| 1115 - 1150 |
Exergy analysis for resource conversion of the Chinese Society 1993 under the material product system
Chen B, Chen GQ |
| 1151 - 1166 |
Alternative depreciation policies for promoting combined heat and power (CHP) development in Brazil
Soares JB, Szklo AS, Tolmasquim MT |
| 1167 - 1176 |
Analysis of the overall energy intensity of alumina refinery process using unit process energy intensity and product ratio method
Liu L, Aye L, Lu ZW, Zhang PH |
| 1177 - 1196 |
A combined power and cooling cycle modified to improve resource utilization efficiency using a distillation stage
Vijayaraghavan S, Goswami DY |
| 1197 - 1214 |
Simulating a combination of feebates and scrappage incentives to reduce automobile emissions
BenDor T, Ford A |
| 1215 - 1227 |
Multi-criteria evaluation of cooking devices with special reference to utility of parabolic solar cooker (PSC) in India
Pohekar SD, Ramachandran M |
| 1228 - 1242 |
Energy performance of independent air dehumidification systems with energy recovery measures
Zhang LZ |
| 1243 - 1256 |
Energy use pattern analyses of greenhouse vegetable production
Canakci A, Akinci I |
| 1257 - 1289 |
SPECO: A systematic and general methodology for calculating efficiencies and costs in thermal systems
Lazzaretto A, Tsatsaronis G |
| 1290 - 1304 |
Market efficiency, cross hedging and price forecasts: California's natural-gas markets
Woo CK, Olson A, Horowitz I |
| 1305 - 1320 |
Estimating energy requirement in cashew (Anacardium occidentale L.) nut processing operations
Jekayinfa SO, Bamgboye AI |
| 1321 - 1331 |
Energetics of coal substitution by briquettes of agricultural residues
Purohit P, Tripathi AK, Kandpal TC |
| 1332 - 1344 |
Passive options for solar cooling of buildings in and areas
Amer EH |
