krohn,et al. On public attitudes towards wind power , 1999 .
[37] W. Michael Hanemann,et al. Willingness To Pay and Willingness To Accept: How Much Can They Differ? Comment , 2003 .
[38] Edgar G. Hertwich,et al. Life cycle assessment of a floating offshore wind turbine , 2009 .
[39] Lester B. Lave,et al. Optimizing transmission from distant wind farms , 2010 .
[40] Lion Hirth. The Market Value of Variable Renewables The Effect of Solar and Wind Power Variability on their Relative Price , 2013 .
[41] Denzil G. Fiebig,et al. The Generalized Multinomial Logit Model: Accounting for Scale and Coefficient Heterogeneity , 2010, Mark. Sci..
[42] Geoffrey M. Lewis. Estimating the value of wind energy using electricity locational marginal price , 2010 .
[43] Atul K. Jain,et al. Stability: Energy for a Greenhouse Planet Advanced Technology Paths to Global Climate , 2008 .
[44] M. Cropper. Valuing Product Attributes Using Single Market Data: A Comparison of Hedonic and Discrete Choice Approaches , 1993 .
[45] Jiming Liu,et al. Attributes Using Single Market Data : A Comparison of Hedonic and Discrete Choice Approaches , 2022 .
[46] P. Devine‐Wright. Rethinking NIMBYism: The role of place attachment and place identity in explaining place‐protective action , 2009 .
[47] Paul Denholm,et al. The value of compressed air energy storage with wind in transmission-constrained electric power systems , 2009 .
[48] G. Parsons,et al. Valuing the Visual Disamenity of Offshore Wind Projects at Varying Distances from the Shore , 2011 .
[49] E.A. DeMeo,et al. Wind plant integration [wind power plants] , 2005, IEEE Power and Energy Magazine.
[50] Jay Apt,et al. Economics of compressed air energy storage to integrate wind power: A case study in ERCOT , 2011 .
[51] Patrick Devine-Wright,et al. Beyond NIMBYism: towards an integrated framework for understanding public perceptions of wind energy , 2005 .
[52] B. Fischhoff,et al. Risk Communication: A Mental Models Approach , 2001 .
[53] Peng Ru,et al. Not in my backyard, but not far away from me: Local acceptance of wind power in China , 2015 .
[54] Kevin G. Gallagher,et al. Modeling the performance and cost of lithium-ion batteries for electric-drive vehicles. , 2011 .
[55] Raymond B. Palmquist,et al. Valuing Air Quality With Hedonic and Discrete Choice Models , 1999 .
[56] Hongxia Sun,et al. A large amount of idle capacity under rapid expansion: Policy analysis on the dilemma of wind power utilization in China , 2014 .
[57] Inês L. Azevedo,et al. Labeling energy cost on light bulbs lowers implicit discount rates , 2014 .
[58] Jacob Ladenburg,et al. Attitudes towards on-land and offshore wind power development in Denmark; choice of development strategy , 2008 .
[59] Paul Denholm,et al. Emissions and energy efficiency assessment of baseload wind energy systems. , 2005, Environmental science & technology.
[60] Lion Hirth. The Market Value of Variable Renewables , 2012 .
[61] Molly F. Sherlock. The Renewable Electricity Production Tax Credit: In Brief , 2014 .
[62] Paulina Jaramillo,et al. Implications of near-term coal power plant retirement for SO2 and NOX and life cycle GHG emissions. , 2012, Environmental science & technology.
[63] Jens Hainmueller,et al. Validating vignette and conjoint survey experiments against real-world behavior , 2015, Proceedings of the National Academy of Sciences.
[64] Jacob Ladenburg,et al. Dynamic Properties of the Preferences for Renewable Energy Sources – A Wind Power Experience-Based Approach , 2014 .
[65] Kristina Ek. Public and private attitudes towards “green” electricity: the case of Swedish wind power , 2005 .
[66] Jeremy J. Michalek,et al. Will subsidies drive electric vehicle adoption? Measuring consumer preferences in the U.S. and China , 2015 .
[67] Inês L. Azevedo,et al. Should we build wind farms close to load or invest in transmission to access better wind resources in remote areas? A case study in the MISO region , 2016 .
[68] Jeremy Firestone,et al. The Offshore Wind Power Debate: Views from Cape Cod , 2005 .
[69] Jacob Ladenburg,et al. Willingness to pay for reduced visual disamenities from offshore wind farms in denmark , 2007 .
[70] Ted Trainer,et al. A critique of Jacobson and Delucchi's proposals for a world renewable energy supply , 2012 .
[71] M. Slater. Reinforcing Spirals: The Mutual Influence of Media Selectivity and Media Effects and Their Impact on Individual Behavior and Social Identity , 2007 .
[72] P. Devine‐Wright. Public engagement with large‐scale renewable energy technologies: breaking the cycle of NIMBYism , 2011 .
[73] Andreas Kontoleon,et al. Assessing the determinants of local acceptability of wind-farm investment: A choice experiment in the Greek Aegean Islands , 2009 .
[74] M Granger Morgan,et al. Informed Public Preferences for Electricity Portfolios with CCS and Other Low‐Carbon Technologies , 2010, Risk analysis : an official publication of the Society for Risk Analysis.
[75] Panagiotis G. Ipeirotis. Analyzing the Amazon Mechanical Turk marketplace , 2010, XRDS.
[76] Chi-Keung Woo,et al. The impact of wind generation on the electricity spot-market price level and variance: The Texas experience , 2011 .
[77] N. Darghouth,et al. 2013 Wind Technologies Market Report , 2014 .
[78] Jay Apt,et al. The spectrum of power from wind turbines , 2007 .
[79] Daniel M. Kammen,et al. ASSESSING THE COSTS OF ELECTRICITY , 2004 .