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Table 2: Density of FAME at 15 °C according to ASTM D6751 and EN 14214 MeOH:Oil Catalyst Concentration (w/w %) Density (kg/m3) 6:1 0.75 905 1.00 899 1.25 884 9:1 0.75 893 1.00 914 1.25 902 12:1 0.75 889 1.00 896 1.25 899 Based on Table 2, the density of the FAME is in the allowable range according to the standard.

Rood, Structural characterization of single-walled carbon nanotube bundles by experiment and molecular simulation, Langmuir. 21(2005) 896–904

Design of current mirror circuit 12 Reference current [µA] Iref 1000 13 Resistance [Ω] R = (VDD ̶ VGS)/Iref 896 Design of Current Mirror based MOSFET Embedded Pressure Sensor A current mirror MOSFET embedded pressure sensor has been designed based on the piezoresistive effect in MOSFET.

Chemosphere, 2009, 74(7): 896-901 [6] Guan Y F, Sojinu S, Li S M, et al.

., 1995, 31, (1), pp. 885−896 [6] Kim, W.J., Trumper, D.L., and Lang, J.H.: ‘Modeling and vector control of planar magnetic levitator’, IEEE Trans.

Dhar, IEEE Electron Device Lett. 35(9) (2014) 894–896

The strong absorption band at 3400 cm-1 related to stretching of OH groups and C-H stretching absorption around 2800~3000 cm-1[13-17].the C-O stretching around 950-1200 cm-1 are associated with of cellulose [16, 18].The band at 896 cm-1 are associated with C-H vibrations of cellulose [19, 20].

Res. vol. 896 (2014), p. 706-709.

(W/m oC) Heat capacity (J/kg oC) 276 2700 167 896 274 2685 170 920 264 2685 177 978 248 2667 184 1004 218 2657 192 1028 159 2657 201 1052 66.2 2630 207 1078 34.5 2620 217 1104 17.9 2602 223 1133 Heat generated at the shoulder (7) 2.1.2 Total heat generated Similarly heat generated at the pin side and pin bottom are calculated Heat generated at the pin, (8) Total Heat generated, (9) 2.1.3 Heat flux The area heat flux at the shoulder for (10) The hollow cylindrical shape volume heat flux of pin (11) 2.2 Finite element model The finite element model is shown in Fig.2.

Peak assignment Wavenumber [cm-1] RT212 LT212 RT112 LT112 RT122 LT122 Asymmetric (C=C) and symmetric (C-C) stretching [15] 1541 1545 1541 1541 1541 1549 C-N stretching [15] 1458 1456 1450 1458 1458 1452 C-H in-plane deformation vibration [15] 1281 1305 1319 1307 1319 1303 Breathing vibration of pyrrole ring [9] 1167 1176 1167 1167 1167 1172 C-H and C-N in-plane deformation vibration [9] 1043 1043 1034 1034 1036 1041 C-H out-of-plane deformation vibration [9] 887 897 896 895 895 895 Fig. 02: SEM of polypyrrole nanoparticles: (A) RT212 and (B) LT212.