Quantitative effects of composting state variables on ... - ResearchGate
Quantitative effects of composting state variables on ... - ResearchGate
Quantitative effects of composting state variables on ... - ResearchGate
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
1254 W. Sun et al. / Science <str<strong>on</strong>g>of</str<strong>on</strong>g> the Total Envir<strong>on</strong>ment 409 (2011) 1243–1254<br />
Huang GH. A stepwise cluster-analysis method for predicting air-quality in an urbanenvir<strong>on</strong>ment.<br />
Atmos Envir<strong>on</strong> B 1992;26:349–57.<br />
Huang GF, W<strong>on</strong>g JWC, Wu QT, Nagar BB. Effect <str<strong>on</strong>g>of</str<strong>on</strong>g> C/N <strong>on</strong> <str<strong>on</strong>g>composting</str<strong>on</strong>g> <str<strong>on</strong>g>of</str<strong>on</strong>g> pig manure<br />
with sawdust. Waste Manage 2004;24:805–13.<br />
Khalil A, Domeizel M, Prudent P. M<strong>on</strong>itoring <str<strong>on</strong>g>of</str<strong>on</strong>g> green waste <str<strong>on</strong>g>composting</str<strong>on</strong>g> process based<br />
<strong>on</strong> redox potential. Bioresour Technol 2008;99:6037–45.<br />
Komilis DP. A kinetic analysis <str<strong>on</strong>g>of</str<strong>on</strong>g> solid waste <str<strong>on</strong>g>composting</str<strong>on</strong>g> at optimal c<strong>on</strong>diti<strong>on</strong>s. Waste<br />
Manage 2006;26:82–91.<br />
Kumar M, Ou YL, Lin JG. Co-<str<strong>on</strong>g>composting</str<strong>on</strong>g> <str<strong>on</strong>g>of</str<strong>on</strong>g> green waste and food waste at low C/N ratio.<br />
Waste Manage 2010;30:602–9.<br />
Larney FJ, Ellert BH, Ols<strong>on</strong> AF. Carb<strong>on</strong>, ash and organic matter relati<strong>on</strong>ships for feedlot<br />
manures and composts. Can J Soil Sci 2005;85:261–4.<br />
Larsen KL, McCartney DM. Effect <str<strong>on</strong>g>of</str<strong>on</strong>g> C:N ratio <strong>on</strong> microbial activity and N retenti<strong>on</strong>:<br />
bench-scale study using pulp and paper biosolids. Compos Sci Util 2000;8:147–59.<br />
Liang C, Das KC, McClend<strong>on</strong> RW. The influence <str<strong>on</strong>g>of</str<strong>on</strong>g> temperature and moisture c<strong>on</strong>tents<br />
regimes <strong>on</strong> the aerobic microbial activity <str<strong>on</strong>g>of</str<strong>on</strong>g> a biosolids <str<strong>on</strong>g>composting</str<strong>on</strong>g> blend.<br />
Bioresour Technol 2003;86:131–7.<br />
Lin C. A negative-pressure aerati<strong>on</strong> system for <str<strong>on</strong>g>composting</str<strong>on</strong>g> food wastes. Bioresour<br />
Technol 2008;99:7651–6.<br />
Lin YP, Huang GH, Lu HW, He L. A simulati<strong>on</strong>-aided factorial analysis approach for<br />
characterizing interactive <str<strong>on</strong>g>effects</str<strong>on</strong>g> <str<strong>on</strong>g>of</str<strong>on</strong>g> system factors <strong>on</strong> <str<strong>on</strong>g>composting</str<strong>on</strong>g> processes. Sci<br />
Total Envir<strong>on</strong> 2008;402:268–77.<br />
Martinez-Sabater E, Bustamante MA, Marhuenda-Egea FC, El-Khattabi M, Moral R,<br />
Lorenzo E, et al. Study <str<strong>on</strong>g>of</str<strong>on</strong>g> the evoluti<strong>on</strong> <str<strong>on</strong>g>of</str<strong>on</strong>g> organic matter during <str<strong>on</strong>g>composting</str<strong>on</strong>g> <str<strong>on</strong>g>of</str<strong>on</strong>g><br />
winery and distillery residues by classical and chemometric analysis. J Agric Food<br />
Chem 2009;57:9613–23.<br />
Mas<strong>on</strong> IG. Mathematical modelling <str<strong>on</strong>g>of</str<strong>on</strong>g> the <str<strong>on</strong>g>composting</str<strong>on</strong>g> process: a review. Waste Manage<br />
2006;26:3-21.<br />
Mudhoo A, Mohee R. Modeling heat loss during self-heating <str<strong>on</strong>g>composting</str<strong>on</strong>g> based <strong>on</strong><br />
combined fluid film theory and boundary layer c<strong>on</strong>cepts. J Envir<strong>on</strong> Inf 2008;11:<br />
74–89.<br />
Nels<strong>on</strong> DW, Sommers LE. Total carb<strong>on</strong>, organic carb<strong>on</strong>, and organic matter. In: Page AL,<br />
Miller RH, Keeney DR, editors. Methods <str<strong>on</strong>g>of</str<strong>on</strong>g> Soil Analysis, Part 2 Chemical and<br />
Microbiological Properties. Madis<strong>on</strong>, Wisc<strong>on</strong>sin, USA: American Society <str<strong>on</strong>g>of</str<strong>on</strong>g><br />
Agr<strong>on</strong>omy and Soil Science Society <str<strong>on</strong>g>of</str<strong>on</strong>g> America; 1982. p. 539–77.<br />
Qin XS, Huang GH, Chakma A. A stepwise-inference-based optimizati<strong>on</strong> system for<br />
supporting remediati<strong>on</strong> <str<strong>on</strong>g>of</str<strong>on</strong>g> petroleum-c<strong>on</strong>taminated sites. Water Air Soil Pollut<br />
2007;185:349–68.<br />
Qin XS, Huang GH, Zeng GM, Chakma A. Simulati<strong>on</strong>-based optimizati<strong>on</strong> <str<strong>on</strong>g>of</str<strong>on</strong>g> dual-phase<br />
vacuum extracti<strong>on</strong> to remove n<strong>on</strong>aqueous phase liquids in subsurface. Water<br />
Resour Res 2008;44.<br />
Rao CR. Advanced statistical methods in biometric research. New York: Wiley; 1952.<br />
106–207pp.<br />
Rao CR. Linear statistical inference and its applicati<strong>on</strong>s. New York: Wiley; 1965. 239–<br />
301pp.<br />
Ren YL, Zhang ZY, Ren YQ, Li W, Wang MC, Xu G. Diagnosis <str<strong>on</strong>g>of</str<strong>on</strong>g> lung cancer based <strong>on</strong><br />
metal c<strong>on</strong>tents in serum and hair using multivariate statistical methods. Talanta<br />
1997;44:1823–31.<br />
Richard TL, Hamelers HVM, Veeken A, Silva T. Moisture relati<strong>on</strong>ships in <str<strong>on</strong>g>composting</str<strong>on</strong>g><br />
processes. Compos Sci Util 2002;10:286–302.<br />
Sanchez-M<strong>on</strong>edero MA, Roig A, Paredes C, Bernal MP. Nitrogen transformati<strong>on</strong> during<br />
organic waste <str<strong>on</strong>g>composting</str<strong>on</strong>g> by the Rutgers system and its <str<strong>on</strong>g>effects</str<strong>on</strong>g> <strong>on</strong> pH. EC and<br />
maturity <str<strong>on</strong>g>of</str<strong>on</strong>g> the <str<strong>on</strong>g>composting</str<strong>on</strong>g> mixtures. Bioresour Technol 2001;78:301–8.<br />
Schloss PD, Walker LP. Measurement <str<strong>on</strong>g>of</str<strong>on</strong>g> process performance and variability in<br />
inoculated <str<strong>on</strong>g>composting</str<strong>on</strong>g> reactors using ANOVA and power analysis. Process Biochem<br />
2000;35:931–42.<br />
Sole-Mauri F, Illa J, Magri A, Prenafeta-Boldu FX, Flotats X. An integrated biochemical<br />
and physical model for the <str<strong>on</strong>g>composting</str<strong>on</strong>g> process. Bioresour Technol 2007;98:<br />
3278–93.<br />
Sun W, Huang GH, Zeng GM, Qin XS, Sun XL. A stepwise-cluster microbial biomass<br />
inference model in food waste <str<strong>on</strong>g>composting</str<strong>on</strong>g>. Waste Manage 2009;29:2956–68.<br />
Sundberg C, Smsρs S, J ss<strong>on</strong> H. Low pH as an inhibiting factor in the transiti<strong>on</strong> from<br />
mesophilic to thermophilic phase in <str<strong>on</strong>g>composting</str<strong>on</strong>g>. Bioresour Technol 2004;95:<br />
145–50.<br />
Tatsuoka MM. Multivariate analysis. New York: Wiley; 1971. 38–197pp.<br />
The MathWorks, Inc. Genetic Algorithm and Direct Search Toolbox(TM) 2 User's Guide.<br />
MathWorks. 2008. Ref Type: Electr<strong>on</strong>ic Citati<strong>on</strong>.<br />
Thomas GW. Soil pH and soil acidity in Sparks. In: D.L., et al, editor. Methods <str<strong>on</strong>g>of</str<strong>on</strong>g> soil<br />
analysis, Part 3, Chemical methods. Madis<strong>on</strong>, WI: Soil Science Society <str<strong>on</strong>g>of</str<strong>on</strong>g> America;<br />
1996. p. 475–90.<br />
Thorn KA, Penningt<strong>on</strong> JC, Hayes CA. M-15 NMR investigati<strong>on</strong> <str<strong>on</strong>g>of</str<strong>on</strong>g> the reducti<strong>on</strong> and<br />
binding <str<strong>on</strong>g>of</str<strong>on</strong>g> TNT in an aerobic bench scale reactor simulating windrow <str<strong>on</strong>g>composting</str<strong>on</strong>g>.<br />
Envir<strong>on</strong> Sci Technol 2002;36:3797–805.<br />
Tiquia SM, Tam NFY, Hodgkiss IJ. Microbial activities during <str<strong>on</strong>g>composting</str<strong>on</strong>g> <str<strong>on</strong>g>of</str<strong>on</strong>g> spent pigmanure<br />
sawdust litter at different moisture c<strong>on</strong>tents. Bioresour Technol 1996;55:<br />
201–6.<br />
Turner C, Williams A, White R, Tillett R. Inferring pathogen inactivati<strong>on</strong> from the surface<br />
temperatures <str<strong>on</strong>g>of</str<strong>on</strong>g> compost heaps. Bioresour Technol 2005;96:521–9.<br />
Vlyssides A, Mai S, Barampouti EM. An integrated mathematical model for co<str<strong>on</strong>g>composting</str<strong>on</strong>g><br />
<str<strong>on</strong>g>of</str<strong>on</strong>g> agricultural solid wastes with industrial wastewater. Bioresour<br />
Technol 2009;100:4797–806.<br />
Wilks SS. Mathematical statistics. New York: Wiley; 1962. 20–209pp.<br />
Wollum II AG. Cultural methods for soil microorganisms. In: Page AL, Miller RH, Keeney<br />
DR, editors. Methods <str<strong>on</strong>g>of</str<strong>on</strong>g> soil analysis, Part 2 Chemical and microbiological<br />
properties. Madis<strong>on</strong>, Wisc<strong>on</strong>sin, USA: American Society <str<strong>on</strong>g>of</str<strong>on</strong>g> Agr<strong>on</strong>omy and Soil<br />
Science Society <str<strong>on</strong>g>of</str<strong>on</strong>g> America; 1982. p. 782–95.<br />
W<strong>on</strong>g JWC, Mak KF, Chan NW, Lam A, Fang M, Zhou LX, et al. Co-<str<strong>on</strong>g>composting</str<strong>on</strong>g> <str<strong>on</strong>g>of</str<strong>on</strong>g> soybean<br />
residues and leaves in H<strong>on</strong>g K<strong>on</strong>g. Bioresour Technol 2001;76:99-106.