- Page 1 and 2:
Block-Kurs Luftchemie 19 - 23 März
- Page 3 and 4:
3 Ziel von der Block-Kurs Einführu
- Page 5 and 6:
5 Struktur des Kurses (2) Donnersta
- Page 7 and 8:
7 I) Entwicklung der Zusammensetzun
- Page 9 and 10:
9 Block-Kurs Luftchemie Berlin, 19-
- Page 11 and 12:
11 Formation and evolution of the a
- Page 13 and 14:
13 Block-Kurs Luftchemie Berlin, 19
- Page 15 and 16:
15 Block-Kurs Luftchemie Berlin, 19
- Page 17 and 18:
17 Development of the earth atmosph
- Page 19 and 20:
19 Averaged composition of volcanic
- Page 21 and 22:
21 Formation of O 2 in the atmosphe
- Page 23 and 24:
23 Block-Kurs Luftchemie Berlin, 19
- Page 25 and 26:
25 Live on earth started in a reduc
- Page 27 and 28: 27 Respiration: C n H m O p + O 2
- Page 29 and 30: 29 Air Ocean Block-Kurs Luftchemie
- Page 31 and 32: 31 Figures from: The revenge of Gai
- Page 33 and 34: 33 Block-Kurs Luftchemie Figure 2:
- Page 35 and 36: 35 Doom-scenario II New micro-organ
- Page 37 and 38: 37 Wissenschaftliche Frage Wie wahr
- Page 39 and 40: 39 Aerosols and Cloud Condensation
- Page 41 and 42: 41 Also used, especially in air qua
- Page 43 and 44: 43 Emission : Anthropogenic and/or
- Page 45 and 46: 45 Block-Kurs Luftchemie Berlin, 19
- Page 47 and 48: 47 Relative Standard Deviation 10 2
- Page 49 and 50: 49 Block-Kurs Luftchemie Berlin, 19
- Page 51 and 52: 51 Turbulent diffusion / Eddy diffu
- Page 53 and 54: 53 Block-Kurs Luftchemie Berlin, 19
- Page 55 and 56: 55 Block-Kurs Luftchemie Berlin, 19
- Page 57 and 58: 57 Chemical reactions occur by addi
- Page 59 and 60: 59 Block-Kurs Luftchemie Berlin, 19
- Page 61 and 62: 61 Block-Kurs Luftchemie Berlin, 19
- Page 63 and 64: 63 σ ab (λ) : Absorption cross-se
- Page 65 and 66: 65 Block-Kurs Luftchemie Berlin, 19
- Page 67 and 68: 67 Block-Kurs Luftchemie Berlin, 19
- Page 69 and 70: 69 Block-Kurs Luftchemie Berlin, 19
- Page 71 and 72: 71 At 55 ° N January 360 DU Block-
- Page 73 and 74: 73 Formation of stratosphere O 3 O
- Page 75 and 76: 75 n 1 : conc. O n 2 : conc. O 2 n
- Page 77: 77 Theory of Chapman (1932) From th
- Page 81 and 82: 81 Block-Kurs Luftchemie N 2 O (ca.
- Page 83 and 84: 83 Impact of NO and NO 2 , but also
- Page 85 and 86: 85 H 2 O troposphere: 0.2 - 4% stra
- Page 87 and 88: 87 Block-Kurs Luftchemie Berlin, 19
- Page 89 and 90: 89 Followed by: Cl + O 3 ClO + O 2
- Page 91 and 92: 91 Loss reactions for Cl Cl + CH4 H
- Page 93 and 94: 93 Block-Kurs Luftchemie Berlin, 19
- Page 95 and 96: 95 Stratospheric ozone budget Block
- Page 97 and 98: 97 Block-Kurs Luftchemie F 11: DuPo
- Page 99 and 100: 99 British Antartic Survey; 1982 TO
- Page 101 and 102: 101 Block-Kurs Luftchemie ‘Om het
- Page 103 and 104: 103 Situation Polar night: polar vo
- Page 105 and 106: 105 Block-Kurs Luftchemie PSC: Pola
- Page 107 and 108: 107 Stratospheric ozone worldwide S
- Page 109 and 110: 109 Increase of UV-B leads to Incre
- Page 111 and 112: 111 Block-Kurs Luftchemie Berlin, 1
- Page 113 and 114: 113 Block-Kurs Luftchemie Berlin, 1
- Page 115 and 116: 115 Block-Kurs Luftchemie Berlin, 1
- Page 117 and 118: (WMO, 2007) 117 Block-Kurs Luftchem
- Page 119 and 120: 119 Block-Kurs Luftchemie (WMO, 200
- Page 121 and 122: 121 Block-Kurs Luftchemie ODP and G
- Page 123 and 124: 123 Block-Kurs Luftchemie Ozone in
- Page 125 and 126: 125 Koplung Klima-änderung und Str
- Page 127 and 128: 127 Tropospheric ozone 90 % of all
- Page 129 and 130:
129 Surface-near ozone at Montsouri
- Page 131 and 132:
131 Block-Kurs Luftchemie Berlin, 1
- Page 133 and 134:
133 Increase of tropospheric ozone:
- Page 135 and 136:
135 Netto: CH 4 + 8 O 2 → CO + 4
- Page 137 and 138:
137 RH : Reactive Hydrocarbons VOC
- Page 139 and 140:
139 Block-Kurs Luftchemie O 2 ην
- Page 141 and 142:
141 Policy for tropospheric O 3 RH
- Page 143 and 144:
143 Block-Kurs Luftchemie Berlin, 1
- Page 145 and 146:
145 The formation of the OH-radical
- Page 147 and 148:
147 OH-radical 'discovered' by Levy
- Page 149 and 150:
149 Trends in the OH-concentration
- Page 151 and 152:
151 Dry Deposition Flux = Fs [conc.
- Page 153 and 154:
153 Block-Kurs Luftchemie Dry depos
- Page 155 and 156:
155 Dg, Dl = Moleculair Diffusion C
- Page 157 and 158:
157 Wet Deposition Two processes: I
- Page 159 and 160:
159 Loss term CH 4 + OH ~ 400 Tg/ y
- Page 161 and 162:
161 Block-Kurs Luftchemie Berlin, 1
- Page 163 and 164:
163 Block-Kurs Luftchemie Berlin, 1
- Page 165 and 166:
165 Block-Kurs Luftchemie Berlin, 1
- Page 167 and 168:
167 I) Eiszeit Methan Vor 38.000/14
- Page 169 and 170:
169 Tropospheric O 3-budget A. Infl
- Page 171 and 172:
171 ad B. Deposition flux V d depos
- Page 173 and 174:
173 Chem. Prod. Chem. Destr. Netto
- Page 175 and 176:
175 Emissions Anthropogenic Biogeni
- Page 177 and 178:
177 Contained in fuels S → SO 2 H
- Page 179 and 180:
179 Emissie benzine-auto’s N 2 78
- Page 181 and 182:
181 Natural emissions Sea-salt (NaC
- Page 183 and 184:
183 Resolution needed? Emission Tes
- Page 185 and 186:
185 A more refined Budget Analysis
- Page 187 and 188:
187 Block-Kurs Luftchemie Examples
- Page 189 and 190:
189 Increase in surface ozone from
- Page 191 and 192:
191 Block-Kurs Luftchemie ECHAM Ber
- Page 193 and 194:
193 Block-Kurs Luftchemie Radiative
- Page 195 and 196:
195 Block-Kurs Luftchemie MOGUNTIA
- Page 197 and 198:
197 3-D Eulerian grid modelling Glo
- Page 199 and 200:
199 Model calculations hour-by-hour
- Page 201 and 202:
201 Block-Kurs Luftchemie Berlin, 1
- Page 203 and 204:
203 Block-Kurs Luftchemie Berlin, 1
- Page 205 and 206:
205 Block-Kurs Luftchemie Berlin, 1
- Page 207 and 208:
207 Block-Kurs Luftchemie Waldhof:
- Page 209 and 210:
209 Acidification / Eutrophication
- Page 211 and 212:
211 Policy based on − Average Acc
- Page 213 and 214:
213 Block-Kurs Luftchemie Berlin, 1
- Page 215 and 216:
215 Block-Kurs Luftchemie Berlin, 1
- Page 217 and 218:
217 Block-Kurs Luftchemie Berlin, 1
- Page 219 and 220:
219 Data assimilation by combining
- Page 221 and 222:
221 Ensemble using different CTM’
- Page 223 and 224:
223 Yearly mean diurnal cycle of oz
- Page 225 and 226:
225 Block-Kurs Luftchemie DEM with
- Page 227 and 228:
227 Block-Kurs Luftchemie Berlin, 1
- Page 229 and 230:
229 Block-Kurs Luftchemie Radiative
- Page 231 and 232:
231 Aitken particles : r < 0.1 µm
- Page 233 and 234:
233 Block-Kurs Luftchemie Berlin, 1
- Page 235 and 236:
235 Block-Kurs Luftchemie Berlin, 1
- Page 237 and 238:
237 Removal of aerosols by: Coagula
- Page 239 and 240:
239 Wet deposition and aqueous phas
- Page 241 and 242:
241 Cloud-drops can evaporate Aeros
- Page 243 and 244:
243 Block-Kurs Luftchemie Berlin, 1
- Page 245 and 246:
Berlin, 19-23 März 2007 Block-Kurs
- Page 247 and 248:
247 Messungen von Aerosolen Zusamme
- Page 249 and 250:
249 Satelliet-messungen von Aerosol
- Page 251 and 252:
251 Mean Ångström coefficient (a)
- Page 253 and 254:
253 Secondary inorganic aerosol NO
- Page 255 and 256:
255 Erste Ergebnisse Modellierung v
- Page 257 and 258:
257 Average BSOA 28 July - 13 Augus
- Page 259 and 260:
259 Average computed (LOTOS) wind b
- Page 261 and 262:
261 Soot ( Russ) is the same as Bla
- Page 263 and 264:
263 Block-Kurs Luftchemie Figure 2
- Page 265 and 266:
265 Block-Kurs Luftchemie Figure 4
- Page 267 and 268:
267 Block-Kurs Luftchemie SO 3 Scat
- Page 269 and 270:
269 Block-Kurs Luftchemie BC to mea
- Page 271 and 272:
Model 271 60 50 40 30 20 10 0 Verif
- Page 273 and 274:
Modelled concentration ( µg/m 3 Mo
- Page 275 and 276:
275 Die EU-Rahmenrichtlinien und an
- Page 277 and 278:
277 Grenzwerte NO 2 40 µg/m 3 Jahr
- Page 279 and 280:
279 Block-Kurs Luftchemie Berlin, 1
- Page 281 and 282:
CALCULATED RCG 281 80 70 60 50 40 3
- Page 283 and 284:
283 RCG: Zartau: PM10 COMPOSITION 1
- Page 285 and 286:
RCG modelling domains. Upper left:
- Page 287 and 288:
287 Many problems in understanding
- Page 289 and 290:
289 Aerosols are also relevant for
- Page 291 and 292:
291 M.Schaap et al. “Anthropogeni
- Page 293 and 294:
293 Block-Kurs Luftchemie PM10 MEAN
- Page 295 and 296:
295 Block-Kurs Luftchemie Validatie
- Page 297 and 298:
297 Diplomthermen TRUMF (2) Verwend