974 resultados para Bio Power Plant
Resumo:
Several ester derivatives of rosmarinic acid (rosmarinates) were synthesised, characterised (1D and 2D NMR, UV and FTIR spectroscopy) and tested for their potential use as antioxidants derived from a renewable natural resource. The intrinsic free radical scavenging activity of the rosmarinates was assessed, initially using a modified DPPH (2, 2-diphenyl-1-picrylhydrazyl radical) method, and found to be higher than that of commercial synthetic hindered phenol antioxidants Irganox 1076 and Irganox 1010. The thermal stabilising performance of the rosmarinates in polyethylene (PE) and polypropylene (PP) was subsequently examined and compared to that of samples prepared similarly but in the presence of Irganox 1076 (in PE) and Irganox 1010 (in PP) which are typically used for polyolefin stabilisation in industrial practice. The melt stability and the long-term thermo-oxidative stability (LTTS) of processed polymers containing the antioxidants were assessed by measuring the melt flow index (MFI), melt viscosity, oxidation induction time (OIT) and long-term (accelerated) thermal ageing performance. The results show that both the melt and the thermo-oxidative stabilisation afforded by the rosmarinates, and in particular the stearyl derivative, in both PE and PP, are superior to those of Irganox 1076 and Irganox 1010, hence their potential as effective sustainable bio-based antioxidants for polymers. The rosmarinic acid used for the synthesis of the rosmarinates esters in this study was obtained from commercial rosemary extracts (AquaROX80). Furthermore, a large number of different strains of UK-grown rosemary plants (Rosmarinum officinalis) were also extracted and analysed in order to examine their antioxidant content. It was found that the carnosic and the rosmarinic acids, and to a much lesser extent the carnosol, constituted the main antioxidant components of the UK-plants, with the two acids being present at a ratio of 3:1, respectively.
Resumo:
13/01/15 Funded by •Faculty of Management at Radboud University Nijmegen
Resumo:
13/01/15 Funded by •Faculty of Management at Radboud University Nijmegen
Resumo:
Carbon Capture and Storage (CCS) technologies provide a means to significantly reduce carbon emissions from the existing fleet of fossil-fired plants, and hence can facilitate a gradual transition from conventional to more sustainable sources of electric power. This is especially relevant for coal plants that have a CO2 emission rate that is roughly two times higher than that of natural gas plants. Of the different kinds of CCS technology available, post-combustion amine based CCS is the best developed and hence more suitable for retrofitting an existing coal plant. The high costs from operating CCS could be reduced by enabling flexible operation through amine storage or allowing partial capture of CO2 during high electricity prices. This flexibility is also found to improve the power plant’s ramp capability, enabling it to offset the intermittency of renewable power sources. This thesis proposes a solution to problems associated with two promising technologies for decarbonizing the electric power system: the high costs of the energy penalty of CCS, and the intermittency and non-dispatchability of wind power. It explores the economic and technical feasibility of a hybrid system consisting of a coal plant retrofitted with a post-combustion-amine based CCS system equipped with the option to perform partial capture or amine storage, and a co-located wind farm. A techno-economic assessment of the performance of the hybrid system is carried out both from the perspective of the stakeholders (utility owners, investors, etc.) as well as that of the power system operator.
In order to perform the assessment from the perspective of the facility owners (e.g., electric power utilities, independent power producers), an optimal design and operating strategy of the hybrid system is determined for both the amine storage and partial capture configurations. A linear optimization model is developed to determine the optimal component sizes for the hybrid system and capture rates while meeting constraints on annual average emission targets of CO2, and variability of the combined power output. Results indicate that there are economic benefits of flexible operation relative to conventional CCS, and demonstrate that the hybrid system could operate as an energy storage system: providing an effective pathway for wind power integration as well as a mechanism to mute the variability of intermittent wind power.
In order to assess the performance of the hybrid system from the perspective of the system operator, a modified Unit Commitment/ Economic Dispatch model is built to consider and represent the techno-economic aspects of operation of the hybrid system within a power grid. The hybrid system is found to be effective in helping the power system meet an average CO2 emissions limit equivalent to the CO2 emission rate of a state-of-the-art natural gas plant, and to reduce power system operation costs and number of instances and magnitude of energy and reserve scarcity.
Resumo:
In Germany the upscaling algorithm is currently the standard approach for evaluating the PV power produced in a region. This method involves spatially interpolating the normalized power of a set of reference PV plants to estimate the power production by another set of unknown plants. As little information on the performances of this method could be found in the literature, the first goal of this thesis is to conduct an analysis of the uncertainty associated to this method. It was found that this method can lead to large errors when the set of reference plants has different characteristics or weather conditions than the set of unknown plants and when the set of reference plants is small. Based on these preliminary findings, an alternative method is proposed for calculating the aggregate power production of a set of PV plants. A probabilistic approach has been chosen by which a power production is calculated at each PV plant from corresponding weather data. The probabilistic approach consists of evaluating the power for each frequently occurring value of the parameters and estimating the most probable value by averaging these power values weighted by their frequency of occurrence. Most frequent parameter sets (e.g. module azimuth and tilt angle) and their frequency of occurrence have been assessed on the basis of a statistical analysis of parameters of approx. 35 000 PV plants. It has been found that the plant parameters are statistically dependent on the size and location of the PV plants. Accordingly, separate statistical values have been assessed for 14 classes of nominal capacity and 95 regions in Germany (two-digit zip-code areas). The performances of the upscaling and probabilistic approaches have been compared on the basis of 15 min power measurements from 715 PV plants provided by the German distribution system operator LEW Verteilnetz. It was found that the error of the probabilistic method is smaller than that of the upscaling method when the number of reference plants is sufficiently large (>100 reference plants in the case study considered in this chapter). When the number of reference plants is limited (<50 reference plants for the considered case study), it was found that the proposed approach provides a noticeable gain in accuracy with respect to the upscaling method.
Resumo:
Inom nära framtid kan det vara ekonomiskt lönsamt att investera i träbaserad biomassa-användning inom stålproduktion. En förutsättning är att biomassans bränsle-egenskaper förbättras genom en sorts förkolning, närmare sagt långsam pyrolysering. Som biomassakälla duger skogsrester och dylikt. Nyttan med att använda biomassa är att man reducerar fossila CO2-utsläpp och på så vis minskar på den globala uppvärmningen; detta kräver dock att återplantering görs för att fånga de frigjorda CO2-utsläppen som härstammar från biomassans skörd, transport, processering och förbränning. En investering i en pyrolyseringsanläggning integrerad i ett stålverk kan vara lönsam ifall utsläppskatten är över 20 € per ton CO2 då biomassakostnaden är 40 € per ton torr substans. Detta är dock inte fallet i dagens läge och i Finland är dessa avgifter beroende av politiska beslut på Europeisk nivå. Det kunde dock vara av politiskt intresse att stödja biomassa-användningen inom stålindustrin eftersom detta skulle skapa nya arbetsplatser såväl inom själva stålindustrin som inom skogsindustrin och möjligen även inom kemi-industrin, beroende på hur de resulterande pyrolysprodukterna (träkol, gas och bio-oljor) utnyttjas. Med tanke på att närmare en femtedel av alla CO2-utsläpp härstammande från industrin kommer från stålindustrin så är det uppenbart att mera miljövänligare alternativ kommer att krävas i framtiden. Lähitulevaisuudessa voi olla taloudellisesti kannattavaa käyttää puuperäistä biomassaa teräksen valmistuksessa. Tämä vaatii kuitenkin sen, että biomassa läpikäy eräänlaisen hiillostuksen, eli pyrolyysin, ja tässä tapauksessa, hitaan pyrolyysin. Biomassalähteeksi kelpaavat esimerkiksi hakkuujätteet ja muu puujäte. Hyöty biomassankäytöstä syntyy siitä, kun se osittain korvaa perinteisesti käytettyjä fossiilisia polttoaineita, jolloin fossiiliset hiilidioksidipäästöt vähenevät ja tällöin myös vaikutus ilmaston lämpenemiseen vähenee. Edellytyksenä on tietysti se, että uusia puita ja kasveja istutetaan, jotta biomassan keräyksestä, kuljetuksesta, käsittelystä sekä poltosta vapautunut hiilidioksidi saadaan jälleen talteen. Arvion mukaan pyrolyysiyksikön integroiminen terästehtaaseen tulee taloudellisesti kannattavaksi, kun hiilidioksidivero nousee yli 20 € per tonni, kun biomassan hinnaksi on arvioitu 40 € per tonni kuiva-ainesta. Kyseinen hintataso ei ole tällä hetkellä voimassa ja Suomen tilanne tässä asiassa on vahvasti kytköksissä Euroopan tasolla tehtäviin päätöksiin. Aihe voisi kuitenkin olla poliittisella tasolla kiinnostava ja taloudellisen tuen arvoista, koska biomassan käyttö loisi lisää työpaikkoja niin terästeollisuudessa kuin puuteollisuudessakin ja mahdollisesti myös kemianteollisuudessa, riippuen siitä miten erinäisiä pyrolyysituotteita (puuhiili, kaasu ja bio-öljy) hyödynnettäisiin. Ottaen huomioon, että terästeollisuus maailmanlaajuisesti vastaa noin viidesosasta kaikista teollisuudesta peräisin olevista hiilidioksidipäästöistä on päivänselvää, että ympäristöystävällisemmille vaihtoehdoille on tarvetta tulevaisuudessa.
Resumo:
Of late, decrease in mineral oil supplies has stimulated research on use of biomass as an alternative energy source. Climate change has brought problems such as increased drought and erratic rains. This, together with a rise in land degeneration problems with concomitant loss in soil fertility has inspired the scientific world to look for alternative bio-energy species. Euphorbia tirucalli L., a tree with C3/CAM metabolism in leaves/stem, can be cultivated on marginal, arid land and could be a good alternative source of biofuel. We analyzed a broad variety of E. tirucalli plants collected from different countries for their genetic diversity using AFLP. Physiological responses to induced drought stress were determined in a number of genotypes by monitoring growth parameters and influence on photosynthesis. For future breeding of economically interesting genotypes, rubber content and biogas production were quantified. Cluster analysis shows that the studied genotypes are divided into two groups, African and mostly non-African genotypes. Different genotypes respond significantly different to various levels of water. Malate measurement indicates that there is induction of CAM in leaves following drought stress. Rubber content varies strongly between genotypes. An investigation of the biogas production capacities of six E. tirucalli genotypes reveals biogas yields higher than from rapeseed but lower than maize silage.
Resumo:
Tese submetida à Universidade de Lisboa, Instituto Superior Técnico e aprovada em provas públicas para a obtenção do Grau de Doutor em Sistemas Sustentáveis de Energia.
Resumo:
High-throughput techniques are necessary to efficiently screen potential lignocellulosic feedstocks for the production of renewable fuels, chemicals, and bio-based materials, thereby reducing experimental time and expense while supplanting tedious, destructive methods. The ratio of lignin syringyl (S) to guaiacyl (G) monomers has been routinely quantified as a way to probe biomass recalcitrance. Mid-infrared and Raman spectroscopy have been demonstrated to produce robust partial least squares models for the prediction of lignin S/G ratios in a diverse group of Acacia and eucalypt trees. The most accurate Raman model has now been used to predict the S/G ratio from 269 unknown Acacia and eucalypt feedstocks. This study demonstrates the application of a partial least squares model composed of Raman spectral data and lignin S/G ratios measured using pyrolysis/molecular beam mass spectrometry (pyMBMS) for the prediction of S/G ratios in an unknown data set. The predicted S/G ratios calculated by the model were averaged according to plant species, and the means were not found to differ from the pyMBMS ratios when evaluating the mean values of each method within the 95 % confidence interval. Pairwise comparisons within each data set were employed to assess statistical differences between each biomass species. While some pairwise appraisals failed to differentiate between species, Acacias, in both data sets, clearly display significant differences in their S/G composition which distinguish them from eucalypts. This research shows the power of using Raman spectroscopy to supplant tedious, destructive methods for the evaluation of the lignin S/G ratio of diverse plant biomass materials. © 2015, The Author(s).
Resumo:
International audience
Resumo:
International audience
Resumo:
The present study aimed to characterize the extracts prepared from Pimpinella anisum L. (anise) and Coriandrum sativum L. (coriander) (Apiaceae plants) seeds in terms of phenolic composition, and to correlate the obtained profiles with the antioxidant activity. Anise gave the highest abundance in phenolic compounds (42.09± 0.11 mg/g extract), mainly flavonoids (28.08±0.17 mg/g extract) and phenolic acids (14.01±0.06 mg/g extract), and also the highest antioxidant potential, measured by the ability to inhibit lipid peroxidation and β-carotene bleaching, the reducing power and the free radical scavenging activity. Apigenin and luteolin derivatives, as also caffeoylquinic acid derivatives seem to be directly related with the higher in vitro antioxidant potential of the anise extract. In contrast, the lower antioxidant potential of coriander seems to be due to its lower abundance in phenolic compounds (2.24±0.01 mg/g extract). Further studies are necessary to evaluate the in vivo antioxidant potential of the tested extracts, but the in vitro experiments already performed highlight them as potential health promoters.
Resumo:
The only method used to date to measure dissolved nitrate concentration (NITRATE) with sensors mounted on profiling floats is based on the absorption of light at ultraviolet wavelengths by nitrate ion (Johnson and Coletti, 2002; Johnson et al., 2010; 2013; D’Ortenzio et al., 2012). Nitrate has a modest UV absorption band with a peak near 210 nm, which overlaps with the stronger absorption band of bromide, which has a peak near 200 nm. In addition, there is a much weaker absorption due to dissolved organic matter and light scattering by particles (Ogura and Hanya, 1966). The UV spectrum thus consists of three components, bromide, nitrate and a background due to organics and particles. The background also includes thermal effects on the instrument and slow drift. All of these latter effects (organics, particles, thermal effects and drift) tend to be smooth spectra that combine to form an absorption spectrum that is linear in wavelength over relatively short wavelength spans. If the light absorption spectrum is measured in the wavelength range around 217 to 240 nm (the exact range is a bit of a decision by the operator), then the nitrate concentration can be determined. Two different instruments based on the same optical principles are in use for this purpose. The In Situ Ultraviolet Spectrophotometer (ISUS) built at MBARI or at Satlantic has been mounted inside the pressure hull of a Teledyne/Webb Research APEX and NKE Provor profiling floats and the optics penetrate through the upper end cap into the water. The Satlantic Submersible Ultraviolet Nitrate Analyzer (SUNA) is placed on the outside of APEX, Provor, and Navis profiling floats in its own pressure housing and is connected to the float through an underwater cable that provides power and communications. Power, communications between the float controller and the sensor, and data processing requirements are essentially the same for both ISUS and SUNA. There are several possible algorithms that can be used for the deconvolution of nitrate concentration from the observed UV absorption spectrum (Johnson and Coletti, 2002; Arai et al., 2008; Sakamoto et al., 2009; Zielinski et al., 2011). In addition, the default algorithm that is available in Satlantic sensors is a proprietary approach, but this is not generally used on profiling floats. There are some tradeoffs in every approach. To date almost all nitrate sensors on profiling floats have used the Temperature Compensated Salinity Subtracted (TCSS) algorithm developed by Sakamoto et al. (2009), and this document focuses on that method. It is likely that there will be further algorithm development and it is necessary that the data systems clearly identify the algorithm that is used. It is also desirable that the data system allow for recalculation of prior data sets using new algorithms. To accomplish this, the float must report not just the computed nitrate, but the observed light intensity. Then, the rule to obtain only one NITRATE parameter is, if the spectrum is present then, the NITRATE should be recalculated from the spectrum while the computation of nitrate concentration can also generate useful diagnostics of data quality.
Resumo:
The demand for alternative sources of energy drives the technological development so that many fuels and energy conversion processes before judged as inadequate or even non-viable, are now competing fuels and so-called traditional processes. Thus, biomass plays an important role and is considered one of the sources of renewable energy most important of our planet. Biomass accounts for 29.2% of all renewable energy sources. The share of biomass energy from Brazil in the OIE is 13.6%, well above the world average of participation. Various types of pyrolysis processes have been studied in recent years, highlighting the process of fast pyrolysis of biomass to obtain bio-oil. The continuous fast pyrolysis, the most investigated and improved are the fluidized bed and ablative, but is being studied and developed other types in order to obtain Bio-oil a better quality, higher productivity, lower energy consumption, increased stability and process reliability and lower production cost. The stability of the product bio-oil is fundamental to designing consumer devices such as burners, engines and turbines. This study was motivated to produce Bio-oil, through the conversion of plant biomass or the use of its industrial and agricultural waste, presenting an alternative proposal for thermochemical pyrolysis process, taking advantage of particle dynamics in the rotating bed that favors the right gas-solid contact and heat transfer and mass. The pyrolyser designed to operate in a continuous process, a feeder containing two stages, a divisive system of biomass integrated with a tab of coal fines and a system of condensing steam pyrolytic. The prototype has been tested with sawdust, using a complete experimental design on two levels to investigate the sensitivity of factors: the process temperature, gas flow drag and spin speed compared to the mass yield of bio-oil. The best result was obtained in the condition of 570 oC, 25 Hz and 200 cm3/min, temperature being the parameter of greatest significance. The mass balance of the elementary stages presented in the order of 20% and 37% liquid pyrolytic carbon. We determined the properties of liquid and solid products of pyrolysis as density, viscosity, pH, PCI, and the composition characterized by chemical analysis, revealing the composition and properties of a Bio-oil.
Resumo:
Le fer est un micronutriment important pour la croissance et le développement des plantes. Il agit comme cofacteur pour plusieurs enzymes et il est important pour des processus tels que la photosynthèse et la respiration. Souvent, le Fe dans le sol n’est pas bio-disponible pour la plante. Les plantes ont développé des stratégies pour solubiliser le Fe du sol pour le rendre disponible et assimilable pour elles. Il y a deux stratégies, la première est caractéristique des dicotylédones et la seconde est caractéristique des monocotylédones. Le modèle utilisé dans cette étude est une culture cellulaire de Solanum tuberosum. Une partie de la recherche effectuée a permis la mesure d’activité et d’expression relative de certaines enzymes impliquées dans le métabolisme énergétique et la fourniture de précurseurs pour la synthèse d’ADN : la Nucléoside diphosphate kinase, la Ribonucléotide reductase, la Glucose 6-phosphate déshydrogénase et la 6-Phosphogluconate déshydrogénase dans les cellules en présence ou en absence de Fe. Chez certains organismes, la déficience en Fe est associée à une perte de croissance qui est souvent liée à une diminution de la synthèse d’ADN. Chez les cultures de cellules de S. tuberosum, les résultats indiquent que la différence de biomasse observée entre les traitements n’est pas due à une variation de l’activité ou l’expression relative d’une de ces enzymes. En effet, aucune variation significative n’a été détectée entre les traitements (+/- Fe) pour l’activité ni l’expression relative de ces enzymes. Une autre partie de la recherche a permis d’évaluer l’activité des voies métaboliques impliquées dans la stratégie 1 utilisée par S. tuberosum. Cette stratégie consomme des métabolites énergétiques: de l’ATP pour solubiliser le Fe et du pouvoir réducteur (NAD(P)H), pour réduire le Fe3+ en Fe2+. Des études de flux métaboliques ont été faites afin d’étudier les remaniements du métabolisme carboné en déficience en Fe chez S. tuberosum. Ces études ont démontré une baisse du régime dans les différentes voies du métabolisme énergétique dans les cellules déficientes en Fe, notamment dans le flux glycolytique et le flux de C à travers la phosphoenolpyruvate carboxylase. En déficience de Fe il y aurait donc une dépression du métabolisme chez S. tuberosum qui permettrait à la cellule de ralentir son métabolisme pour maintenir sa vitalité. En plus des flux, les niveaux de pyridines nucléotides ont été mesurés puisque ceux-ci servent à réduire le Fe dans la stratégie 1. Les résultats démontrent des niveaux élevés des formes réduites de ces métabolites en déficience de Fe. L’ensemble des résultats obtenus indiquent qu’en déficience de Fe, il y a une baisse du métabolisme permettant à la cellule de s’adapter et survivre au stress.
