Navigation by alphabet
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
Oblate spheroids, free convective heat transfer from,
Ocean Thermal Energy Conversion (OTEC),
Octadecane:
Octadecene:
Octane:
1-Octanol:
1-Octene:
Octafluorocyclobutane (Refrigerant C318)
OEST, heat transfer medium,
Oldroyd eight constant model, for non-Newtonian fluid,
Olefins:
Oliviera, S
Olex, heat transfer medium,
ONB (onset of nucleate boiling):
Once-through cooling towers,
Once-through multistage flash evaporators, (MSF-OT)
One-equation models, for turbulent boundary layers,
Open-circuit cooling towers,
Operational envelope of a heat pipe,
Operational problems:
Opposed convection:
Opto-microfluidics,
Organic compounds, aqueous solutions of, as heat transfer media,
Organic solids, density,
Organic sulfur compounds:
Organic vapours, dropwise condensation of,
Orifices:
Orifice baffles, in tube bundles with longitudinal flow,
Orrick and Erbar method for saturated liquid viscosity,
Outer tube limit, in shell-and-tube heat exchangers,
Outlet effects, in shell-and-tube heat exchangers,
Overall heat transfer coefficient,
Overall power hypothesis, for critical heat flux in flow boiling,
Overcapacity, in condensers,
Oxygen:
Index
HEDH
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
Oblate spheroids, free convective heat transfer from,
Ocean Thermal Energy Conversion (OTEC),
Octadecane:
Octadecene:
Octane:
1-Octanol:
1-Octene:
Octafluorocyclobutane (Refrigerant C318)
OEST, heat transfer medium,
Oldroyd eight constant model, for non-Newtonian fluid,
Olefins:
Oliviera, S
Olex, heat transfer medium,
ONB (onset of nucleate boiling):
Once-through cooling towers,
Once-through multistage flash evaporators, (MSF-OT)
One-equation models, for turbulent boundary layers,
Open-circuit cooling towers,
Operational envelope of a heat pipe,
Operational problems:
Opposed convection:
Opto-microfluidics,
Organic compounds, aqueous solutions of, as heat transfer media,
Organic solids, density,
Organic sulfur compounds:
Organic vapours, dropwise condensation of,
Orifices:
Orifice baffles, in tube bundles with longitudinal flow,
Orrick and Erbar method for saturated liquid viscosity,
Outer tube limit, in shell-and-tube heat exchangers,
Outlet effects, in shell-and-tube heat exchangers,
Overall heat transfer coefficient,
Overall power hypothesis, for critical heat flux in flow boiling,
Overcapacity, in condensers,
Oxygen:
P
Q
R
S
T
U
V
W
X
Y
Z
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Operational Problems
DOI 10.1615/hedhme.a.000264
3.4.5 Operational problems
David Butterworth
A. Introduction
Operational problems are discussed under three main headings below
- Over-capacity
- Under-capacity
- Other problems
The main sources of information used in writing this section were the previous HEDH Section written by Mueller and the report of a discussion session held in 1974 and chaired by Steinmeyer and Mueller (1974).
B. Over-capacity
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