Engineering Commons^™

Temperature Effect On Hydrogen Production From Reactions Between Ethanol And Steam In The Presence Of Pd-Ru/Nb2o5-Tio2 Catalyst, Nadia Regina C. Fernandes-Machado, Christian Gonçalves Alonso, Andréia C. Furtado Onélia Aparecida Andreo Dos Santos, Maurício Pereira Cantão

Bioenergy - II: Fuels and Chemicals from Renewable Resources

The concern regarding the environment, especially with gases emission by burning fossil fuels, and the increase of energy demand have influenced the development of cleaner and more efficient technologies for energy generation. In this context, studies involving hydrogen and fuel cells are remarkable among future technologies due to its great commercial potential and high energetic efficiency of the process. Theoretically speaking, hydrogen production from biomass or liquids derived from biomass such as ethanol can be considered a carbon emission free process since all the carbon dioxide produced can be recycled by the plants using sun power [1]. Obtaining hydrogen from …

Photosynthetic – Fermentative Fuel Cell Used In A Biofuel Processing Facility, Erin E. Powell, G.A. Hill, R.W. Evitts, J. C. Bolster

Bioenergy - II: Fuels and Chemicals from Renewable Resources

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Anaerobic Digestion Of Olive Mill Wastewater: Anaerobic Filter Vs. Hybrid, Isabel Paula Marques, Marta Gonçalves, Paulo Freitas

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Two types of anaerobic digesters - a filter (AF) and a hybrid (H) - are tested in the treatment of original olive mill wastewater (OMW), without any pre-treatment or chemical correction of this substrate. The anaerobic filter is equipped with a packed bed material that fills the entire column of digestion; the hybrid digester results from the combination of anaerobic filter with the up-flow anaerobic sludge blanket and the packed bed only occupies the top section of the column.

OMW is the effluent generated from olive oil industries, which activity has a great economic and social importance in the olive …

Kinetic Assessment For Selective Production Of Furfural From C5 Sugars Contained In Biomass, Gianluca Marcotullio

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Furfural is nowadays one of the most important biomass derived chemicals having a market of roughly 300 ktonn/year. It finds application in many chemicals sectors, being used as a solvent itself, or as starting material for almost all the furanic compounds. In a biobased economy furfural could replace or substitute many oil derivatives as platform chemical and be a starting material for liquid fuels production: furanic biofuels have lately been addressed to represent a very interesting option to current biofuels showing advantageous qualities. Moreover, being furfural derived from the C5 sugars contained in biomass, its integration in a modern biorefinery …

Designing An Sscf Process For Bioethanol Production From Lignocellulosic Substrates By Co-Fermentation Of Xylose And Glucose, Kim Olofsson

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Different lignocellulosic materials, from e.g. forest industry and agriculture, are potentially interesting feedstocks for ethanol production. To meet desired overall yields during ethanol production from lignocellulosic materials, it is important to use both hexoses and pentoses. Saccharomyces cerevisiae, the most commonly used organism for industrial ethanol production, does not naturally ferment pentoses. Currently, genetically modified Saccharomyces cerevisiae strains are becoming available for xylose fermentation. However, simultaneous fermentation of xylose and glucose in genetically modified Saccharomyces cerevisiae requires a favorable ratio between these sugars.

In simultaneous saccharification and fermentation (SSF) of spruce, a potential feedstock in the northern hemisphere, the proportion …

Biocycle – Sustainable Polymer From Sugar Cane, Sylvio Ortega Filho

Bioenergy - II: Fuels and Chemicals from Renewable Resources

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Scale-Up Of The Milena Gasification Process For The Production Of Bio-Sng, Christiaan M. Van Der Meijden, Berend Vreugdenhil

Bioenergy - II: Fuels and Chemicals from Renewable Resources

The production of Substitute Natural Gas from biomass (Bio-SNG) is an attractive option to reduce CO2 emissions and replace declining fossil natural gas reserves. The Energy research Center of the Netherlands (ECN) is working on the development of a technology to convert a wide range of fuels into Bio-SNG. The ECN Bio-SNG technology is based on indirect gasification of biomass. The MILENA indirect gasifier is developed to produce a gas, which can be upgraded into SNG with a high efficiency. Because of the indirect heating of the gasification process no oxygen is required. Char and tar are removed form the …

Study Of The Behaviour Of A Catalytic Ceramic Candle Filter In A Lab-Scale Unit At High Temperatures, Eleonora Simeone, Manfred Nacken, Steffen Heidenreich, Wiebren De Jong

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Solid particles and tars are among the non-desirable products of synthesis gas produced during biomass gasification. Removal of fly ashes is necessary in order to comply with emission limits as well as avoid their deposition in downstream units. Condensation of tars, on the other side, can cause clogging. A catalytic hot gas filter can remove both solids and tars, when operating at temperatures as high as 850oC. Catalytic hot gas filter elements are under development in order to solve this issue.

A lab-scale filtration unit has been designed and constructed at Delft University of Technology. The unit contains one ceramic …

Historical And Recent Developments In The Enzymatic Hydrolysis Of Brazilian Feedstocks For Ethanol Production, Elba P.S. Bon

Bioenergy - II: Fuels and Chemicals from Renewable Resources

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Novel Design Of Multiphase Reactors For Biomass-To-Liquid Synthesis, Ahmed Youssef, Milorad P. Dudukovic Muthanna H. Al-Dahhan

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Generation of liquid fuels from renewable sources such as biomass has been practiced since early 1900’s. In view of the skyrocketing oil prices and the depleting reserves of natural gas, it has gained further interest. The Fischer-Tropsch synthesis is one of the main processes considered. It involves the reaction of syngas in presence of a catalyst to produce liquid fuels. Syngas sources are numerous ranging from waste gasification, anaerobic digestion to clean coal. The reactor of choice for gas to liquid conversion is a slurry bubble column. Although, these multiphase reactors offer several advantages including good heat and mass transfer, …

Increasing Corn Throughput In Dry Grind Process For Ethanol Process, Vijay Singh, Jameel Shihadeh, Kent D. Rausch, M. E. Tumbleson

Bioenergy - II: Fuels and Chemicals from Renewable Resources

In a conventional dry grind process, corn is ground and mixed with water to produce slurry. The slurry is cooked; starch in the slurry is liquefied, simultaneously saccharified and fermented to produce ethanol. Typical solids during slurry preparation range from 30 to 34%. Higher solids result in higher ethanol concentration. High final ethanol concentration improves plant profitability by increasing plant capacity and improving plant efficiency. Corn solids higher than 34% are not used in dry grind corn process due to high mash viscosity (after cooking), increase in sugar concentration during fermentation (substrate yeast inhibition) and high final ethanol concentration (product …

Supply And Properties Of Agricultural Residues Suitable For Bioenergy Applications, Fernando Preto, Irene Coyle

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Agriculture is one of Canada’s largest industries and the residues left over from farming, milling and the off spec crops that are produced every year are present across the country. The quantity and quality of these residues as potential fuels have been analysed, including a comparison of the financial benefits and costs to selecting agricultural feedstocks for heat and power projects. A variety of fuels have been assessed, including raw and densified biomass, to understand the range in transportation costs, front and back end material handling and boiler selection. These fuels include: corn stover, corn cob, switchgrass pellets, whole canola, …

A Simulation Model Of Combined Biogas, Bioethanol And Protein Fodder Co-Production In Organic Farming, Piotr Oleskowicz-Popiel

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Anaerobic digestion based on animal manure and energy crops is very effective technology to provide energy and reduce green-house gasses emission, in particular ammonia and methane. Besides, utilisation of biogas contributes to reduction of CO2 emission. On the other hand, production of bioethanol from starchy or lignocellulosic materials can supply farmers with liquid fuel necessary for agriculture machinery. Therefore, there is a need for development an effective biorefinery for sustainable energy production in organic agriculture. Due to large amount of existing technologies and many ways for co-production of feed and fuel, the application of process engineering tools is required. The …

Gas Phase Mixing In Bubble Columns With Internals, Mohamed Hamed, Muthanna Al Dahhan

Bioenergy - II: Fuels and Chemicals from Renewable Resources

The use of renewable energy sources is becoming increasingly necessary, if we are to achieve the changes required to address the impacts of global warming. Biomass is the most common form of renewable energy, widely used in the third world but until recently, less so in the Western world. Latterly much attention has been focused on the conversion of biomass to liquid fuels; a process which would greatly increases the potential usefulness of biomass as a renewable resource.

Conversion of biomass to liquid is carried out by first gasification of biomass to yield synthetic gas. The synthetic gas can then …

Fuels And Chemicals From Biomass And Waste, Esben Taarning

Bioenergy - II: Fuels and Chemicals from Renewable Resources

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Effects Of Temperature And Residence Time On The Thermal Cracking Of Bio-Oil For Syngas Production, Mohammad Latifi, Lorenzo Ferrante, Matt Klaas, Cedric Briens, Franco Berruti

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Bio-oil, the valuable liquid product obtained from biomass through pyrolysis, may be either combusted to generate carbon-neutral electricity or converted to a synthesis gas from which chemicals or clean fuels can be produced Producing bio-oil from biomass and then converting the bio-oil to syngas has several advantages. The bio-oil may be generated in distributed or mobile plants and then shipped to a central facility for conversion to syngas, thus avoiding the expensive transportation of bulky and perishable biomass. The syngas produced from bio-oil is CO2 neutral and produces no net greenhouse gas emissions. Finally, valuable green chemicals may be extracted …

Ethanol Production Using Organic Waste, Daewon Pak, Jun Cheol Lee, Jae Hyung Kim

Bioenergy - II: Fuels and Chemicals from Renewable Resources

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Synthesis Gas By Catalytic Steam Reforming Of Bio-Oil, Lucía García, Fernando Bimbela, Miriam Oliva, Joaquín Ruiz Jesús Arauzo, De Chen

Bioenergy - II: Fuels and Chemicals from Renewable Resources

The concept of biomass refinery or biorefinery, has attracted great attention during the last decade. The idea is to process lignocelullosic residues converting the resulting products or fractions of them into a variety of fine chemicals or high added value products and raw materials serving as a feedstock for other valuable chemicals and commodities.

One of the most interesting paths for the thermochemical conversion of biomass is fast pyrolysis of biomass followed by catalytic steam reforming of the liquid pyrolysis products (bio-oil) or its fractions. The product gas from this process is a H2 rich with moderate CO content which, …

Hybrid Staged Thermolysis To Valorise Biomass, Paul J. De Wild

Bioenergy - II: Fuels and Chemicals from Renewable Resources

The need for a renewable ‘green’ chemistry is adamant because of the adverse effects of the increasing use of fossil fuels on our society, like global warming and the depletion of fossil fuel resources. Therefore, the use of ligno-cellulosic (woody) types of biomass as a renewable source for chemicals and energy is increasingly becoming important. Unfortunately, the heterogeneity of biomass presents a major obstacle to chemical utilization. The main constituents hemicellulose, cellulose and lignin are strongly interconnected by a variety of physico-chemical bonds that makes it difficult to extract individual chemicals in high yields. So an efficient and cost-effective fractionation …

Investigating Catalyst Design Strategies For Selective Reaction Of Cyclic C4 Oxygenates From Biomass, Clay Horiuchi, Andrea S. Loh, Stephen T. Marshall J. Will Medlin, Benjamin M. Israel

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Numerous studies have shown that the properties of metal catalysts can in principle be fine-tuned by controlling the composition of the metal surface with high precision. The ability to design catalysts capable of high selectivity towards the conversion of a single functional group in a multifunctional molecule is a major objective for heterogeneous catalysis research. This need for high selectivity toward a single functional group is of growing importance in efforts to improve biorefining operations, where biomass-derived multifunctional carbohydrates are key "building block" intermediates that must be converted to a vast range of commodity chemical products such as fuels, pharmaceuticals, …

Combustion Of Pyrolysis 'Bio-Oils' In A Tunnel Furnace, Fernando Preto, Irene Coyle, Joe Wong, Frank Zhang

Bioenergy - II: Fuels and Chemicals from Renewable Resources

A test program has been carried out in a pilot-scale (2.5 GJ/h) tunnel furnace to evaluate potential emission levels from combustion of various biomass pyrolysis oil 'cuts'. Two pyrolysis oil cuts were tested: a “whole” oil and a “premium” high moisture (30% H2O) oil, both supplied by Ensyn. A CETC-O designed external mixing air-assisted atomising nozzle originally designed for coal liquid mixtures was used. The oils were preheated to 48 – 52°C. The atomizing air was not preheated and main combustion air preheat was varied from ambient to 120°C. Under steady state operation both pyrolysis oil cuts were found to …

Hydrous Thermolysis Of Biomass Production Of Hodge' Carbonyls And Oligomeric Lignin, Jan Piskorz, Piotr Majerski, Ed Hogan

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Continuous, bench scale fast pyrolysis investigation was carried out to evaluate thermal behaviour of variety of biomass feeds. The emphasis was put into obtaining realistic material balances. Yields of (1) water of pyrolysis, (2) oligomeric lignin, (3) water-soluble chemicals, and (4) chars were targeted. Some identification/quantification of chemical components present in the water phase (Hodge' carbonyls, acids) were attempted. The use of superheated steam was also investigated. The use of steam seems to increase yields of some components of pyrolytic liquid. It minimizes yields of pyrolytic water and non-condensable gases. An utilization of fast pyrolysis water-insolubles, together with char in …

Pyrolysis Of Agricultural And Forestry Residues Into Bio-Oil, Ran Xu, Lorenzo Ferrante, John Edwards, Franco Berruti, Cedric Briens

Bioenergy - II: Fuels and Chemicals from Renewable Resources

The pyrolysis of various agricultural wastes (grape residues, dried distillers grains, forestry residue and sugarcane residues) was carried out in a pilot-scale bubbling fluidized bed pyrolyzer operating at temperatures ranging from 300oC to 600oC , for vapor residence times ranging from 2 to 20 seconds. Products yields and properties, as well as process heat requirements were determined. The main objective was the optimization of the production of liquid bio-oil without any use of fossil fuel.

The composition of the product gases was measured, from which their heating value was calculated. The liquid bio-oil was recovered with cyclonic condensers and separated …

Conversion Of Lower Lignin Mutants Of Sorghum Bicolor To Ethanol, Michael A. Cotta

Bioenergy - II: Fuels and Chemicals from Renewable Resources

The United States Government has targeted aggressive development of ethanol as one route for decreasing oil dependence and lowering greenhouse gas emissions. Achieving future production targets depends on expanding feedstock sources beyond corn and towards lignocellulose. This is expected to include new low-input and high yielding energy crops. Utilizing dedicated energy crops allows for the possibility of breeding them for increased conversion efficiency to ethanol. In this study, the effect of reducing lignin content was evaluated for sugar and ethanol production in forage sorghum (Sorghum bicolor (L.)). The sample set included wild-type and brown midrib mutants for reduced lignin contents. …

Hydrogen Production By Aqueous-Phase Reforming, Lucía García, Ana Valiente, José Antonio Medrano, Miriam Oliva, Joaquín Ruiz, Jesús Arauzo

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Nowadays, there is a great interest in hydrogen production because of its chemical uses in industry and its utilization as a clean fuel in high energetic efficiency systems like fuel cells. At present, fossil fuels (natural gas, naphtha, coal …) are the main feedstock for hydrogen production, but they have the inconvenience of a net increase of CO2 emissions and other environmental problems. The use of different types of biomass, among them waste streams, should be considered.

In the present work, aqueous-phase reforming (APR) process will be studied. The APR process has some advantages in comparison to the current steam …

Comparative Fast Pyrolysis Of Agricultural Residues For Use In Biorefineries, Dietrich Meier, Jens Markgraf

Bioenergy - II: Fuels and Chemicals from Renewable Resources

In the light of depleting fossil resources, biomass is gaining renewed interest as a source of renewable carbon, which can be used for energy and chemicals. The production of biofuels such as ethanol, palm oil and bio-diesel has come under criticism for its likely competition with food. These production systems need either huge areas of monocultures or use some parts of plant material such as the carbohydrate fraction only for fermentation to produce ethanol. Other technologies such as fast pyrolysis offer the advantage of using whole plant material for the production of so called 'bio-oils', which adheres to the condensates …

Biofuel Production From Biomass-Derived Volatile Fatty Acid Platform, Ho Nam Chang, Nakjong Kim, Changmoon Joeng Jongwon Kang, Hyungshik Choi

Bioenergy - II: Fuels and Chemicals from Renewable Resources

The typical biorefinery platforms are sugar, thermochemical (syngas), carbon-rich chains, and biogas platform. The sugar platform uses hexose and pentose sugars extracted or converted from plant body. The thermochemical (syngas) platform is chemical or biological conversion process using pyrolysis or gasification of plant to produce biofuels. The carbon-rich chains platform is used to produce biodiesel from long-chain fatty acids or glycerides. Those platforms have unique advantages and disadvantages. Our group has concentrated on the biogas platform producing methane gas from municipal solid wastes through anaerobic digestion (AD) processs, which is composed of rapid acidogenesis and slow methanogenesis. This acidogenic and …

Production Of Ethylic Biodiesel From Hydrolysis And Esterification Of Acid Animal Fat, Jose Geraldo Pacheco, Ligia Martinelli, Jadson P. A. Silva, Luiz Stragevitch, Donato Aranda

Bioenergy - II: Fuels and Chemicals from Renewable Resources

Biodiesel is a fuel derived from the oils and fats of plants and animals. Some vegetable oils after extraction and seed storing may have high acidity due to the conversion of triglycerides into free faty acids. Transesterification of high acidic oils with basic catalyst will form a large amount of soap as residue. The objective of this work is to study hydrolysis of tallow fats estherification free fatty acids followed by estherification of free fatty acids with ethanol using homogeneous catalyst. Tallow fat was hydrolyzed by enzyme lipase extracted from Ricinius Communs seeds. Estherification was done in a pressurizes reactor, …

Biodiesel – Oxidation, Storage Stability And Materials Compatibility – The Brazilian R&D Experience, Eduardo Cavalcanti

Bioenergy - II: Fuels and Chemicals from Renewable Resources

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Bio-Energy Ii - Conference Program, José Duarte, Cedric Briens

Bioenergy - II: Fuels and Chemicals from Renewable Resources

List of speakers, talks and more.