62 / 68
INTERNATIONAL AGRICULTURAL JOURNAL № 1 / 2017
www.mshj.ru60
SCIENTIFIC SUPPORT AND MANAGEMENT OF AGRARIAN AND INDUSTRIAL COMPLEX
34. Mata-Alvarez J., Dosta J., Mace S., Astals S.
Codigestion of solid wastes: a review of its uses
and perspectives including modeling // Critical Re-
views in Biotechnology. 2011. Volume 31, Issue 2.
P. 99-111.
35. Oliveira F.J., Santana D.D., Costa S.S., Olivei-
ra L.D., Liduino V.S., Servulo E.F. Generation, charac-
terization and reuse of solid wastes from a biodies-
el production plant // Waste Management. 2016.
36. Valdivia M., Galan J.L., Laffarga J., Ramos J.L.
Biofuels 2020: Biorefineries based on lignocellu-
losic materials // Microbial Biotechnology. 2016.
Volume 9, Issue 5. P. 585-594.
37. Arne Martin Fevolden, Antje Klitkou. A fuel
too far? Technology, innovation, and transition
in failed biofuel development in Norway // En-
ergy Research & Social Science. 2017. Volume 23.
P. 125-135.
38. Титова Е.С., Бондарчук Н.В. Анализ инно-
вационных подходов к созданию и использо-
ванию альтернативных источников энергии на
примере биотоплива // Российский экономиче-
ский интернет-журнал. 2017. № 1. 15 с.
39. Macrelli S., Galbe M., Wallberg O. Effects of
production and market factors on ethanol profit-
ability for an integrated first and second genera-
tion ethanol plant using the whole sugarcane as
feedstock // Biotechnology for Biofuels. 2014. Vol-
ume 7, Issue 1. 16 pages.
40. Официальный
сайт
Альтернатив-
ная энергетика. Раздел «Биотопливо из рап-
са» [Электронный ресурс]. Режим доступа:
http://elettracompany.com/node/10041. Shafiei M., Karimi K., Zilouei H., Taherza-
deh M.J. Economic impact of NMMO pretreatment
on ethanol and biogas production from pine-
wood // BioMed Research International. 2014. Vol-
ume 2014. 13 pages.
42. Wang R., Unrean P., Franzen C.J. Model-
based optimization and scale-up of multi-feed si-
multaneous saccharification and co-fermentation
of steam pre-treated lignocellulose enables high
gravity ethanol production // Biotechnology for
Biofuels. 2016. Volume 9:88. 13 pages.
43. Официальный сайт CLEANDEX Центра
маркетинговой компетенции в области чис-
тых технологий маркетинговой группы «Те-
карт» [Электронный ресурс]. Режим доступа:
http://www.cleandex.ru/articles/2008/07/07/biofuels-trends-2007
44. Министерство энергетики США. Инфор-
мационно-аналитический центр возобновляе-
мых источников энергии [Электронный ресурс].
Режим доступа:
http://www.afdc.energy.gov/Literatura
1. Portal MGIMO [Elektronnyj resurs]. Rezhim
dostupa:
http://mgimo.ru/about/news/experts/itogi-parizhskoy-konferentsii-po-izmeneniyu-
klimata/
2. Oficial’nyj sajt Organizacii Ob”edinennyx
Nacij [Elektronnyj resurs]. Rezhim dostupa: http://
www.un.org/3. Federal’nyj zakon «Ob elektroenergetike»
ot 26.03.2003 (red. ot 03.07.2016) № 35-FZ //
Rossijskaya gazeta.
4. Postanovlenie Pravitel’stva Rossijskoj Feder-
acii ot 7 oktyabrya 2014 g. № 1016 «O vnesenii izm-
enenij v trebovaniya k sxemam teplosnabzheniya,
utverzhdennye postanovleniem Pravitel’stva Ros-
sijskoj Federacii ot 22 fevralya 2012 g. № 154» //
Rossijskaya gazeta.
5. Canakci M., Sanli H. Biodiesel production
from various feedstocks and their effects on the
fuel properties // Journal of Industrial Microbiol-
ogy & Biotechnology. 2008. Volume 35, Issue 5.
P. 431-441.
6. Varfolomeev S.D., Efremenko E.N., Krylo-
va L.P. Biotopliva // Uspexi ximii. 2010. T. 79. № 6.
S. 544-564.
7. Lukomec V.M., Zelencov S.V., Krivosh-
lykov K.M. Perspektivy i rezervy rasshireniya proiz-
vodstva maslichnyx kul’tur v Rossijskoj Federacii //
Maslichnye kul’tury. Nauchno-texnicheskij byul-
leten’ Vserossijskogo nauchno-issledovatel’skogo
instituta maslichnyx kul’tur. 2015. Vyp. 4 (164).
S. 81-102.
8. Wu W., Ma B. Integrated nutrient manage-
ment (INM) for sustaining crop productivity and re-
ducing environmental impact: a review // Science
of The Total Environment. 2015. Volumes 512-513.
P. 415-427.
9. Chen H., Jiang W., Yang Y., Yang Y., Man X.
Global trends of municipal solid waste research
from 1997 to 2014 using bibliometric analysis //
Journal of the Air & Waste Management Associa-
tion. 2015. Volume 65 (10). P. 1161-1170.
10. Arizzi M., Morra S., Pugliese M., Gullino M.L.,
Gilardi G., Valetti F. Biohydrogen and biomethane
production sustained by untreated matrices and
alternative application of compost waste // Waste
Management. 2016. Volume 56. P. 151-157.
11. Aditiya H.B., Chong W.T., Mahlia T.M., Se-
bayang A.H., Berawi M.A., Nur H. Second genera-
tion bioethanol potential from selected Malaysia’s
biodiversity biomasses: A review // Waste Manage-
ment. 2016. Volume 47. P. 46-61.
12. Yang L., Ma R., Ma Z., Li Y. Catalytic conver-
sion of Chlorella pyrenoidosa to biofuels in super-
critical alcohols over zeolites // Bioresource Tech-
nology. 2016. Volume 209. P. 313-317.
13. Moncada J., Cardona C.A., Rincon L.E. De-
sign and analysis of a second and third generation
biorefinery: The case of castorbean and microal-
gae // Bioresource Technology. 2015. Volume 198.
P. 836-843.
14. Balabin R.M., Safieva R.Z. Biodiesel classifi-
cation by base stock type (vegetable oil) using near
infrared spectroscopy data // Analytica Chimica
Acta. 2011. Volume 689, Issue 2. P. 190-197.
15. Payne C.E., Wolfrum E.J. Rapid analysis of
composition and reactivity in cellulosic biomass
feedstocks with near-infrared spectroscopy // Bio-
technology for Biofuels. 2015. Volume 8. 14 pages.
16. Nacional’nyj centr biotexnologicheskoj in-
formacii SSHA (PubMed NCBI) [Elektronnyj resurs].
Rezhim dostupa:
https://www.ncbi.nlm.nih.gov/17. Mezhdunarodnoe agentstvo po vozob-
novlyaemym istochnikam energii (International
Renewable Energy Agency (IRENA)) [Elektronnyj
resurs]. Rezhim dostupa: http://resourceirena.
irena.org/18. Ruiz Olivares A., Carrillo-Gonzalez R.,
Gonzalez-Chavez Ma. del Carmen A., Soto Hernan-
dez R.M. Potential of castor bean (Ricinus commu-
nis L.) for phytoremediation of mine tailings and oil
production // Journal of Environmental Manage-
ment. 2013. Volume 114. P. 316-323.
19. Maghuly F., Laimer M. Jatropha curcas,
a biofuel crop: functional genomics for under-
standing metabolic pathways and genetic im-
provement // Biotechnology journal. 2013. Vol-
ume 8 (10). P. 1172-1182.
20. Kant P., Wu S. The extraordinary collapse of
Jatropha as a global biofuel // Environmental Sci-
ence & Technology. 2011. Volume 45. С. 7114-7115.
21. Wu P., Zhou C., Cheng S.,Wu Z., LuW., Han J.,
Chen Y., Chen Y., Ni P., Wang Y., Xu X., Huang Y.,
Song C., Wang Z., Shi N., Zhang X., Fang X., Yang Q.,
Jiang H., Chen Y., Li M., Wang Y., Chen F., Wang J.,
Wu G. Integrated genome sequence and link-
age map of physic nut (Jatropha curcas L.), a bio-
diesel plant // The Plant Journal. 2015. Volume 81.
P. 810-821.
22. King A.J., Montes L.R., Clarke J.G.,
Itzep J., Perez C.A., Jongschaap R.E., Visser R.G.,
van Loo E.N., Graham I.A. Identification of QTL
markers contributing to plant growth, oil yield and
fatty acid composition in the oilseed crop Jatropha
curcas L. // Biotechnology for Biofuels. 2015. Vol-
ume 8. 17 pages.
23. Tao Y.B., He L.L., Niu L., Xu Z.F. Isolation and
characterization of the Jatropha curcas APETALA1
(JcAP1) promoter conferring preferential expres-
sion in inflorescence buds // Planta. 2016. Vol-
ume 244, Issue 2. P. 467-478.
24. Bansal S., Durrett T.P. Camelina sativa: An
ideal platform for the metabolic engineering and
field production of industrial lipids // Biochimie.
2016. Volume 120. P. 9-16.
25. Chekmarev P.A., Smirnov A.A., Praxova
T.Ya.
Introdukciya netradicionnyx maslichnyx kul’tur //
Dostizheniya nauki i texniki APK. 2013. № 7. S. 3-5.
26. Sensoz S, Angin D. Pyrolysis of safflower
(Charthamus tinctorius L.) seed press cake in a
fixed-bed reactor: part 2. Structural characteriza-
tion of pyrolysis bio-oils // Bioresource Technology.
2008. Volume 99, Issue 13. P. 5498-5504.
27. Lopez-Linares J.C., Ballesteros I., Touran J.,
Cara C., Castro E., Ballesteros M., Romero I. Op-
timization of uncatalyzed steam explosion pre-
treatment of rapeseed straw for biofuel produc-
tion // Bioresource Technology. 2015. Volume 190.
P. 97-105.
28. Sharma R.V., Somidi A.K., Dalai A.K. Prepa-
ration and properties evaluation of biolubricants
derived from canola oil and canola biodiesel //
Journal of Agricultural and Food Chemistry. 2015.
Volume 63, Issue 12. P. 3235-3242.
29. Tyler M. Harrisa, Gregory G. Zaimesb, Vikas
Khannab, Amy E. Landisa Sunflower Cultivation on
Coal Mine Refuse Piles in Appalachia for Diesel Bio-
fuel Production from a Life-cycle Perspective // Pro-
cedia Engineering. 2015. Volume 118. P. 869-878.
30. Fereshteh Pourazar, Giulia Vico, Birgitta
Bath, Martin Weih. Nitrogen use efficiency and
energy harvest in wheat, maize and grassland ley
used for biofuel — implications for sustainability //
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