Page 375 - Sustainability in the Process Industry Integration and Optimization
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heat pinch technology (Cont.): HUD. See Housing and Urban
second problem, 224–226 Development
utility requirements and cost, 225 Hungarian Chemical Society, 11
heat pumps, 7 hybrids:
configuration, 73 approach, 95–96
HI of energy-intensive processes energy conversion systems, 317
and, 72–77 hydrogen networks
placement against heat recovery CCs and hydrogen surplus diagram
problem, 74 with, 124
procedure for sizing, 74 PI and, 123–125
sizing example, 75–76 HYSYS/UniSim Design, 203
heat recovery:
constructing hot CCs and, 52 I I
constructing total site CCs and, 99 ICheaP. See Italian Conference on
evaluation of multiple streams, Chemical and Process
51–54 Engineering
heat exchange and, 45–47 ICOSSE. See AlChE International
heat exchange matches and, 46–47 Congress on Sustainability
between hot/cold stream, 51 Science and Engineering
implementing matches with, 47 IEA. See International Energy
limits for process, 54 Agency
problem and partitioning, 55–56 ILOG ODM, 209–210
problem identification and PI Industrial & Engineering Chemistry
basics, 48–50 Research, 310
via steam systems, 99–100 industrial applications:
targeting, 100 case studies and, 253–280
thermodynamic limits on, 51 de-bottlenecking heat-integrated
variation of targets with, 53 crude-oil distillation system,
heat recovery pinch: 256–262
energy efficiency and, 54–56 energy efficiency in food/drink
HENs and, 14–15 industries, 268–271
limits for process heat recovery energy recovery from FCC unit,
set by, 54 253–256
trade-off between investment and heat/power integration buildings
energy costs with, 54 and building complexes,
heat transfer: 275–277
area, capital cost and total cost minimizing water/wastewater in
targeting, 69–70 citrus juice plant, 262–268
enhancement and pressure drop, optimal design of supply chain,
146–148 277–279
Heat Transfer Engineering, 301 scheduling large-scale paint
HEAT-int, 195 production system, 279–280
Hebling Technik, 308 synthesis of industrial utility
HENS. See Heat Exchanger Networks systems, 271–275
HEXTRAN, 199–200 information hiding, 39
HI. See Heat Integration information sources, general:
high-temperature FCs combined analysis, 306–309
(MCFC/SOFC), 4 conferences, 11, 295–296, 301, 304,
hill climbing stochastic search 306, 309–310
method, 32 further reading and, 295–311
Honeywell, Canada, 311 general, 295–301
hospital complex example, 21 HI, 301–304
Hot Composite Curve, 15, 52 journals, 297, 302, 304–305, 307, 310
hot oil utilities, 66 mass integration, 304–306
Housing and Urban Development optimization for sustainable
(HUD) Department, U.S., 3 industry, 309–311
