Energetische Nutzung von feuchter Biomasse in ... - tuprints
Energetische Nutzung von feuchter Biomasse in ... - tuprints
Energetische Nutzung von feuchter Biomasse in ... - tuprints
Sie wollen auch ein ePaper? Erhöhen Sie die Reichweite Ihrer Titel.
YUMPU macht aus Druck-PDFs automatisch weboptimierte ePaper, die Google liebt.
Substanz NMR-Daten 1 H und 13 C<br />
Ethylam<strong>in</strong><br />
Literatur [Hes1995,<br />
SDB-2004]<br />
Formaldehyd-Hydrat<br />
Furfural<br />
Literatur [Dan-1976,<br />
Alb-1986]<br />
Literatur [SDB-2004]<br />
Glycer<strong>in</strong>aldehyd (*)<br />
Literatur [Ser-1979]<br />
Glycer<strong>in</strong>säure (*)<br />
Literatur [Cal-1987]<br />
Glyc<strong>in</strong><br />
Literatur [SDB-2004]<br />
Glykolaldehyd-Hydrat<br />
Literatur [Col-1971,<br />
Sei-1973, Ser-1979]<br />
Glykolsäure (pH 2,5 - 3,5)<br />
(pH 7 - 9)<br />
Literatur [Dil-1980,<br />
SDB-2004]<br />
1H (500 MHz, H2O): δ = 1.15 (t, CH3CH2NH2),<br />
2.93 (q, CH3CH2NH2), J1,2 = 7,5 Hz<br />
13C (126 MHz, H2O): δ = 13 (C-2), 36 (C-1)<br />
1H (k.A., CDCl3): δ = 1.10 (t, CH3CH2NH2),<br />
2.74 (q, CH3CH2NH2)<br />
13C (25 MHz, CDCl3): δ = 19 (C-2), 37 (C-1)<br />
1 H (500 MHz, H2O): δ = 4.68 (s, CH2(OH)2)<br />
13 C (126 MHz, H2O): δ = 83<br />
1 H (220 MHz, H2O): δ = 4.65 (s, CH2(OH)2)<br />
13 C (23 MHz, H2O): δ = 85<br />
1H (500 MHz, H2O): δ = 6.62 (dd, 4-H), 7.43 (d, 3-H),<br />
7.73 (d, 5-H), 9.35 (s, 1-H)<br />
1H (90 MHz, CDCl3): δ = 6.63 (m, 4-H), 7.30 (d, 3-H),<br />
7.73 (d, 5-H), 9.67 (s, 1-H), J3,4 = 3,6 Hz, J4,5 = 1,7 Hz<br />
1 H (500 MHz, D2O): δ = 3.42-3.49 (m), 3.60 (dd), 4.80 (d)<br />
13 C (126 MHz, D2O): δ = 62 (C-3), 74 (C-2), 90 (C-1)<br />
13 C (k.A., H2O): δ = 63 (C-3), 76 (C-2), 91 (C-1)<br />
1H (500 MHz, H2O): δ = 3.72 (d, HOCH2CH(OH)COOH),<br />
4.22 (t, HOCH2CH(OH)COOH)<br />
13C (126 MHz, H2O): δ = 65 (C-3), 73 (C-2), 177 (C-1)<br />
1 H (k.A., k.A.): δ = 3.7, 4.1<br />
13 C (k.A., k.A.): δ = 65, 74, 180<br />
1 H (500 MHz, H2O): δ = 3.35 (s, H2NCH2COOH)<br />
1 H (300 MHz, D2O): δ = 3.57 (s, H2NCH2COOH)<br />
1 H (500 MHz, H2O): δ = 3.36 (d, HC(OH)2CH2OH),<br />
4.91 (t, HC(OH)2CH2OH), J1,2 = 5,0 Hz<br />
13 C (126 MHz, H2O): δ = 66 (C-2), 91(C-1)<br />
1 H (60 MHz, D2O): δ = 3.6 (d, HC(OH)2CH2OH),<br />
5.1 (t, HC(OH)2CH2OH), J1,2 = 5,0 Hz<br />
13 C (k.A., H2O): δ = 66 (C-2), 91 (C-1)<br />
1 H (500 MHz, H2O): δ = 4.03 (s, HOOCCH2OH)<br />
1 H (500 MHz, H2O): δ = 3.74 (s, HOOCCH2OH)<br />
13 C (126 MHz, H2O): δ = 61 (C-2)<br />
1 H (60 MHz, D2O): δ = 4.2 (s, HOOCCH2OH)<br />
13 C (25 MHz, D2O): δ = 60 (C-2)<br />
1 H (500 MHz, H2O): δ = 3.74 (s, HOCH2COOH)<br />
Anhang<br />
247