74 results were found for 万利U币游戏15595696085电9.

Results:

• 41. VI_2017_009

  CORDEX climate trends for Iceland in the 21st century Monique Gosseling VÍ 2017-009 Report CORDEX climate trends for Iceland in the 21st century VÍ 2017-009 ISSN 1670-8261 Report +354 522 60 00 vedur@vedur.is Icelandic Met Office Bústaðavegur 7–9 IS 108 Reykjavík Monique Gosseling, Icelandic Met Office 4 5 Contents 1 Introduction /media/vedurstofan-utgafa-2017/VI_2017_009.pdf

• 42. Lettenmaier_Dennis_CES_2010pdf

  Withdrawal Reliability Grand Coulee Recreation Reliability R e l i a b i l i t y ( % , m o n t h l y b a s e d ) Control Period 1 Period 2 Period 3 RCM 2040-2069 60 80 100 120 140 Firm Hydropower Annual Flow Deficit at McNary P e r c e n t o f C o n t r o l R u n C l i m a t e PCM Control Climate and Current Operations PCM Projected Climate and Current Operations PCM Projected /media/ces/Lettenmaier_Dennis_CES_2010pdf.pdf

• 43. 2012-Refsgaard_etal-uncertainty_climate-change-adaptation-MITI343

  e in relatio n to climat echang eadapt ation .X ,X X ,XX X is a ge n era lguid eo n th e relativ e imp ortanc e leve lo fth e sourc es , alth oug h it mus tb e em phasise d tha tth e imp ortanc e o fth e indi vidua lsou rce s o fun certaint y is co n tex tspe cifi c St ep si n cl im at e ch an ge ad ap tat io n an al ys es (ch ain in u n ce rta in ty ca sc ad e, Fi g. 2) So ur ce s o fu n ce rta /media/loftslag/2012-Refsgaard_etal-uncertainty_climate-change-adaptation-MITI343.pdf

• 44. Dyrrdal_Anita_CES_2010

  Results W i n t e r t e m p e r a t u r e Max snow depth Trend slope Number of snow days Period II P e r i o d I I I Max snow depth Number of snow days Norwegian Meteorological Institute met.no Correlation analysis (1961-08) 138 mutual stations Introduction Data & Methods Results Correlation with winter temperature Correlation with winter precipitation In warmer regions both snow parameters /media/ces/Dyrrdal_Anita_CES_2010.pdf

• 45. 2010_003rs

  ca ti o n s fo r th e la rg est e a rt h q u a ke s w it h in t h e S IS Z b et w ee n 1 7 0 6 a n d 2 0 0 8 d en o te d b y w h ite fil le d c ir cles. E stim a te d f a u lt p la n es o f h is to ric a l ea rt h q u a ke s a re s h o w n a s w h ite , th ick li n es ( fr o m R o th , 2 0 0 4 ). F a u lt p la n es f ro m 1 9 9 8 ( V o g fj ö rd et a l. , 2 /media/vedurstofan/utgafa/skyrslur/2010/2010_003rs.pdf

• 46. D2.3_CES_Prob_fcsts_GCMs_and_RCMs

  AVAILABLE FROM: http://www.atm.helsinki.fi/~jaraisan/CES_D2.3/CES_D2.3.html 2 Table of Contents Abstract 1 1. Introduction 2 2. Model simulations 4 3. Methods used for deriving probabilistic climate change forecasts 7 3.1 Resampling and variance correction 9 3.2 Relationship between local and large-scale climate changes in ENSEMBLES simulations 10 3.3 Comparison of large-scale /media/ces/D2.3_CES_Prob_fcsts_GCMs_and_RCMs.pdf

• 47. Horsens_case

  7 1 2 3 4 5 6 7 8 9 10 11 12 Month M ea n d is ch ar g e (m 3 / s) Present: Mean A2: Mean Station 280001: Upstream Bygholm Lake 0 5 10 15 20 25 30 35 1 2 3 4 5 6 7 8 9 10 11 12 Month M ax im u m d is ch ar g e (m 3 / s) Present: Max A2: Max Station 270045: Upstream Lake Nørrestrand 0 2 4 6 8 10 12 14 16 1 2 3 4 5 6 7 8 9 10 11 12 Month M ea n d is ch ar g e (m 3 / s) Present: Max A2: Max /media/loftslag/Horsens_case.pdf

• 48. vanRoosmalen_etal-2009-WRR_2007WR006760

  water model, which makes it possible to include feedback processes of the simulated changes. 2. Study Area [9] The study area is located in the western part of Jutland, Denmark, between the Jutland Ridge and the west coast (Figure 1) with an area of 5459 km2. The topography slopes gently from east to west with land surface elevations from 125 masl in the eastern part to sea level at the coast. Land /media/loftslag/vanRoosmalen_etal-2009-WRR_2007WR006760.pdf

• 49. VI_2009_006_tt

  Íslands Bústaðavegur 9 150 Reykjavík   Abstract Fast-rising jökulhlaups from the geothermal subglacial lakes below the Skaftá caul- drons in Vatnajökull emerge in the Skaftá river approximately every year with 45 jökulhlaups recorded since 1955. The accumulated volume of flood water was used to estimate the average rate of water accumulation in the subglacial lakes during the last decade as 6 Gl /media/vedurstofan/utgafa/skyrslur/2009/VI_2009_006_tt.pdf

• 50. Crochet_Philippe_CES_2010

  in snow cover duration between 25% warmest and 25% coldest years +1.7°C Catchment elevation (m.a.s.l) Catchment elevation (m.a.s.l) D u r a t i o n i n m o n t h barb2right -40 % Magnitude difference 100(Warmest - Coldest)/Coldest barb2right -37 days Mean yearly maximum snowmelt rate Timing difference between 25% warmest and 25% coldest years +1.7°CCatchment elevation (m.a.s.l) Catchment /media/ces/Crochet_Philippe_CES_2010.pdf