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60. Results from ENGINE (Enhanced Geothermal innovative network for Europe)

Author

Philippe Calcagno, Center, A., Huenges, E., Kaltschmitt, M., Karytsas, C., Kohl, T., Ledru, P., Manzella, A., Thorhalsson, S., and Wees, I. P.

Subjects
Best Practice Handbook, Coordination Action, resource investigation, resource assessment, Enhanced Geothermal System, European Commission, exploitation
Abstract

In the past two years and half, the ENGINE European project aimed to coordinate the efforts of those involved in Enhanced Geothermal Systems (EGS) development. The main product of ENGINE is a handbook defining best practices and proposing a road map for future demonstration projects. The enhancement challenge requires the development of innovative methods for exploring, developing and exploiting geothermal resources that are not economically viable by conventional methods. This definition embraces different methods for enlarging access to heat at depth in order to provide continuous base load-power and to contribute to reach the target of the European Strategic Energy Technology Plan (i.e. 20% renewable market penetration in 2020). It is important on the one hand to evaluate the investment and the expected savings on cost operation for each R&D initiative and industrial project. On the other hand, it must be demonstrated that geothermal energy can contribute to achieving the goals defined in the European Strategic Energy Technology Plan through EGS demonstration projects. The active ENGINE task force is motivated to develop EGS at the European scale, willing to work within the international community, and also eager share information about geothermal energy.

61. ENhanced geothermal innovative network for Europe (the ENGINE co-ordination action)

Author

Ledru, P., Calcagno, P., Genter, A., Ernst Huenges, Kaltschmitt, M., Karytsas, C., Kohl, T., Lokhorst, A., Manzella, A., and Thorhallsson, S.

Subjects
Enhanced geothermal system, resource investigation, resource assessment, European community, coordination action, exploitation
Abstract

The contribution of geothermal energy is a key factor to the successful achievement of the objectives of the European Commission concerning the development of renewable and sustainable energy. The concept of Unconventional Geothermal Resources and in particular Enhanced Geothermal Systems examines ways of increasing the potential of geothermal power generation through (i) exploring new types of reservoirs for heat exchange (Hot Dry Rock, supercritical fluids..), (ii) enlarging the extent of productive geothermal fields by stimulating permeability, (iii) enhancing the viability of current and potential hydrothermal areas by stimulation technology and by improving thermodynamic cycles. The main objective of the proposed action is the co-ordination of the present research and development initiatives for Unconventional Geothermal Resources and Enhanced Geothermal Systems, from resource investigation and assessment stage through to exploitation monitoring. The Co-ordination Action will provide (1) an updated framework of activities concerning geothermal energy in Europe, including the integration of scientific and technical know-how and practices, the evaluation of socio-economic and environmental impacts; (2) the definition of innovative concepts for investigation and use of Unconventional Geothermal Resources and Enhanced Geothermal Systems; groups of experts will present a "Best Practice Handbook"; (3) a scientific and technical "European Reference Manual" including the information and dissemination systems developed during the Co-ordination Action.

63. The introduction of advanced biofuels – A consequential assessment of environmental and climate aspects in the context of European legislation

Author

Buchspies, Benedikt, Energy and Resources, Junginger, Martin, Kaltschmitt, M., and University Utrecht

Subjects
GHG emissions, advanced biofuels, Renewable Energy Directive, consequential LCA, bioenergy, 1G biofuels
Abstract

In face of observed and predicted adverse effects of a changing climate, measures are currently implemented aiming at reducing (anthropogenic) greenhouse gas (GHG) emissions. To this end, legislation was implemented worldwide targeting a reduction in the use of fossil-derived energy in the transportation and energy sectors. Within the EU, the Renewable Energy Directive (RED) was implemented in 2008 to facilitate the introduction of alternative fuels. Supported by the directive, biofuels mainly made from food and feed crops, so called first generation (1G) biofuels, entered the market. The RED II, enacted in 2018, capped the contribution of 1G biofuels to the overall European renewable energy targets. Instead, the RED II promotes the introduction of biofuels made from agricultural residues and wastes, so called advanced or second generation (2G) biofuels. Novel biorefinery concepts producing such fuels bear the potential to yield numerous other products aside from fuels. Thereby, these concepts could present an integral part of a non-fossil-based economy. Their introduction and the cessation of existing 1G biofuel production eventually triggers changes in other markets to which products of these concepts are provided. The thesis provides a deeper understanding of such changes in GHG emissions arising from the introduction of novel biorefinery concepts and the implications of methodological choices made to evaluate these changes. The evaluation shows that the introduction of 2G concepts can lead to a reduction of GHG emissions. Aside from the displacement of fossil fuels, the provision of other products plays an important role due to potentially occurring substitution effects. The inclusion of these substitution effects show that their magnitude can exceed potential emission reduction occurring within the production chain and due to the use of the fuel. The results shows a high variability of potential changes in GHG emissions depending on where feedstock is sourced and to which markets products are provided and that temporal aspects of GHG emissions should be taken into account. The displacement of existing 1G biofuel provision by 2G concepts can potentially result in a net increase in emissions under certain circumstances. Such effects could occur if co-products currently provided by 1G concepts are no longer provided and need to be supplied by other means that potentially entail high GHG emissions. The results show that the GHG emission evaluation methodology provided by the RED II is incapable of reflecting occurring changes in emissions arising from changes within the biofuel sector. It is concluded that the focus of present legislation, i.e. the RED II, targeting single sectors only might hinder an effective reduction in GHG emissions due to the risk of burden shifting. Furthermore, the RED II’s strong focus on concepts providing energy and fuels might impede the introduction of integrated biorefineries yielding multiple other products than fuel and energy carriers. It is therefore recommended to extend present legislation in order to facilitate a more effective reduction in GHG emissions and to avoid burden shifting.

Published
2020

66. Next generation biofuels: survey of emerging technologies and sustainability issues

Author

Gabriele Centi, Nicolás M. Bertero, Martin Kaltschmitt, Piyali Das, Sergey Zinoviev, Stanislav Miertus, Paolo Fornasiero, Franziska Müller-Langer, Zinoviev, S., Muller Langer, F., Das, P., Bertero, N., Fornasiero, Paolo, Kaltschmitt, M., Centi, G., and Miertus, S.

Subjects
Energy-Generating Resources, energy conversion, Internationality, Emerging technologies, General Chemical Engineering, industrial chemistry, Biomass, BIOFUELS, INGENIERÍAS Y TECNOLOGÍAS, catalysi, Waste Management, biofuels, catalysis, sustainable chemistry, Environmental Chemistry, Production (economics), General Materials Science, Biohydrogen, Ingeniería del Medio Ambiente, CATALYSIS, Green Chemistry Technology, Environmental economics, Sustainable biofuel, General Energy, Cellulosic ethanol, Biofuel, Sustainability, Biocatalysis, biofuel, Business, Ingeniería Medioambiental y Geológica, Geotécnicas
Abstract

Next-generation biofuels, such as cellulosic bioethanol, biomethane from waste, synthetic biofuels obtained via gasification of biomass, biohydrogen, and others, are currently at the center of the attention of technologists and policy makers in search of the more sustainable biofuel of tomorrow. To set realistic targets for future biofuel options, it is important to assess their sustainability according to technical, economical, and environmental measures. With this aim, the review presents a comprehensive overview of the chemistry basis and of the technology related aspects of next generation biofuel production, as well as it addresses related economic issues and environmental implications. Opportunities and limits are discussed in terms of technical applicability of existing and emerging technology options to bio-waste feedstock, and further development forecasts are made based on the existing social-economic and market situation, feedstock potentials, and other global aspects. As the latter ones are concerned, the emphasis is placed on the opportunities and challenges of developing countries in adoption of this new industry.An overview of technical aspects of production technologies for next-generation biofuel is presented. Complemented with their related economical and environmental assessment results, an insight into the sustainability of the technologies, and an analysis of the opportunities and limits of future development, is given. © 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. Fil: Zinoviev, Sergey. United Nations Industrial Development Organization; Austria Fil: Müller-Langer, Franziska. German Biomass Research Centre (dbfz); Fil: Das, Piyali. United Nations Industrial Development Organization; Austria. The Energy And Resources Institute India; India Fil: Bertero, Nicolas Maximiliano. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Investigaciones en Catálisis y Petroquímica "Ing. José Miguel Parera". Universidad Nacional del Litoral. Instituto de Investigaciones en Catálisis y Petroquímica "Ing. José Miguel Parera"; Argentina Fil: Fornasiero, Paolo. United Nations Industrial Development Organization; Austria. Università degli Studi di Trieste; Italia Fil: Kaltschmitt, Martin. German Biomass Research Centre (dbfz); . Hamburg University Of Technology; Fil: Centi, Gabriele. United Nations Industrial Development Organization; Austria. Universita Degli Studi Di Messina; Fil: Miertus, Stanislav. United Nations Industrial Development Organization; Austria

Published
2010

68. Static Enclosures

Author

Petersen, Søren O, Freibauer, A, and Kaltschmitt, M

Published
2000

70. Deep eutectic solvent pretreatment of cork dust - Effects on biomass composition, phenolic extraction and anaerobic degradability.

Author

Bagder Elmaci S, Schultz J, Isci A, Scherzinger M, Aslanhan DD, Cam MD, Sakiyan O, and Kaltschmitt M

Subjects
Anaerobiosis, Quercus chemistry, Biofuels analysis, Antioxidants analysis, Formates analysis, Formates chemistry, Biomass, Phenols analysis, Dust analysis, Deep Eutectic Solvents chemistry
Abstract

In this study, phenolic compounds using deep eutectic solvents (DES) were extracted from cork dust, and the biogas production potential of DES-treated cork dust samples was determined. The DES treatment was carried out using choline chloride and formic acid (1:2 M ratio) at various temperatures (90, 110 and 130 °C) and treatment times (20, 40 and 60 min) at a solid-to-solvent ratio of 1:10 g mL -1 . The highest total phenolic content (137 mg gallic acid equivalent (GAE) g -1 dry cork dust) was achieved at 110 °C/20 min. The extracts exhibited an antioxidant capacity of up to 56.3 ± 3.1 % 1,1-diphenyl-2-picrylhydazyl (DPPH) inhibition at a dilution rate of 100. DES treatment resulted in minimal sugar solubilization at low temperatures, while approximately 42 % of the xylan fraction in the biomass degraded under severe conditions (e.g., 130 °C/60 min). Catechin, 4-hydroxybenzoic acid and gallic acid were the major phenolics in DES extracts. The biogas yield of DES-treated cork dust increased with treatment severity. The highest biogas yield (115.1mL N g VS -1 ) was observed at 130 °C/60 min, representing an increase of 125 % compared to the untreated sample. SEM images revealed that the surface structure of the samples became smoother after mild pretreatment and rougher after harsh pretreatment. Compositional and FTIR analyses indicated that a higher biogas formation potential was associated with increased cellulose content in the substrate, which could be attributed to hemicellulose solubilization in the hydrolysate. Overall, DES pretreatment effectively enhanced phenol extraction and anaerobic degradability., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2024
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71. Processing of hemicellulose in wheat straw by steaming and ultrafiltration - A novel approach.

Author

Parsin S and Kaltschmitt M

Subjects
Xylans, Xylose, Steam, Ultrafiltration, Hydrolysis, Lignin, Triticum, Polysaccharides
Abstract

Water-soluble xylans useable for many potential applications can be produced based on the hydrolysis of wheat straw within a fixed bed using saturated steam to provide a xylan-rich hydrolysate low in particles and lignin enabling an effective ultrafiltration and xylan separation. Under defined conditions (180 °C, 10 bar, 35 min), a degree of solubilization of 29.6 % for straw and of 63 % for hemicellulose is achieved. The dry mass of the resulting hydrolysate consists of at least 58 % xylose and arabinose. The xylose is mainly (87 %) present in non-monomeric form and appears to have a broad molecular weight distribution. Ultrafiltration with commercial membranes (4 to 50 kDa) is being investigated for the separation of the target fraction; here significant differences in the filtration behavior and rejections from 9 to 81 % for carbohydrates and from 13 to 48 % for phenolic compounds (lignin), respectively, are found., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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72. Rye Bran as a Component in the Diets of Lactating Sows-Effects on Sow and Piglet Performance.

Author

Homann C, Wilke V, Eckey I, Chuppava B, Kaltschmitt M, Zimmermann A, and Visscher C

Abstract

From a cost and sustainability perspective, the use of by-products such as rye bran in sow diets is of particular interest. Rye bran has valuable ingredients that have potential benefits for the gut health of sows. The aim of this study was to investigate the effects of including 15% rye bran in the sows' feed on the performance of sows and piglets. The feeding started one week before the farrowing date and ended at weaning. Performance was evaluated by measuring sow (n = 175) and piglet body weight (n = 1372) and sows' backfat thickness (n = 80). These data were additionally used to calculate the colostrum intake of the suckling piglets and the sows' milk production. It was found that there were no differences in the performance parameters between the experimental and control groups. However, this study showed that the piglets with light birth weight (LBW (<1000 g)) and medium birth weight (MBW (1000-1500 g) consumed more colostrum when the sows were fed rye bran (LBW: C/R 203.0 ± 39.2 g/214.3 ± 35.9 g; MBW: 291.3 ± 39.0 g/298.5 ± 36.4 g). It can be concluded that including 15% rye bran in the feed of lactating sows has no obvious negative effects on the performance of sows and piglets. Further studies are needed to evaluate the possible positive effects of rye bran.

Published
2024
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73. Process options for the recovery of a pentosan-enriched fraction from wheat-based bioethanol thin stillage.

Author

Zimmermann A, Scherzinger M, and Kaltschmitt M

Abstract

Aim: Stillage, the main residue from cereal-based bioethanol production, offers a great potential for the recovery of pentosan-type carbohydrates. Therefore, potential process options for the recovery of pentosans from bioethanol thin stillage are investigated and their basic feasibility is demonstrated on a laboratory scale., Findings: The main result of this work is the development of a three-stage process for pentosan recovery, including solid-liquid separation, pentosan solubilisation and purification. The pentosan content of the thin stillage used here was determined to be about 14% related to dry matter (DM). By means of solid-liquid separation, these pentosans accumulate in the liquid phase (up to 80%), while the remainder (about 20%) is found in the solid phase. Solubilisation of these insoluble pentosans was achieved by using either a hydrothermal, an alkaline or an enzymatic treatment. Here, the results indicate a maximum solubilisation yield of 90% with a hydrothermal treatment using liquid hot water at 180 °C. Ultrafiltration and precipitation are investigated for purification. The most promising process option in this study is solid-liquid separation followed by ultrafiltration. In this case, the total pentosan yield is assessed to be about 48% (based on thin stillage) with a final pentosan concentration of about 30%DM., (© 2023. The Author(s).)

Published
2023
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74. Rye and Rye Bran as Components of Diets in Piglet Production-Effects on Salmonella Prevalence.

Author

Homann C, Eckey I, Chuppava B, Teich K, Buch J, Zimmermann A, Kaltschmitt M, Grone R, Wilke V, and Visscher C

Abstract

The nutritional benefits of rye (and therefore rye bran) are mainly due to its high content of fermentable dietary fiber, the non-starch polysaccharides (NSP). Microorganisms in the large intestine are able to convert these into short-chain fatty acids (SCFA), including butyrate. Butyrate strengthens the epithelial barrier function in the colon by nourishing the enterocytes and inhibiting the spread of Salmonella in the intestinal tract. Therefore, the aim of this study was to test under field conditions whether a diet with rye or rye bran as the main ingredient for gilts, sows, and weaned piglets is associated with a lower Salmonella prevalence. Depending on the age groups, between 20-30% rye or between 15-20% rye bran was used in the experimental group. A total of n = 1983 boot swabs, n = 356 fecal samples, and n = 1909 serum samples were examined. The results of this study show that rye or rye bran at the levels used had no apparent effect on the number of positive Salmonella samples. However, the Salmonella OD values in the experimental groups were significantly lower than in the control group. This suggests that the use of rye leads to a lower incidence of infection, but this effect could not be proven from swabs.

Published
2023
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75. Anaerobic biogas formation from crops' agricultural residues - Modeling investigations.

Author

Scherzinger M, Kaltschmitt M, and Elbanhawy AY

Subjects
Agriculture, Anaerobiosis, Bioreactors, Fermentation, Methane, Biofuels analysis, Crops, Agricultural
Abstract

The cultivation of field crops necessarily produces large quantities of organic residues, which could be used for the production of biogas. However, this is only successfully possible if the operators of such biogas plants have sufficient expertise in running these plants, e.g. to avoid an overload of the biogas system. Against this background, the anaerobic degradability of various Egyptian agricultural residues is determined by laboratory testing; this includes both a determination of degradation behavior in batch tests and a feed analysis. The residues studied produce biogas yields ranging from 303 to 496 mL N g VS -1 . Co-digestion experiments demonstrate that hardly any interaction effects occur during the fermentation process for different mixtures of the investigated residues. Based on these findings, a model is developed to estimate biogas production using the investigated agricultural residues in continuous operation and to give recommendations for the optimal mode of operation., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2022
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77. Options to Improve the Mechanical Properties of Protein-Based Materials.

Author

Lamp A, Kaltschmitt M, and Dethloff J

Subjects
Cross-Linking Reagents chemistry, Enzymes chemistry, Hot Temperature, Mechanical Phenomena, Plasticizers chemistry, Biocompatible Materials chemistry, Proteins chemistry
Abstract

While bio-based but chemically synthesized polymers such as polylactic acid require industrial conditions for biodegradation, protein-based materials are home compostable and show high potential for disposable products that are not collected. However, so far, such materials lack in their mechanical properties to reach the requirements for, e.g., packaging applications. Relevant measures for such a modification of protein-based materials are plasticization and cross-linking; the former increasing the elasticity and the latter the tensile strength of the polymer matrix. The assessment shows that compared to other polymers, the major bottleneck of proteins is their complex structure, which can, if developed accordingly, be used to design materials with desired functional properties. Chemicals can act as cross-linkers but require controlled reaction conditions. Physical methods such as heat curing and radiation show higher effectiveness but are not easy to control and can even damage the polymer backbone. Concerning plasticization, effectiveness and compatibility follow opposite trends due to weak interactions between the plasticizer and the protein. Internal plasticization by covalent bonding surpasses these limitations but requires further research specific for each protein. In addition, synergistic approaches, where different plasticization/cross-linking methods are combined, have shown high potential and emphasize the complexity in the design of the polymer matrix.

Published
2022
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78. European road transport policy assessment: a case study for Germany.

Author

Schulthoff M, Kaltschmitt M, Balzer C, Wilbrand K, and Pomrehn M

Abstract

In the EU, the transport sector is the only sector with increasing GHG emissions compared to 1990. While harmful emissions have decreased due to successful regulation, transport performance, fossil fuel consumption and thus CO 2 emissions have continued to increase, despite powertrain efficiency improvements. Meaningful regulation, which can be market-based (MBI) and non-market-based (NMBI) by nature, is needed to meet climate targets. To understand the mechanisms, effects and limitations of MBI and NMBI, this study investigates and evaluates selected regulations in the German road transportation sector until 2020. Therefore, this study identifies, describes, and categorizes environmental policy instrument types. Based on this step, selected instruments in the road transportation sector are identified by their type and implemented policies are described and assessed. Furthermore, an assessment methodology is developed to evaluate and score target achievement, cost-efficiency and practical feasibility by linking the outcomes of instruments to its goals. Based on the findings of this assessment, conclusions and recommendations are developed and discussed. Finally, results and general properties of policies and their type of instruments are extrapolated, and general statements about market and non-market-based instruments in a broader context for future regulation and market designs are projected. The study discovers that fuel producers and distributors, vehicle manufacturers and sellers are directly regulated by non-marked-based instruments, despite the EU Emissions Trading Scheme (ETS). On the customer side, primarily market-based implemented except for low-emission zones, which are direct regulations. The study finds that holistic representation and realistic internalization of external effects in a market is complex and will never be complete. Still, sufficient representation can be enough to drive transformation in the transport sector. The CO 2 price itself is not sufficiently representing the consequential costs of climate change induced by road transport, but it helps to make low-carbon alternatives economically viable. Overall, the study finds that most implemented regulations in the German road transport sector were successful in relation to their goals., Supplementary Information: The online version contains supplementary material available at 10.1186/s12302-022-00663-7., Competing Interests: Competing interestsThe authors declare that they have no competing interests., (© The Author(s) 2022.)

Published
2022
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79. Solvent-free lignin recovered by thermal-enzymatic treatment using fixed-bed reactor technology - Economic assessment.

Author

Schmidt LM, Pérez Martínez V, and Kaltschmitt M

Subjects
Carbohydrates, Enzymes, Hydrolysis, Solvents, Bioreactors, Lignin
Abstract

The economic viability of producing lignin by thermal-enzymatic treatment in a high-pressure fixed-bed reactor is investigated for the first time. In this direction, different advantages (e.g. recovery of low-odor sulfur-free lignin, high process flexibility) and disadvantages (e.g. high investment for high-pressure equipment) of this technology are considered. Regarding process flexibility, four different operating modes (i.e. flow through, circulation) are investigated by varying process parameters and applications of the C5 sugar fraction. Therefore, a combined modelling approach is applied by using overall biorefinery models and a predictive fixed-bed model. At optimum process conditions, lignin can be produced at a competitive price (395 €/t Lignin ) when comparing to other technical lignins. This result is achieved by using the fixed-bed reactor only for thermal treatment, with the water consumption being the most important factor affecting the cost of lignin production. Compared to that the C5 sugar recovery of the pretreatment is negligible., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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80. Biogas plants as key units of biorefinery concepts: Options and their assessment.

Author

Andersen L, Lamp A, Dieckmann C, Baetge S, Schmidt LM, and Kaltschmitt M

Subjects
Biofuels, Biomass, Conservation of Natural Resources methods, Crops, Agricultural physiology
Abstract

In order to minimize the environmental impacts of growing population, progressive exploitation of fossil resources and negative consequences of climate change the politically intended goal is to successively transform our primarily oil-based into a bio-based economy. Hence, one goal is to significantly reduce the utilization of fossil resources by increasing the use of renewable energy and resources (i.e. biomass) and the efficiency of their conversion processes. Including existing technologies into the development of future concepts could accelerate the transition to a bio-economy. As one solution integrated biorefinery concepts based on agricultural biogas plants are discussed, which convert biomass with minimal energy consumption to a multitude of products without generating waste. However, they still have huge potential in terms of increased biomass utilization. In that context, catch crops offer interesting opportunities as a substrate for those biorefineries, since they support soil regeneration while generating additional products for the bio-economy without increasing land use. In this study a selection of significant indicators was chosen in order to determine the environmental effectivity and economic efficiency of these biorefinery concepts by a systematic assessment of possible process schemes. Thus within this study the usability of the chosen indicators and the potential of catch crops in advanced biorefineries is assessed., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2018
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81. Improved HPLC-method for estimation and correction of amino acid losses during hydrolysis of unknown samples.

Author

Lamp A, Kaltschmitt M, and Lüdtke O

Subjects
Kinetics, Amino Acids analysis, Chromatography, High Pressure Liquid, Hydrolysis, Proteins chemistry
Abstract

Amino acid analysis, commonly done by acid hydrolysis of proteins and HPLC analysis, faces one major problem: incomplete hydrolysis of stable amino acids and degradation of unstable amino acids are causing amino acid losses. As a result, amino acid recovery of unknown samples cannot be estimated. Some methods have been reported for correction of these factors in the past. This paper shows an improved and integrated method to overcome this problem by using stillage as an exemplary unknown sample material. Amino acid recovery from an unknown sample can be estimated by standard addition of a known protein. If the sample does not cause matrix effects during amino acid hydrolysis, recoveries of the standard protein are transferable to the sample. If the sample does cause matrix effects correction of amino acid losses can instead be done by determination of hydrolysis kinetics. Therefore, first order kinetics were used for amino acids that undergo degradation during hydrolysis. For all stable amino acids higher order kinetics were used, a novel approach to determine hydrolysis kinetics. The presented method can be a helpful tool for scientists who want to optimize amino acid analysis of a particular biomass substrate., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2018
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82. Life cycle assessment of biohydrogen production as a transportation fuel in Germany.

Author

Wulf C and Kaltschmitt M

Subjects
Biomass, Electricity, Electrolysis, Gases chemistry, Germany, Glycerol chemistry, Greenhouse Effect, Methane metabolism, Wood chemistry, Biofuels analysis, Hydrogen metabolism, Transportation
Abstract

The goal of this work was to study the assessment of the life cycle of hydrogen production from biomass for transportation purposes concerning greenhouse gas emissions, emissions with an acidification potential and the fossil energy demand. As feedstocks woody biomass from forestry or short rotation coppice, herbaceous biomass (i.e., straw), energy crops (mainly maize and grain), bio-waste and organic by-products (e.g., glycerol) were considered and their potential in Germany assessed. The results showed that hydrogen produced from woody biomass emitted the least emissions due to the low emissions caused by the provision of the biomass. Regarding the cumulative fossil energy demand biomass from short rotation coppice showed the lowest values. The highest biomass potential for hydrogen production could be identified for woody biomass from forests as well as from short rotation coppice., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
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83. Life cycle assessment of mobility options using wood based fuels--comparison of selected environmental effects and costs.

Author

Weinberg J and Kaltschmitt M

Subjects
Costs and Cost Analysis, Greenhouse Effect economics, Thermodynamics, Vehicle Emissions analysis, Automobiles, Biofuels economics, Environment, Wood economics
Abstract

An environmental assessment and a cost analysis were conducted for mobility options using electricity, hydrogen, ethanol, Fischer-Tropsch diesel and methane derived from wood. Therefore, the overall life cycle with regard to greenhouse gas emissions, acidifying emissions and fossil energy demand as well as costs is analysed. The investigation is carried out for mobility options in 2010 and gives an outlook to the year 2030. Results show that methane utilization in the car is beneficial with regard to environmental impacts (e.g. 58.5 g CO2-eq./km) and costs (23.1 €-ct./km) in 2010, especially in comparison to hydrogen usage (132.4 g CO2-eq./km and 63.9 €-ct./km). The electric vehicle construction has high environmental impacts and costs compared to conventional vehicles today, but with technical improvements and further market penetration, battery electric vehicles can reach the level of concepts with combustion engines in future applications (e.g. cost decrease from 38.7 to 23.4 €-ct./km)., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
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84. Reduction of fuel side costs due to biomass co-combustion.

Author

Wils A, Calmano W, Dettmann P, Kaltschmitt M, and Ecke H

Subjects
Biomass, Coal, Costs and Cost Analysis, Hot Temperature, Wood
Abstract

The feasibility and influence of co-combustion of woody biomass on the fuel side costs is discussed for three hard coal power plants located in Berlin, Germany. Fuel side costs are defined as the costs resulting from flue gas cleaning and by-products. To have reliable data, co-firing tests were conducted in two power plants (i.e., slag tap furnace and circulating fluidising bed combustion). The amount of wood which was co-fired varied at levels below 11% of the fuel heat input. Wood chips originating from landscape management were used. The analyses show that co-combustion of woody biomass can lower the fuel side costs and that the co-combustion at a level below 10% of the thermal capacity is technically feasible without major problems. Furthermore, a flexible spreadsheet tool was developed for the calculation of fuel side costs and suggestions for operational improvements were made. For example, the adaptation of the Ca/S ratio (mass ratio of calcium in limestone to sulphur in the fuel) in one plant could reduce the fuel side costs up to 135 k€ yr(-1) (0.09 €M Wh(-1))., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published
2012
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85. Next-generation biofuels: Survey of emerging technologies and sustainability issues.

Author

Zinoviev S, Müller-Langer F, Das P, Bertero N, Fornasiero P, Kaltschmitt M, Centi G, and Miertus S

Subjects
Biocatalysis, Green Chemistry Technology economics, Green Chemistry Technology trends, Internationality, Waste Management economics, Waste Management methods, Biofuels economics, Energy-Generating Resources economics, Green Chemistry Technology methods
Abstract

Next-generation biofuels, such as cellulosic bioethanol, biomethane from waste, synthetic biofuels obtained via gasification of biomass, biohydrogen, and others, are currently at the center of the attention of technologists and policy makers in search of the more sustainable biofuel of tomorrow. To set realistic targets for future biofuel options, it is important to assess their sustainability according to technical, economical, and environmental measures. With this aim, the review presents a comprehensive overview of the chemistry basis and of the technology related aspects of next generation biofuel production, as well as it addresses related economic issues and environmental implications. Opportunities and limits are discussed in terms of technical applicability of existing and emerging technology options to bio-waste feedstock, and further development forecasts are made based on the existing social-economic and market situation, feedstock potentials, and other global aspects. As the latter ones are concerned, the emphasis is placed on the opportunities and challenges of developing countries in adoption of this new industry.

Published
2010
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86. Competition--supporting or preventing an increased use of bioenergy?

Author

Thrän D and Kaltschmitt M

Subjects
Computer Simulation, Germany, Biotechnology economics, Conservation of Energy Resources economics, Economic Competition economics, Energy-Generating Resources economics, Food Supply economics, Food Technology economics, Models, Economic
Abstract

The intensified use of biomass as an energy source is an often-repeated goal of the German and European climate protection policy. Therefore, framework conditions have been created in recent years, which allow for a wider use of biomass within the energy system especially for a provision of electricity and fuels. Due to this policy, Germany, for example, has emerged as the leading producer of biogas from energy crops and fatty methyl ester (FAME) in Europe. However, due to the high energy price level, the use of biomass for heating purposes and as a renewable raw material have increased at the same time. To supply the obviously increased demand for biomass or biobased energy carriers cost efficiently, nationwide and to some extend even global markets are under development at present. As the demand for biomass is expected to continue to increase strongly, it is feared that an increasing competition with the use for food and fodder as well as a raw material might occur in the years to come. Against this background we have analyzed the competitions that can be expected, and the influence that they may have on the further expansion of the use of biomass for energy production. Experiences from Germany are provided exemplarily. Based on this, it is concluded that measures need to be taken to support an efficient and sustainable use of bioenergy in the future.

Published
2007
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