| 1 - 9 |
Efficient and environmentally-sound biomass production systems 1992-1994
Zsuffa L, Gambles RL |
| 11 - 34 |
New cultural treatments and yield optimisation
Mitchell CP |
| 35 - 43 |
Growth processes
SennerbyForsse L |
| 45 - 52 |
Herbaceous energy crops: A general survey and a microeconomic analysis
Caserta G, Bartolelli V, Mutinati G |
| 53 - 68 |
Characterisation of poplar and willow clones and cultivars
Zsuffa L |
| 69 - 79 |
Disease and pest control in the bioenergy crops poplar and willow
Royle DJ, Ostry ME |
| 81 - 87 |
Exchange, evaluation, and joint testing of genetic stock
Hall RB, Hanna RD |
| 89 - 105 |
Silviculture and economic benefits of producing wood energy from conventional forestry systems and measures to mitigate negative impacts
Manley A, Richardson J |
| 107 - 116 |
Ecological, biological balances and conservation
Perttu KL |
| 117 - 125 |
IEA Bioenergy Agreement Task IX - Harvesting and supply of woody biomass for energy 1992-1994
Mattsson JE, Mitchell CP |
| 127 - 140 |
Mechanisation of short rotation forestry
Culshaw D, Stokes B |
| 141 - 151 |
Integrated harvesting systems
Hudson JB |
| 153 - 160 |
Harvesting small trees and forest residues
Gingras JF |
| 161 - 179 |
Environmental consequences of intensive harvesting
Smith CT |
| 181 - 190 |
Storage and drying of wood fuel
Jirjis R |
| 191 - 203 |
The transportation of fuel wood from forest to facility
AngusHankin C, Stokes B, Twaddle A |
| 205 - 226 |
Technoeconomic assessment of biomass to energy
Mitchell CP, Bridgwater AV, Stevens DJ, Toft AJ, Watters MP |
| 227 - 233 |
Biomass utilisation: A perspective of Task X IEA bioenergy agreement 1992-1994
Wallace CJ |
| 235 - 255 |
Biomass combustion research and utilisation in IEA countries
Hustad JE, Kreiberg O, Sonju OK |
| 257 - 269 |
Feasibility of power production with pyrolysis and gasification systems
Solantausta Y, Bridgwater AT, Beckman D |
| 271 - 285 |
Thermal gasification of biomass technology developments: End of task report for 1992 to 1994
Babu SP |
| 287 - 302 |
Bioconversion of lignocellulosic residue to ethanol: Process flowsheet development
Gregg D, Saddler JN |
| 303 - 314 |
Viable energy production and waste recycling from anaerobic digestion of manure and other biomass materials
Tafdrup S |
| 315 - 323 |
Utilisation of straw and similar agricultural residues
Nielsen C |
| 325 - 341 |
The nature and control of solid, liquid and gaseous emissions from the thermochemical processing of biomass
Bridgwater AV, Elliott DC, Fagernas L, Gifford JS, Mackie KL, Toft AJ |
| 343 - 349 |
IEA bioenergy agreement Task XI: Municipal solid waste conversion to energy end of task review
Aitchison EM |
| 351 - 363 |
End of task report of the IA (incineration activity) of Task XI of the bioenergy agreement of the IEA
Temmink H |
| 365 - 376 |
Anaerobic digestion of municipal solid waste: A modern waste disposal option on the verge of breakthrough
Braber K |
| 377 - 386 |
An international perspective on the characterisation and management of residues from MSW incinerators
Sawell SE, Chandler AJ, Eighmy TT, Hartlen J, Hjelmar O, Kosson D, vanderSloot HA, Vehlow J |
| 387 - 398 |
The impact of source separation, recycling and mechanical processing on MSW conversion to energy activity
Lunde T |
| 399 - 413 |
The landfill gas activity of the IEA bioenergy agreement
Lagerkvist A |
| 415 - 439 |
The international energy agency's (IEA) work in harmonising sampling and analytical protocols related to municipal solid waste (MSW) conversion to energy
Scott PE |
