SHF MULTIPATH CHANNEL MODELING RESULTS

Rice, Michael, Lei, Qiang

10 1900

ITC/USA 2005 Conference Proceedings / The Forty-First Annual International Telemetering Conference and Technical Exhibition / October 24-27, 2005 / Riviera Hotel & Convention Center, Las Vegas, Nevada / This paper presents the results of land-based SHF channel modeling experiments. Channel modeling data were collected at Edwards AFB, California at S-Band, X-Band and Ku-band. Frequency domain analysis techniques were used to evaluate candidate channel models. A graphical user interface (GUI) was developed to search for the optimum channel parameters. The model parameters corresponding to different frequencies were compared for multipath events captured at approximately the same locations. A general trend was observed where the magnitude of the first multipath reflection decreased as frequency increased and the delay remained relatively unchanged.

SHF Channel Model

Multipath Interference

Channel Sounding

Avaliação da hidrólise enzimática do sabugo de milho pré-tratado com ácido diluído e surfactante para a obtenção de bioetanol / Evaluation of enzymatic hydrolysis of pretreated corn cob with dilute acid and surfactant in getting bio-ethanol

Kleingesinds, Eduardo Krebs

06 March 2017

A exploração indiscriminada dos combustíveis fósseis vem alertando para o colapso próximo do suprimento de energia. Fontes alternativas vêm sendo exploradas com o propósito de apresentarem-se como combustíveis com o mesmo potencial, além de estarem inseridas em um contexto de desenvolvimento sustentável. O Brasil, por consolidar sua posição com forte mercado agroindustrial e dispor de uma grande variedade de unidades agrícolas possui como subprodutos uma alta quantidade de resíduos, como o sabugo de milho. Assim, buscam-se viabilizar metodologias que tornem a exploração desta fonte economicamente vantajosa para a obtenção de etanol de segunda geração (2G). Novas metodologias vêm propondo o emprego de tensoativos como aditivos tanto no prétratamento quanto na hidrólise enzimática de materiais lignocelulósicos. Neste contexto, o presente trabalho objetivou estudar a hidrólise enzimática do sabugo de milho pré-tratado por ácido diluído na presença de diferentes concentrações do tensoativo Tween 80 em associação com a dosagem do complexo enzimático Cellic CTec2 para a obtenção de um hidrolisado rico em glicose para obtenção de etanol pela levedura Scheffersomyces stipitis CBS 6054 através do processo SHF (Separate Hydrolysis and Fermentation). Os ensaios foram conduzidos de acordo com planejamento experimental 23 com face centrada e 3 repetições no ponto central. As variáveis estudadas foram: concentração de surfactante no pré-tratamento e na hidrólise enzimática e dosagem do complexo enzimático. Os resultados mostraram que o uso do surfactante no pré-tratamento com ácido sulfúrico diluído surtiu maior efeito na remoção de lignina e hemicelulose quando empregado na concentração de 10% (m/m). Nesta condição foi possível observar um aumento (21,1%) na perda de celulose em relação ao pré-tratamento sem a presença de surfactante. A maior diminuição na cristalinidade (81,23%) foi com o uso de 10% do tensoativo. A análise da superfície de resposta permitiu determinar as condições ótimas do processo SHF para obtenção de máximo rendimento em glicose (entre 80 e 90 %) que foi quando a concentração de surfactante no pré-tratamento aumentou de 0 a 10 % (m/m) mantendo-se constante em seu nível superior a concentração de surfactante na hidrolise enzimática (10 % m/m) com redução na dosagem de enzima (25,50 FPU/gmaterial lignocelulósico seco). Nestas condições experimentais obteve-se favorecimento no rendimento em glicose (80,54%) e concentração em glicose (61,98 g/L) no meio reacional concomitantemente com o favorecimento no rendimento em xilose (70,66%). Esta levedura fermentou concomitantemente os açúcares (glicose, xilose e celobiose) a etanol com elevados fator de conversão (0,37 g/g) e produtividade volumétrica (1,02 getanol/L.h). A velocidade especifica máxima de consumo destes açúcares foi favorecida na seguinte ordem: glicose, celobiose e xilose. Após esta fermentação foi obtido um material com uma superfície mais porosa e fragmentada. Este fato evidenciou que o complexo enzimático agiu eficientemente quebrando a celulose cristalina obtendo um material amorfo. Espera-se que este trabalho tenha contribuído para o desenvolvimento de uma tecnologia alternativa para a produção de etanol por via biotecnológica a partir da fração lignocelulósica do sabugo de milho, a fim de mitigar os impactos ambientais intrínsecos ao processo. / The indiscriminate exploitation of fossil fuels has been warning of the near collapse of the energy supply. Alternative sources have been explored with the purpose of presenting themselves as fuels with the same potential, besides being inserted in a context of sustainable development. Brazil, by consolidating its position with a strong agroindustrial market and having a wide variety of agricultural units, has as a by-product a high amount of waste, such as corn cob. Thus, we seek to make feasible methodologies that make the exploitation of this source economically advantageous to obtain second generation etanol (2G). New methodologies have proposed the use of surfactants as additives in both pretreatment and enzymatic hydrolysis of lignocellulosic materials. In this context, the present work aimed to study the enzymatic hydrolysis of diluted-acid pretreated corn cob in the presence of different concentrations of the Tween 80 surfactant in combination with the dosage of the Cellic CTec2 enzymatic complex to obtain a glucose rich hydrolysate to produce ethanol by the yeast Scheffersomyces stipitis CBS 6054 in SHF (Separate Hydrolysis and Fermentation) process. The experiments were conducted according to experimental design 23 with centered face and 3 repetitions at the central point. The variables studied were: concentration of surfactant in the pretreatment and in the enzymatic hydrolysis and dosage of the enzymatic complex. The results showed that the use of surfactant in the pretreatment with diluted sulfuric acid had a greater effect on the removal of lignin and hemicellulose when used at the concentration of 10% (w/w). In this condition, the cellulose content was decreased by 21.1% as compared with the amount presents in the diluted-acid corn cob pretreatment without surfactant. The greatest decrease in crystallinity (81.23%) was with the use of 10% of the surfactant. The response surface analysis allowed to determine the optimum conditions of the SHF process to obtain maximum glucose yield (between 80 and 90%), when the pre-treatment surfactante concentration increased from 0 to 10% (w/w) with a reduction in the enzyme dosage (25,50 FPU/g dry lignocellulosic material) at a higher level than the surfactant concentration in the enzymatic hydrolysis. In these experimental conditions, glucose yield (80.54%) and glucose concentration (61.98 g/L) in the reaction medium were favored concomitantly with xylose yield (70.66%). This yeast concomitantly fermented the sugars (glucose, xylose and cellobiose) to ethanol with high conversion factor (0.37 g/g) and volumetric productivity (1.02 getanol/L.h). The maximum specific velocity of consumption of these sugars was favored in the following order: glucose, cellobiose and xylose. After this fermentation was obtained a material with a more porous and fragmented surface. This fact evidenced that the enzymatic complex acted efficiently breaking down the crystalline cellulose obtaining an amorphous material. It is hoped that this work had contributed to the development of an alternative technology to produce ethanol by Biotechnological route from the corn cob lignocellulosic fraction in order to mitigate the environmental impacts intrinsic to the process.

Avaliação da hidrólise enzimática do sabugo de milho pré-tratado com ácido diluído e surfactante para a obtenção de bioetanol / Evaluation of enzymatic hydrolysis of pretreated corn cob with dilute acid and surfactant in getting bio-ethanol

Eduardo Krebs Kleingesinds

06 March 2017

A exploração indiscriminada dos combustíveis fósseis vem alertando para o colapso próximo do suprimento de energia. Fontes alternativas vêm sendo exploradas com o propósito de apresentarem-se como combustíveis com o mesmo potencial, além de estarem inseridas em um contexto de desenvolvimento sustentável. O Brasil, por consolidar sua posição com forte mercado agroindustrial e dispor de uma grande variedade de unidades agrícolas possui como subprodutos uma alta quantidade de resíduos, como o sabugo de milho. Assim, buscam-se viabilizar metodologias que tornem a exploração desta fonte economicamente vantajosa para a obtenção de etanol de segunda geração (2G). Novas metodologias vêm propondo o emprego de tensoativos como aditivos tanto no prétratamento quanto na hidrólise enzimática de materiais lignocelulósicos. Neste contexto, o presente trabalho objetivou estudar a hidrólise enzimática do sabugo de milho pré-tratado por ácido diluído na presença de diferentes concentrações do tensoativo Tween 80 em associação com a dosagem do complexo enzimático Cellic CTec2 para a obtenção de um hidrolisado rico em glicose para obtenção de etanol pela levedura Scheffersomyces stipitis CBS 6054 através do processo SHF (Separate Hydrolysis and Fermentation). Os ensaios foram conduzidos de acordo com planejamento experimental 23 com face centrada e 3 repetições no ponto central. As variáveis estudadas foram: concentração de surfactante no pré-tratamento e na hidrólise enzimática e dosagem do complexo enzimático. Os resultados mostraram que o uso do surfactante no pré-tratamento com ácido sulfúrico diluído surtiu maior efeito na remoção de lignina e hemicelulose quando empregado na concentração de 10% (m/m). Nesta condição foi possível observar um aumento (21,1%) na perda de celulose em relação ao pré-tratamento sem a presença de surfactante. A maior diminuição na cristalinidade (81,23%) foi com o uso de 10% do tensoativo. A análise da superfície de resposta permitiu determinar as condições ótimas do processo SHF para obtenção de máximo rendimento em glicose (entre 80 e 90 %) que foi quando a concentração de surfactante no pré-tratamento aumentou de 0 a 10 % (m/m) mantendo-se constante em seu nível superior a concentração de surfactante na hidrolise enzimática (10 % m/m) com redução na dosagem de enzima (25,50 FPU/gmaterial lignocelulósico seco). Nestas condições experimentais obteve-se favorecimento no rendimento em glicose (80,54%) e concentração em glicose (61,98 g/L) no meio reacional concomitantemente com o favorecimento no rendimento em xilose (70,66%). Esta levedura fermentou concomitantemente os açúcares (glicose, xilose e celobiose) a etanol com elevados fator de conversão (0,37 g/g) e produtividade volumétrica (1,02 getanol/L.h). A velocidade especifica máxima de consumo destes açúcares foi favorecida na seguinte ordem: glicose, celobiose e xilose. Após esta fermentação foi obtido um material com uma superfície mais porosa e fragmentada. Este fato evidenciou que o complexo enzimático agiu eficientemente quebrando a celulose cristalina obtendo um material amorfo. Espera-se que este trabalho tenha contribuído para o desenvolvimento de uma tecnologia alternativa para a produção de etanol por via biotecnológica a partir da fração lignocelulósica do sabugo de milho, a fim de mitigar os impactos ambientais intrínsecos ao processo. / The indiscriminate exploitation of fossil fuels has been warning of the near collapse of the energy supply. Alternative sources have been explored with the purpose of presenting themselves as fuels with the same potential, besides being inserted in a context of sustainable development. Brazil, by consolidating its position with a strong agroindustrial market and having a wide variety of agricultural units, has as a by-product a high amount of waste, such as corn cob. Thus, we seek to make feasible methodologies that make the exploitation of this source economically advantageous to obtain second generation etanol (2G). New methodologies have proposed the use of surfactants as additives in both pretreatment and enzymatic hydrolysis of lignocellulosic materials. In this context, the present work aimed to study the enzymatic hydrolysis of diluted-acid pretreated corn cob in the presence of different concentrations of the Tween 80 surfactant in combination with the dosage of the Cellic CTec2 enzymatic complex to obtain a glucose rich hydrolysate to produce ethanol by the yeast Scheffersomyces stipitis CBS 6054 in SHF (Separate Hydrolysis and Fermentation) process. The experiments were conducted according to experimental design 23 with centered face and 3 repetitions at the central point. The variables studied were: concentration of surfactant in the pretreatment and in the enzymatic hydrolysis and dosage of the enzymatic complex. The results showed that the use of surfactant in the pretreatment with diluted sulfuric acid had a greater effect on the removal of lignin and hemicellulose when used at the concentration of 10% (w/w). In this condition, the cellulose content was decreased by 21.1% as compared with the amount presents in the diluted-acid corn cob pretreatment without surfactant. The greatest decrease in crystallinity (81.23%) was with the use of 10% of the surfactant. The response surface analysis allowed to determine the optimum conditions of the SHF process to obtain maximum glucose yield (between 80 and 90%), when the pre-treatment surfactante concentration increased from 0 to 10% (w/w) with a reduction in the enzyme dosage (25,50 FPU/g dry lignocellulosic material) at a higher level than the surfactant concentration in the enzymatic hydrolysis. In these experimental conditions, glucose yield (80.54%) and glucose concentration (61.98 g/L) in the reaction medium were favored concomitantly with xylose yield (70.66%). This yeast concomitantly fermented the sugars (glucose, xylose and cellobiose) to ethanol with high conversion factor (0.37 g/g) and volumetric productivity (1.02 getanol/L.h). The maximum specific velocity of consumption of these sugars was favored in the following order: glucose, cellobiose and xylose. After this fermentation was obtained a material with a more porous and fragmented surface. This fact evidenced that the enzymatic complex acted efficiently breaking down the crystalline cellulose obtaining an amorphous material. It is hoped that this work had contributed to the development of an alternative technology to produce ethanol by Biotechnological route from the corn cob lignocellulosic fraction in order to mitigate the environmental impacts intrinsic to the process.

Vývoj sudetoněmeckých politických hnutí v letech 1933 - 1938 / Development of the Sudeten German political movements in the yars 1933 - 1938

Kupr, Tomáš

January 2018

The master's thesis "Development of the Sudeten German political movements in the years 1933 - 1938" is focusing on the formation and development of Sudetenland German political movements in the Czechoslovak Republic. It deals with the situation of German minority group, it analyses the assumptions and also attempts for unification of German (negativistic) political field in the process being aimed at establishment and forming Sudetenland German Patriotic Front (SHF) in 1933. The thesis subsequently follows up the chronological development of Henlein Movement (SHF), the relation to other German political parties and the state, and also the transformation in Sudetenland German Party (SdP) in 1935. Afterwards, the thesis include the analysis of its election programme, the ways of campaigning and the election results in the parliamentary elections in 1935 (the voter turnout in municipal election in 1934 and 1938 is also mentioned). The internal party crisis belongs among other milestones of SdP that are dealt in this thesis just as Carlsbad Programme (with the demands against Czechoslovakia), the dissolving of SdP and the changeover of former members to German National Socialist Labour Party (NSDAP) in 1938.

Separate Hydrolysis and Fermentation of Pretreated Spruce

Axelsson, Josefin

January 2011

Bioethanol from lignocellulose is expected to be the most likely fuel alternative in the near future. SEKAB E-Technology in Örnsköldsvik, Sweden develops the technology of the 2nd generation ethanol production; to produce ethanol from lignocellulosic raw material. The objective of this master’s thesis was to achieve a better knowledge of the potential and limitations of separate hydrolysis and fermentation (SHF) as a process concept for the 2nd generation ethanol production. The effects of enzyme concentration, temperature and pH on the glucose concentration in the enzymatic hydrolysis were investigated for pretreated spruce at 10% DM using a multiple factor design. Enzyme concentration and temperature showed significant effects on the glucose concentration, while pH had no significant effect on the concentration in the tested interval of pH 4.5-5.5. To obtain the maximum glucose concentration (46.4 g/l) for a residence time of 48 h, the optimal settings within the studied parameter window are a temperature of 45.7⁰C and enzyme concentration of 15 FPU/g substrate. However, a higher enzyme concentration would probably further increase the glucose concentration. If enzymatic hydrolysis should be performed for very short residence times, e.g. 6 h, the temperature should be 48.1⁰C to obtain maximum glucose concentration. The efficiency of the enzymes was inhibited when additional glucose was supplied to the slurry prior to enzymatic hydrolysis. It could be concluded that end product inhibition by glucose occurs and results in a distinct decrease in glucose conversion. No clear conclusions could be drawn according to different techniques for slurry and enzymes, i.e. batch and fed-batch, in the enzymatic hydrolysis process. Investigations of the fermentability of the hydrolysate revealed that the fermentation step in SHF is problematic. Inhibition of the yeast decrease the fermentation efficiency and it is therefore difficult to achieve the 4% ethanol limit. Residence time for enzymatic hydrolysis (48 h) and fermentation (24 h) need to be prolonged to achieve a sufficient SHF process. However, short processing times are a key parameter to an economically viable industrial process and to prolong the residence times should therefore not be seen as a desirable alternative. SHF as a process alternative in an industrial bioethanol plant has both potential and limitations. The main advantage is the possibility to separately optimize the process steps, especially to be able to run the enzymatic hydrolysis at an optimal temperature. Although, it is important to include all the process steps in the optimization work. The fermentation difficulties together with the end product inhibition are two limitations of the SHF process that have to be improved before SHF is a preferable alternative in a large scale bioethanol plant.

lignocellulosic ethanol

softwood

SHF

enzymatic hydrolysis

cellulases

end product inhibition

Bioengineering

Bioteknik

Design of Microstrip Microwave Devices with Lumped Elements by Means of Modern CADs

Dorosh, Anastasiia

January 2013

In this report the analysis of microstrip electrodynamic structures on basis of high-temperature superconductors is carried out and a mathematical model of microstrip devices with lumped and distributed nonlinear properties is created. For this purpose nonlinear integral equations method and method of moments are used. In the issue of the work a SHF filter based on the equivalent circuit of elements with lumped parameters is also studied. It is ascertained that the received mathematical model allows to achieve more proper results of modeling on compensation of variation of current-density distribution nearby the edges of conductor break.

Microstrip device

surface impedance

high-temperature superconductivity

lumped element

nonlinear integral equation

boundary conditions

SHF filter

Feasibility of Spectrum Sharing Between Airborne Weather Radar and Wireless Local Area Networks

Zarookian, Ruffy

12 December 2007

Emerging technologies such as wireless local area networks and cellular telephones have dramatically increased the use of wireless communications services within the last 10 years. The shortage of available spectrum exists due to increasing demand for wireless services and current spectrum allocation regulations. To alleviate this shortage, Research aims to improve spectral efficiency and to allow spectrum sharing between separately managed and non-coordinating communications systems. This thesis explores the feasibility of spectrum sharing between airborne weather radar and wireless local area networks at 9.3 GHz – 9.5 GHz. Characteristics of flight paths of aircraft using airborne weather radar and the low duty cycle of radar transmissions offer unique opportunities for spectrum sharing. But it was found that the extremely sensitive receivers provide challenges for designing a communications system meant for widespread use. The probability of causing harmful interference to airborne weather radar is too great for most types of wireless local area networks, but a direct sequence spread spectrum scheme could share spectrum with airborne weather radar. Bit errors in wireless local area network links caused by airborne weather radar interference do not significantly decrease the performance of the wireless local area network system. The distribution of interference outside of the airborne weather radar receiver by using direct sequence spread spectrum combined with the acceptable bit error rates indicate that while spectrum sharing between airborne weather radar and wireless local area network at 9.3 GHz – 9.5 GHz is not feasible, direct sequence spread spectrum systems can share spectrum with airborne weather radars under more limited assumptions. / Master of Science

Airborne Weather Radar

Interference

Radar

Spectrum Sharing

Wireless Local Area Networks

X Band

SHF Band

Wireless Communications

PERFIL DOS PROFISSIONAIS E ESTRUTURA DAS UNIDADES BÁSICAS DA ESTRATÉGIA SAÚDE DA FAMÍLIA DOS MUNICÍPIOS DA 19ª CRS/RS

Mahl, Claudiane

19 November 2007

Made available in DSpace on 2016-03-22T17:26:04Z (GMT). No. of bitstreams: 1 Claudiane_Mahl.pdf: 397889 bytes, checksum: f8508dd36c4e1bcbd9f37406d9271dbb (MD5) Previous issue date: 2007-11-19 / To describe the profile of the professionals of the Strategy Health of Family (SHF) and structure of the Basic Units of Health (BUH) of 19ª Regional Coordinator of the Health, a transversal study in its was become full filled 28 cities, totalizing 239 professionals (88%) and 38 questionnaires of the structure (93%). After assent, the workers had answered an auto-applied instrument. Descriptive analysis was become full filled strativing itself for professional activity. Prevalence of the feminine sex in the SHF was observed. More than 65% of the ACS has 2º complete degree of studies. How much to the superior level, the similar nurses with bigger specialization in public health and areas had been distinguished. High wage average of the doctors was observed. 40% of the professionals had almost carried through public competition. Half of the BUH the access and displacement of special carriers of necessities had revealed inadequate to. The research shows real obstacles for the ideal functioning of the SHF praised for the SUS (brazilian governanmental unique health). The health workers are responsible for the consolidation of the Strategy the Health of the Family, therefore, if he makes necessary greaters efforts in the scope of the management for improvement of the structure of the BUH and support to these workers / Para descrever o perfil dos profissionais do Programa Saúde da Família (PSF) e a estrutura das Unidades Básicas de Saúde (UBS) da 19ª Coordenadoria Regional da Saúde, realizou-se um estudo transversal em seus 28 municípios, com uma amostra de 239 profissionais (88%) e 38 UBS (93%). Após consentimento, os trabalhadores responderam um instrumento auto-aplicado. Realizou-se análise descritiva estratificando-se por atividade profissional. Observou-se maior prevalência do sexo feminino nas ESF. Mais de 65% dos Agentes Comunitários de Saúde (ACS) possuem ensino médio completo. Quanto ao nível superior, destacaram-se os enfermeiros com maior especialização em saúde pública e áreas afins. Observou-se que os médicos apresentaram maior média salarial e quase 40% dos profissionais ingressaram por concurso público. Metade das UBS mostraram-se inadequadas ao acesso e deslocamento de portadores de necessidades especiais. A pesquisa mostrou obstáculos reais para um funcionamento mais qualificado das Equipes de Saúde da Família (ESF), de acordo com preconizado pelo SUS. Os trabalhadores de saúde são os responsáveis pela consolidação do PSF, portanto, são necessários maiores esforços no âmbito da gestão para a melhoria da estrutura das UBS e apoio a estes trabalhadores.

Programa Saúde da Família

perfil dos profissionais

estrutura das UBS

estudo transversal

Strategy Health of Family (SHF)

Profile of the professionals

Structure of the BUH

descriptive Research

CNPQ::CIENCIAS DA SAUDE::MEDICINA

Teknisk utvärdering av en ny miljövänlig förbehandlingsmetod av biomassaavfall med utspädd salpetersyra / Technical evaluation of a new environmentally friendly pre-treatment method of biomass waste by dilute-nitric acid pulping

Zhi, Li, Murgårdh, Oliver

January 2012

Bio-refining of renewable resources such as waste biomass into value added products has increased rapidly over the last decades. The aim is to find new environmentally friendly yet economically feasible ways of replacing current utilization of non renewable resources. It can be expected that a commercially viable next generation bio-ethanol will be produced from lignocellulosic feedstock in the near future.This master thesis set out to look at a specific Canadian company in depth (Pure Lignin Environmental Technology Ltd), known as PLET henceforth. PLET has a new approach in pre-treatment of biomass, with a recently patented environmentally friendly technology, which could be extremely lucrative if applied in the right context. It is desirable to look at the possibility of using the master thesis as a take-off platform to launch a consulting bio-tech company directly after completion.There are several different ways to process biomass into higher value added products. In this master thesis focus is laid upon biomass waste, but the same principles could be applied on biomass processing in general. That is the separation and purification of products. In order to put the technology of PLET into a context, other company approaches are used as a comparison, such as SEKAB E-Technology, Lignoboost and Borregaard Lignotech.It is however hard to find suitable examples equivalent to the PLET approach since the technology of PLET considers all the three constituents of wood as raw material for production of three stand alone commercial products; pure lignin, pure cellulose and hemi-cellulose. These three products are separated and purified in the pre-treatment process at high yield and practically no formation of by-products. Process parameters are only moderately adjusted depending on what raw material is used.The catalytic reactor process (=CRP), is performed by PLET as a pre-treatment in a continuous and batch system, in which lignocellulosic material (= wood chips, saw dust or other waste biomass) undergo acid catalyzed hydrolysis by dilute nitric acid. The impregnated wood chips are partially depolymerised from the lignin matrix when heated in the low pressure catalytic reactor. After that, follows distillation, condensation and almost complete recovery of dilute nitric acid. After CRP, the cellulose pulp is separated from the black liquor by an alkaline solution (=NaOH). The obtained black liquor is pumped to a separation tank to precipitate lignin and sweet liquor through filtration. The final step is to dry the lignin, while the sweet liquor is utilized by Torula yeast (=Candida utilis) in order to produce unicellular protein.It would be interesting to see if the pre-treatment that PLET provides, could be exploited in a context of production of next generation of cellulosic ethanol from the cellulosic part of waste biomass. In this master thesis, an evaluation of producing next generation ethanol from dilute-nitric acid pre-treated cellulose rich softwood was performed and dilute sulphuric acid pre-treated hemi-cellulose rich hardwood birch pulp was used as a comparison.The technical part of this master thesis was conducted on a laboratory scale, using samples from two companies, referred to as PLET and SEKAB E-technology (Sweden). The strategy of PLET is currently to find a commercial platform to produce value added products from waste biomass generated by saw mills and pulping industries, while SEKAB E-Technology mainly works with Swedish softwood as a raw material.ivExperiments of this master thesis includes a series of fermentation trials using either SSF (= Simultaneous Saccharification and Fermentation) or SHF (= Separate Hydrolysis and Fermentation). Yields of the enzymatic hydrolysis and subsequent fermentations were estimated with HPLC measurements complemented with dry weight measurements.Obtained experimental data support the potential to make lignocellulosic ethanol out of either softwood or hardwood. Ethanol yield from dry material from SEKAB E-Technology hardwood birch slurry was 0.43 (g ethanol / g dry raw material), whereas samples supplied by PLET achieved the following results. The ethanol yield from dry material from softwood pine washed cellulose was 0.33 g (ethanol / g cellulose). The ethanol yield from dry material obtained for softwood pine unwashed cellulose in the three SHF was 0.47; 0.34 and 0.19 (g ethanol / g cellulose) respectively, while the yield in the two SSF was 0.45 and 0.46 (g ethanol / g glucose).The economical part of this master thesis includes the use of Business Model Canvas and the NABC- model (= Need, Approach, Benefit and Competition) to define the basic topics and tasks that need to be addressed in the start up phase of a small consulting bio-tech company.At least 6 million US dollars is needed as a minimum starting capital to be able to construct a small commercially viable pilot plant, according to PLET. This investment would cover the basic requirements and is scalable. The construction could preferably be done in Sweden in the vicinity of an existing saw mill or paper pulp industry or elsewhere, where a steady supply of cheap raw material could be assured. The size of the operation envisioned, depends greatly on location and adjacent businesses. Large pulp mills in the range of 400-500 MWh would be preferred, the largest pulp mills in Canada process 5000 ton per day which is equivalent to a capacity of 1 GW wood per day (GW = giga watt), but the concept of the technology of PLET must first prove its value on a smaller scale.According to PLET, a future full scale production plant could be designed for processing 56 tons of wood chips per day of wood chips would generate annual revenues of ≈ 7500000 US dollars. The annual profit would be ≈ 2500000 US dollars, and capital cost (equipments) ≈ 5000000 US dollars, while the payback time on investment would be 2-3 years. According to PLET, the products are estimated to have the following values; 25 tons/day of pure cellulose with a market value of 400-500 US dollars/ton, 10 tons/day of pure lignin with a market value of 1000-1200 US dollars/ton and finally 21 tons/day of sweet liquor with a market value of 50-100 US dollars/ton. / Program: Masterutbildning i Energi- och materialåtervinning - industriell bioteknik

lignin

cellulosic ethanol

sweet liquor

pre-treatment

dilute nitric acid pulping

SSF

SHF

cellic ctec2

yeast

NABC

bio-refining

Engineering and Technology

Teknik och teknologier

Comparisons of the technical, financial risk and life cycle assessments of various processing options of sugercane bagasse to biofuels in South Africa

Petersen, Abdul Muhaymin

03 1900

Thesis (MScEng)--Stellenbosch University, 2012 / ENGLISH ABSTRACT: Through many years of research, a number of production schemes have been developed for converting lignocellulosic biomass into transport fuels. These technologies have been assessed through a number of techno-economic studies for application in a particular context in terms of the technical and economic feasibility. However, previous studies using these methods have tended to lack vigour in various aspects. Either the energy efficiency of the processes were not maximised through adequate heat integration, or a competing technology which existed was not considered. From an economic perspective, the financial models would often lack the vigour to account for the risk and uncertainty that is inherent in the market prices of the commodities. This phenomenon is especially relevant for the biofuel industry that faces the full fledge of uncertainties experienced by the agricultural sector and the energy sector. Furthermore, from an environmental perspective, the techno-economic studies had often ignored the environmental impacts that are associated with biofuel production. Thus, a comparative study could have favoured an option due to its economic feasibility, while it could have had serious environmental consequences. The aim of this study was to address these issues in a South African context, where biofuels could be produced from sugarcane bagasse. The first step would be to modify an existing simulation model for a bioethanol scenario that operates with a Separate Hydrolysis and Fermentation (SHF process) configuration into a second processing scenario that operates with a Simultaneous Saccharification and Fermentation (SSF process) configuration using reliable experimental data. The second step was to ensure that the maximum energy efficiency of each scenario was realised by carrying out pinch point analysis as a heat integration step. In contrast to these biological models is the thermochemical model that converts bagasse to gasoline and diesel via gasification, Fischer-Tropsch synthesis and refining (GFT process). While there were no significant advances in technology concerning this type of process, the energy efficiency was to be maximised with pinch point analysis. The GFT process obtained the highest energy efficiency of 50.6%. Without the affects of pinch point technology, the efficiency dropped to 46%, which thus emphasises the importance of heat integration. The SSF had an efficiency of 42.8%, which was superior to that of the SHF at 39.3%. This resulted from a higher conversion of biomass to ethanol in the SSF scenario. Comparing the SHF model to an identical model found in literature that did not have pinch point retrofits, this study showed lower efficiency. This arose because the previous study did not account for the energy demands of the cold utility systems such as the cooling tower operation, which has been shown in this study to account for 40% of the electrical energy needs. The economic viability of all three processes was assessed with Monte Carlo Simulations to account for the risks that the fluctuations in commodity prices and financial indices pose. This was accomplished by projecting the fluctuations of these parameters from samples of a historical database that has been transformed into a probability distribution function. The consequences were measured in terms of the Net Present Value (NPV) and Internal Rate of Return (IRR) for a large number of simulations. The results of these variables were aggregated and were then assessed by testing the probability that the NPV<0, and that the IRR recedes below the interest rate of 12.64%. The investment was thus deemed unfeasible if these probabilities were greater than 20%. Both biological models were deemed profitable in terms of this standard. The probabilities were 13% for the SSF and 14% for the SHF. The GFT process however was deemed completely unfeasible because the probability that the NPV<0 was 78%. Given that the GFT process had the highest energy efficiency, this result arises mainly because the capital investment of 140,000USD/MWHHV of biomass energy input is to enormous for any payback to be expected. The environmental footprint of each process was measured using Life Cycle Assessments (LCAs). LCAs are a scientifically intricate way of quantifying and qualifying the effects of a product or process within a specified boundary. The impacts are assessed on a range of environmental issues, such as Global Warming, Acidification, Eutrophication and Human toxicity. Furthermore, if the project under concern has multiple output products, then the impacts are distributed between the output products in proportion to the revenue that each generates. The impacts were either relative to the flow of feedstock, which was 600MW of bagasse, or to the functional unit, which was the amount of fuel required to power a standard vehicle for a distance of 1 kilometre. In either case, the GFT scenario was the least burdening on the environmental. This was expected because the GFT process had the highest energy efficiency and the process itself lacked the use of processing chemicals. Relative to the feedstock flow, the SSF was the most environmentally burdening scenario due to the intensive use of processing chemicals. Relative to the functional unit, the SHF was the most severe due to its low energy efficiency. Thus, the following conclusions were drawn from the study:  The GFT is the most energy and environmentally efficient process, but it showed no sign of economic feasibility. iv  There is no significant difference in the economic and environmental evaluation of the SSF and SHF process, even though the SSF is considered to be a newer and more efficient process. The major cause of this is because the setup of the SSF model was not optimised. / AFRIKAANSE OPSOMMING: Deur baie jare van navorsing is ‘n aantal produksie-skemas vir die omskakeling van lignosellulose biomassa na vloeibarebrandstof ontwikkel. Hierdie tegnologië is geassesseer ten opsigte van die tegniese en ekonomiese haalbaarheid deur middel van tegno-ekonomiese studies in bepaalde tekste. Tog het hierdie vorige studies besliste beperkings gehad. Of die energie-doeltreffendheid van die proses is nie gemaksimeer deur voldoende hitte-integrasie nie, of 'n mededingende tegnologie wat bestaan is nie oorweeg nie. Vanuit 'n ekonomiese perspektief, was die finansiële modelle dikwels nie die omvattend genoeg om rekening te hou met die risiko en onsekerheid wat inherent is in die markpryse van die kommoditeite nie. Hierdie verskynsel is veral relevant vir die biobrandstof bedryf wat die volle omvang van onsekerhede ervaar waaraan die landbousektor en die energiesektoronderhewig is. Verder het die tegno-ekonomiese studies dikwels die omgewingsimpakte wat verband hou met biobrandstofproduksie geïgnoreer. Dus kon ‘n opsie deur die ekonomiese haalbaarheid bevoordeel word, ten spyte van die ernstige omgewingsimpakte wat dit kon inhou. Die doel van hierdie studie was om hierdie kwessies aan te spreek in 'n Suid-Afrikaanse konteks, waar biobrandstof uit suikerriet bagasse geproduseer kan word. Die eerste stap was om 'n bestaande simulasiemodel vir 'n bio-scenario wat met Afsonderlike Hidroliese en Fermentasie (SHF proses) stappe werk, te modifiseer vir 'n tweede verwerking scenario wat met 'n gelyktydige Versuikering en Fermentasie (SSF proses) konfigurasie werk. Die verandering is gedoen deur die gebruik van betroubare eksperimentele data. Die tweede stap was om te verseker dat elke scenario die maksimum energie-doeltreffendheid het, deur 'n hitte-integrasie stap, wat gebruik maak van “pinch-point” analise. In teenstelling met hierdie biologiese modelle, is daar die thermochemiese roete waar petrol en diesel van bagasse vervaardig word via vergassing, Fischer-Tropsch-sintese en rafinering (GFT proses). Daar was geen betekenisvolle vooruitgang in tegnologie vir hierdie proses nie, maar die energie-doeltreffendheid is gemaksimeer word deur energie-integrasie. Die GFT proses toon die hoogste energie-doeltreffendheid van 50,6%. Sonder die invloed van energie-integrasie het die doeltreffendheid gedaal tot 46%, wat dus die belangrikheid van hitte-integrasie beklemtoon. Die SSF het 'n effektiwiteit van 42,8% gehad, wat beter was as dié 39,3% van die SHF opsie. Hierdie hoër effektiwiteit wasas gevolg van die hoër omskakeling van biomassa na etanol in die SSF scenario. Die energie doeltreffendheid vir die SHF-model was laer as met 'n identiese model (sonder energie-integrasie) wat in die literatuur gevind wat is. Dit het ontstaan omdat die vorige studie nie 'n volledig voorsiening gemaak het met die energie-eise van die verkillingstelselsnie, wat tot 40% van die elektriese energie behoeftes kan uitmaak. Die ekonomiese lewensvatbaarheid van al drie prosesse is bepaal met Monte Carlo simulasies om die risiko's wat die fluktuasies in kommoditeitspryse en finansiële indekse inhou, in berekening te bring. Hierdie is bereik deur die projeksie van die fluktuasies van hierdie parameters aan die hand van 'n historiese databasis wat omskep is in 'n waarskynlikheid verspreiding funksie. Die gevolge is gemeet in terme van die netto huidige waarde (NHW) en Interne Opbrengskoers (IOK) vir 'n groot aantal simulasies. Die resultate van hierdie veranderlikes is saamgevoeg en daarna, deur die toets van die waarskynlikheid dat die NPV <0, en dat die IRR laer as die rentekoers van 12,64% daal, beoordeel. Die belegging is dus nie realiseerbaar geag as die waarskynlikhede meer as 20% was nie. Beide biologieseprosesse kan as winsgewend beskou word in terme van bostaande norme. Die waarskynlikhede was 13% vir die SSF en 14% vir die SHF. Aangesien die NHW van die GFT-proses onder 0 met ‘n waarskynlikheid van 78% is, is die opsie as nie-winsgewend beskou. Gegewe dat die GFT-proses die hoogste energie-doeltreffendheid het, is die resultaat hoofsaaklik omdat die kapitale belegging van 140,000 USD / MWHHV-biomassa energie-inset te groot is, om enige terugbetaling te verwag. Die omgewingsvoetspoor van elke proses is bepaal deur die gebruik van Lewens Siklus Analises (“Life Cycle Assessments”) (LCAS). LCAS is 'n wetenskaplike metodeom die effek van ‘n produk of proses binne bepaalde grense beide kwalitatief en kwantitatief te bepaal. Die impakte word beoordeel vir 'n verskeidenheid van omgewingskwessies, soos aardverwarming, versuring, eutrofikasie en menslike toksisiteit. Voorts, indien die projek onder die saak verskeie afvoer produkte het, word die impakte tussen die afvoer produkte verdeel, in verhouding tot die inkomste wat elkeen genereer. Die impak was met of relatief tot die vloei van roumateriaal (600MW van bagasse), of tot die funksionele eenheid, wat die hoeveelheid van brandstof is om 'n standaard voertuig aan te dryf oor 'n afstand van 1 kilometer. In al die gevalle het die GFT scenario die laagste belading op die omgewing geplaas. Hierdie is te verwagte omdat die GFT proses die hoogste energie-doeltreffendheid het en die proses self nie enige addisionele chemikalieë vereis nie. Relatief tot die roumateriaal vloei, het die SSF die grootse belading op die omgewing geplaas as gevolg van die intensiewe gebruik van verwerkte chemikalieë. Relatief tot die funksionele eenheid, was die SHF die swakste as gevolg van sy lae energie-doeltreffendheid.

Biofuels

Sugarcane bagasse

Pinch point technology

Life Cycle Assessment (LCA)

Dissertations -- Process engineering

Theses -- Process engineering

Alcohol fuel industry

Biomass energy