Biomedical Engineering Reference
In-Depth Information
L
,
mm
0.13-0.2
Equations
(22), (23),
(25), Table 1
∼
1
Equations
(22), (23),
(25), Table 1
—
—
D
),
cm
2
s
-1
(
T
∼
D
1
)
Equations
(22), (23),
(25), Table 1
(
T
∼
D
1
)
Equations
(22), (23),
(25), Table 1
(
T
m
m
m
—
—
ads
D
H
∼ D
H
∼ D
H
∼ D
H
—
—
(13)I
(13)I
(13)I
D
S
ads
∼ D
S
∼ D
S
∼ D
S
(13)I
Equations
(14), (15)
for process I,
Table 1
(13)I
Equations
(14), (15)
for process
I, Table 1
(13)I
Equations
(14), (15)
for process I,
Table 1
X
= H
/C
1.8 × 10
-2
≤
2 × 10
-2
2
—
—
X
= (H
/C)
0.13[Eqs.
(34)]
∼
5 × 10-2
[Eqs. (34)]
≤
0.15
m
2
m
—
X
s
s
= (H
/
C
)
≥
0.20
[Eqs. (35)]
∼
0.2
m
2
exp
m
—
—
Figure 2.11
Hydrogen sorption isotherms [64] for single-wall nanotube
samples (1.22 g) at 273 K (
). The
inset shows the isosteric enthalpy of hydrogen adsorption
by single-wall nanotube samples for different adsorbate
concentrations.
), 298 K (Δ) and 323 K (