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Publikationen

 Nach 5,5 Jahren wurde
 das Projekt zum
 31.12.2014
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 abgeschlossen.



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2015

Upflow anaerobic solid-state (UASS) digestion of horse manure: Thermophilic vs. mesophilic performance.
Böske, J.; Wirth, B.; Garlipp, F.; Mumme, J.; Van den Weghe, H. (2015): Bioresource Technology 175 (January 2015): 8-16

Integration of pyrolysis and anaerobic digestion - use of aqueous liquor from digestate pyrolysis for biogas production.
Hübner, T.; Mumme, J. (2015): Bioresource Technology 183: 86-92

Characterization of hydrochar obtained from hydrothermal carbonization of wheat straw digestate.
Reza, M.; Mumme, J.; Ebert, A. (2015): Biomass Conversion and Biorefinery: 1, 2015 (online: 07.03.2015)

Hydrothermal Carbonization (HTC) of Wheat Straw: Influence of Feedwater pH Prepared by Acetic acid and Potassium Hydroxide.
Reza, M.; Rottler, E.; Herklotz, L.; Wirth, B. (2015): Bioresource Technology 182: 336-344
(http://dx.doi.org/10.1016/j.biortech.2015.02.024)

Production, characterization, and biogas application of magnetic hydrochar from cellulose.
Reza, M.; Rottler, E.; Tölle, R.; Werner, M.; Ramm, P.; Mumme, J. (2015): Bioresource Technology 186: 34-43, 2015

2014

Assessment of mutagenic potential of pyrolysis biochars by Ames Salmonella/mammalian-microsome mutagenicity test.
Anjum, R.; Krakat, N.; Reza, M.; Klocke, M. (2014): Ecotoxicology and Environmental Safety 107: 306-312

Hydrothermal carbonization of biomass: Major organic components of the aqueous phase.
Becker, R.; Dorgerloh, U.; Paulke, E.; Mumme, J.; Nehls, I. (2014): Chemical Engineering & Technology 37 (3): 511-518

Anaerobic digestion of horse dung mixed with different bedding materials in an upflow solid-state (UASS) reactor at mesophilic conditions.
Böske, J.; Wirth, B.; Garlipp, F.; Mumme, J.; Van den Weghe, H. (2014): Bioresource Technology 158 : 111-118

Effect of hydrothermally carbonized char application on trace gas emissions from two sandy soil horizons.
Dicke, C.; Lanza, G.; Mumme, J.; Ellerbrock, R.; Kern, J. (2014): Journal of Environmental Quality 43 (5): 1790-1798

Microbial communities involved in biogas production from wheat straw as sole substrate within a two-phase solid-state anaerobic digestion.
Heeg, K.; Pohl, M.; Sontag, M.; Mumme, J.; Klocke, M.; Nettmann, E. (2014): Systematic and Applied Microbiology 37: 590-600

Hydrothermal carbonization of various lignocellulosic biomass.
Lynam, J.; Reza, M.; Yan, W.; Vásquez, V.; Coronella, C. (2014): Biomass Conversion and Biorefinery (July 2014): 1-9

Use of biochars in anaerobic digestion.
Mumme, J.; Srocke, F.; Heeg, K.; Werner, M. (2014): Bioresource Technology 164 (July 2014): 189-197

Magnetic biofilm carriers: The use of novel magnetic foam glass particles in anaerobic digestion of sugar beet silage.
Ramm, P.; Jost, C.; Neitmann, E.; Sohling, U.; Menhorn, O.; Weinberger, K.; Mumme, J.; Linke, B. (2014): Journal of Renewable Energy 2014 (Article ID 208718): 1-10

First international comparative study of volatile fatty acids in aqueous samples by chromatographic techniques: Evaluating sources of error. Review.
Raposo, F.; Borja, R.; Cacho, J.; Mumme, J.; Orupold, K.; Esteves, S.; Noguerol-Arias, J.; Picard, S.; Nielfa, A.; Scherer, P.; Wierinck, I.; Aymerich, E.; Cavinato, C.; Rodriguez, D.; García-Mancha, N.; Lens, P.; Fernández-Cegrí, V. (2013): Trends in Analytical Chemistry 51: 127-144

Hydrothermal carbonization of biomass for energy and crop production.
Reza, M.; Andert, J.; Wirth, B.; Busch, D.; Pielert, J.; Lynam, J.; Mumme, J. (2014):  Applied Bioenergy 1 (1): 11-29

Hydrothermal carbonization (HTC): Near infrared spectroscopy and partial least-squares regression for determination of selective components in HTC solid and liquid products derived from maize silage.
Reza, M.; Becker, W.; Sachsenheimer, K.; Mumme, J. (2014): Bioresource Technology 161 (June 2014): 91-101

Optical texture of hydrochar from maize silage and maize silage digestate.
Reza, M.; Borrego, A.; Wirth, B. (2014): International Journal of Coal Geology (15. November 2014): 74-79

Ash reduction of corn stover by mild hydrothermal preprocessing. Reza, M.; Emerson, R.; Uddin, M.; Gresham, G.; Coronella, C. (2014): Biomass Conversion and Biorefinery (April 2014): 1-11

Engineered pellets from dry torrefied and HTC biochar blends.
Reza, M.; Uddin, M.; Lynam, J.; Coronella, C. (2014): Biomass & Bioenergy 63 (April 2014): 229-238

Hydrothermal carbonization of loblolly pine: Reaction chemistry and water balance.
Reza, M.T.; Uddin, M.H.; Lynam, J.G.; Hoekman, S.K.; Coronella, C. (2014): Biomass Conversion and Biorefinery 3: 113-126
(http://link.springer.com/article/10.1007%2Fs13399-014-0115-9)

Evaluation of integrated anaerobic digestion and hydrothermal carbonization for bioenergy Production. (Video article).
Reza, M.; Werner, M.; Pohl, M.; Mumme, J. (2014): Journal of Visualized Experiments (88): 1-9. (http://www.jove.com/video/51734)

Behavior of selected hydrolyzed and dehydrated products during hydrothermal carbonization of biomass.
Reza, M.; Wirth, B.; Lüder, U.; Werner, M. (2014): Bioresource Technology 169 (October 2014): 352-361

2013

Hydrothermally carbonized plant materials: patterns of volatile organic compounds.
Becker, R.; Dorgerloh, U.; Helmis, M.; Mumme, J.; Diakité, M.; Nehls, I. (2013): Bioresource Technology 130, 621-628.
(http://dx.doi.org/10.1016/j.biortech.2012.12.102)

Chemical and morphological changes in hydrochars derived from microcrystalline cellulose and investigated by chromatographic, spectroscopic and adsorption techniques
Diakite, M.; Paul, A.; Jäger, C.; Pielert, J.; Mumme, J.: Bioresource Technology 150: 98-105, 2013
(http://www.sciencedirect.com/science/article/pii/S096085241301571X)

Cascaded production of biogas and hydrochar from wheat straw: Energetic potential and recovery of carbon and plant nutrients
Funke, A.; Mumme, J.; Koon, M.; Diakité, M.: Biomass & Bioenergy 58: 229-237, 2013

(http://www.sciencedirect.com/science/article/pii/S0961953413003644)

Experimental comparison of hydrothermal and vapothermal carbonization
Funke, A.; Reebs, A.; Kruse, A.: Fuel Processing Technology 115: 261-269, 2013
(http://www.sciencedirect.com/science/article/pii/S0378382013001872)

Hydrothermal conversion of biomass to fuels and energetic materials
Kruse, A.; Funke, A.; Titirici, M.: Current Opinion in Chemical Biology 17 (3): 515-521, 2013
(http://www.sciencedirect.com/science/article/pii/S1367593113000938)

Development of a Flow-Fluorescence in situ hybridization protocol for analysis of microbial communities in anaerobic fermentation liquor.
Nettmann, E.; Fröhling, A.; Heeg, K.; Klocke, M.; Schlüter, O.; Mumme, J.(2013): BMC Microbiology 13: 278
(http://www.biomedcentral.com/content/pdf/1471-2180-13-278.pdf)

Anaerobic digestion of wheat straw - Performance of continuous solid-state digestion
Pohl, M.; Heeg, K.; Mumme, J. (2013): Bioresource Technology 146: 408-415, 2013
(http://www.sciencedirect.com/science/article/pii/S0960852413011693)

First international comparative study of volatile fatty acids in aqueous samples by chromatographic techniques: Evaluating sources of error. Review
RAPOSO, F.; BORJA, R.; CACHO, J.; MUMME, J.; ORUPOLD, K.; ESTEVES, S.; NOGUEROL-ARIAS, J.; PICARD, S.; NIELFA, A.; SCHERER, P.; WIERINCK, I.; AYMERICH, E.; CAVINATO, C.; RODRIGUEZ, D.; GARCÍA-MANCHA, N.; LENS, P.; FERNÁNDEZ-CEGRÍ, V.: Trends in Analytical Chemistry 51: 127-144, 2013
(http://www.sciencedirect.com/science/article/pii/S0165993613001805)

Effects of water recycling in hydrothermal carbonization of loblolly pine
Uddin, M.; Reza, M.; Lynam, J.; Coronella, C.: Environmental Progress & Sustainable Energy: 1-7. 2013
(http://onlinelibrary.wiley.com/doi/10.1002/ep.11899/abstract)

Anaerobic digestion of waste water from hydrothermal carbonization of corn silage
Wirth, B.; Mumme, J. (2013): Applied Bioenergy 1: 1-10. 
(http://dx.doi.org/10.2478/apbi-2013-0001)

2012

Thermo- and mesophilic anaerobic digestion of wheat straw by the upflow anaerobic solid-state (UASS) process.
Pohl, M.; Mumme, J.; Heeg, K.; Nettmann, E. (2012): Bioresource Technology 124, 321–327.
(http://dx.doi.org/10.1016/j.biortech.2012.08.063)

Tratamiento de la paja de arroz mediante fermentación anaerobio en estado seco.
Contreras Velázquez L. M.; Mumme, J.; Pereda Reyes I.; Romero Romero O. (2012): Ingenieria Quimica 41.
(http://www.aiqu.org.uy/edicion_41.php)

Mit Biokohle aus Gärresten die Bodenfruchtbarkeit steigern – das APECS-Konzept.
Mumme, J. (2012): Bornimer Agrartechnische Berichte Heft 79 – Biogaspotenziale, 162-170.

Anaerobic Treatment of Waste Water from Hydrothermal Carbonization.
Wirth, B.; Mumme, J.; Erlach B. (2012): Proceedings of the 20 European Biomass Conference. Milano (Italy) 18-22 June 2012.

2011

Biokohle: Ein Kohlenstoffspeicher, der die Böden verbessert.
Kern, J.; Dicke, C.; Libra J.; Mumme, J. (2011): ForschungsReport, Heft 2/2011, S. 28-30.

Grundlagen und Verfahren der Biogasgewinnung.
Linke, B.; Mumme, J, Mähnert, P.; Schönberg, M.; Plogsties, V. (2011): Biogas in der Landwirtschaft. Leitfaden für Landwirte und Investoren im Land Brandenburg. 4. Auflage, 12-28.

Hydrothermal carbonization of anaerobically digested maize silage
Mumme, J.; Eckervogt, L.; Pielert, J.; Diakité, M.; Rupp, F.; Kern, J. (2011): Bioresource Technology 102, 9255 - 9260.

2010

Novel upflow anaerobic solid-state (UASS) reactor
Mumme, J.; Linke, B.; Tölle, R. (2010): Bioresource Technology 101, 592 - 599.

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