Dragoon K. Valuing wind generation on integrated power systems. - Kidlington, Oxford; Burlington: William Andrew, 2010. - x, 229 p.: ill., maps. - Incl. bibl. ref. - Ind.: p.227-229. - ISBN 978-0-8155-2047-4  Место хранения:   070 | Институт систем энергетики им. Л.А.Мелентьева CO РАН | Иркутск | Библиотека

Оглавление / Contents

Preface ........................................................ ix Acknowledgements ................................................ x CHAPTER 1 Introduction ......................................... 1 CHAPTER 2 Overview of system impacts of wind generation on роwer systems ..................................... 5 2.1 Primary economic effects of wind роwer ..................... 6 2.2 Role of wind forecasts in wind роwer economics ............. 7 2.3 Wind as an energy resource ................................. 9 2.4 Other potentially important effects ....................... 11 2.5 Properties of wind output in aggregate .................... 13 2.5.1 Effects of high-pressure systems and weather fronts ............................................. 16 2.5.2 Weather fronts and wind ramps ...................... 18 2.5.3 Wind generation data ............................... 19 2.6 Summary ................................................... 19 CHAPTER 3 General approaches to valuing wind on роwer systems ............................................. 21 3.1 Wind valuation components ................................. 23 3.1.1 Direct wind generation cost ........................ 24 3.1.2 Gross value of generated energy .................... 26 3.1.3 Value of renewable energy credits and emissions reductions ......................................... 27 3.1.4 Cost of holding additional reserves due to wind variability and uncertainty ........................ 29 3.1.5 Effects on reserve generation operating costs ...... 32 3.1.6 Balance of system and market trading costs ......... 33 3.2 Summary ................................................... 34 CHAPTER 4 Developing useful wind generation data .............. 37 4.1 Sensitivity of statistics to scaling ...................... 38 4.1.1 Scaling to nearby wind projects .................... 4l 4.2 Converting wind speed to wind output ...................... 42 4.2.1 Adjusting wind speed measurements to hub height .... 43 4.2.2 Multi-turbine роwer curve equivalent ............... 44 4.2.3 Block-averaged wind speeds ......................... 46 4.3 Using weather model data .................................. 47 4.4 Summary ................................................... 48 CHAPTER 5 Representing wind in economic dispatch models ....... 51 5.1 Ideal representation of wind generators in dispatch models .................................................... 52 5.2 Fixed time series in formard- and backward-looking analyses .................................................. 53 5.3 Representing wind as load reduction or fixed generation levels .................................................... 55 5.4 Representing wind as an equivalent thermal generation station ................................................... 57 5.5 Summary ................................................... 61 CHAPTER 6 Pоwer system incremental reserve requirements ....... 63 6.1 Principles of reserve requirement analysis ................ 63 6.1.1 Incremental reserves to ensure reliability ......... 64 6.1.2 Distinct importance of variability and uncertainty ........................................ 65 6.1.3 Reserve requirements depend on both load and wind characteristics .................................... 66 6.2 Reserve nomenclature ...................................... 70 6.2.1 Planning reserves .................................. 71 6.2.2 Operating reserves ................................. 71 6.3 Determining non-contingency operating reserve requirements .............................................. 73 6.3.1 Segmenting reserve requirements by type ............ 77 6.3.2 Conditional reserve requirements ................... 83 6.4 Summary ................................................... 84 CHAPTER 7 Wind роwer forecasting .............................. 87 7.1 Types and uses of wind forecasts .......................... 87 7.2 Climate and weather ....................................... 89 7.3 Forecasting techniques .................................... 90 7.4 Forecast error measures ................................... 92 7.5 Forecast accuracy ......................................... 95 7.6 Developing synthetic forecasts ............................ 97 7.7 Summary ................................................... 98 CHAPTER 8 Wind energy valuation studies ...................... 101 8.1 System responses to wind generation ...................... 103 8.2 Study design ............................................. 103 8.3 Model modifications for wind ............................. 105 8.3.1 Modeling variability .............................. 106 8.3.2 Modeling forecast uncertainty ..................... 107 8.4 Example study results .................................... 108 8.5 Portfolio risk and wind generation ....................... 109 8.6 Costs and value not captured by CEDMs .................... 111 8.7 Study validation ......................................... 112 6.7.1 Input validation .................................. 112 8.7.2 Algorithm validation procedures ................... 112 8.7.3 Validating results ................................ 113 8.8 Over-specification of wind costs ......................... 114 8.9 Summary .................................................. 115 CHAPTER 9 Wind integration costs ............................. 117 9.1 Wind integration cost study design ....................... 118 9.1.1 Design for CEDM-based studies ..................... 118 9.1.2 Non-CEDM study design ............................. 121 9.2 Simplified non-CEDM wind integration cost example ........ 122 9.2.1 Calculating increased reserve requirement ......... 123 9.2.2 Incremental fixed costs ........................... 123 9.2.3 Incremental fuel costs ............................ 124 9.2.4 Market transaction costs .......................... 127 9.2.5 Summary of costs .................................. 130 9.3 Cost allocation .......................................... 131 9.4 Incremental reserve requirement behavior ................. 132 9.4.1 Importance of standard deviation .................. 132 9.4.2 Summing distributions ............................. 133 9.4.3 Effect of project size: Examples .................. 135 9.4.4 Effect of correlation: Examples ................... 136 9.4.5 Small increment approximation ..................... 136 9.4.6 Dependence on order ............................... 137 9.4.7 Real data and the inconstancy of the z-statistic ....................................... 138 9.4.8 Conclusion ........................................ 138 9.5 Summary .................................................. 138 CHAPTER 10 Wind pooler's contribution to meeting peak demand ............................................. 141 10.1 Capacity value and effective load-carrying capability .... l42 10.2 Computing effective load-carrying capability ............. 144 10.3 Wind capacity value characteristics ...................... 149 10.4 Case studies ............................................. 150 10.4.1 State of New York ................................. 150 10.4.2 State of Minnesota ................................ 151 10.4.3 German study ...................................... 152 10.4.4 Irish study ....................................... 152 10.5 Summary .................................................. 153 CHAPTER 11 Effects of markets on wind integration costs ....... 155 11.1 Market size and access ................................... 157 11.2 Scheduling rules and imbalance settlement ................ 158 11.3 Ancillary service requirements and charges ............... 159 11.4 Participation in redispatch .............................. 160 11.5 Wind forecasting services ................................ 162 11.6 Capacity valuation ....................................... 162 11.7 Market incentives ........................................ 163 11.7.1 Federal incentives ................................ 163 11.7.2 Non-federal incentives ............................ 166 11.8 Transmission construction cost recovery and efficient use of capability ........................................ 166 11.8.1 Efficient use ..................................... 166 11.8.2 Transmission construction cost recovery ........... 167 11.9 Summary .................................................. 168 CHAPTER 12 Enhancing wind energy value ........................ 171 12.1 Reducing reserve generation requirements ................. 172 12.1.1 Improved wind forecasting ......................... 173 12.1.2 Shorter scheduling lead times ..................... 174 12.1.3 More frequent market transactions ................. 175 12.2 Efficient provision of balancing services ................ 175 12.2.1 Wider sharing of balancing needs .................. 175 12.2.2 Incorporating a broader range of balancing generators ........................................ 176 12.3 Active management of wind and demand ..................... 179 12.4 Dedicated storage technologies ........................... 180 12.5 Summary .................................................. 181 CHAPTER 13 Review of selected wind integration studies ........ 183 13.1 Sampling of studies ...................................... 185 13.1.1 2006 Minnesota wind integration study ............. 185 13.1.2 2005 NYSERDA wind study ........................... 187 13.1.3 California Energy Commission 2007 IAP Final Report ............................................ 189 13.1.4 Eastern Wind Integration and Transmission Study (EWITS) ........................................... 191 13.1.5 Western Wind and Solar Integration Study (WWSIS) ........................................... 194 13.1.6 All Island Study (Ireland) ........................ 198 13.2 Summary .................................................. 201 CHAPTER 14 Considerations for high penetration wind systems ... 203 14.1 Market organization ...................................... 206 14.2 Energy storage ........................................... 207 14.3 Facility siting .......................................... 210 14.4 Wind forecasting ......................................... 211 14.5 Controlling wind generation .............................. 212 14.6 Summary .................................................. 213 APPENDIX A Wind forecasting vendors ........................... 215 Glossary ...................................................... 217 Index ......................................................... 227