32 resultados para nano-KH
em Doria (National Library of Finland DSpace Services) - National Library of Finland, Finland
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Referaatti kongressiesitelmästä.
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Hydrogen sulfide is toxic and hazardous pollutant. It has been under great interest for past few years because of all the time tighten environmental regulations and increased interest of mining. Hydrogen sulfide gas originates from mining and wastewater treatment systems have caused death in two cases. It also causes acid rains and corrosion for wastewater pipelines. The aim of this master thesis was to study if chemically modified cellulose nanocrystals could be used as adsorbents to purify hydrogen sulfide out from water and what are the adsorption capacities of these adsorbents. The effects of pH and backgrounds on adsorption capacities of different adsorbents are tested. In theoretical section hydrogen sulfide, its properties and different purification methods are presented. Also analytical detection methods for hydrogen sulfide are presented. Cellulose nano/microcrystals, properties, application and different modification methods are discussed and finally theory of adsorption and modeling of adsorption is shortly discussed. In experimental section different cellulose nanocrystals based adsorbents are prepared and tested at different hydrogen sulfide concentrations and in different conditions. Result of experimental section was that the highest adsorption capacity at one component adsorption had wet MFC/CaCO3. At different pH the adsorption capacities of adsorbents changed quite dramatically. Also change of hydrogen sulfide solution background did have effect on adsorption capacities. Although, when tested adsorbents’ adsorption capacities are compared to those find in literatures, it seems that more development of MFC based adsorbents is needed.
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13 x 20 cm
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20 x 29 cm
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20 x 29 cm
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20 x 29 cm
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20 x 29 cm
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17 x 25 cm
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In recent decades, industrial activity growth and increasing water usage worldwide have led to the release of various pollutants, such as toxic heavy metals and nutrients, into the aquatic environment. Modified nanocellulose and microcellulose-based adsorption materials have the potential to remove these contaminants from aqueous solutions. The present research consisted of the preparation of five different nano/microcellulose-based adsorbents, their characterization, the study of adsorption kinetics and isotherms, the determination of adsorption mechanisms, and an evaluation of adsorbents’ regeneration properties. The same well known reactions and modification methods that were used for modifying conventional cellulose also worked for microfibrillated cellulose (MFC). The use of succinic anhydride modified mercerized nanocellulose, and aminosilane and hydroxyapatite modified nanostructured MFC for the removal of heavy metals from aqueous solutions exhibited promising results. Aminosilane, epoxy and hydroxyapatite modified MFC could be used as a promising alternative for H2S removal from aqueous solutions. In addition, new knowledge about the adsorption properties of carbonated hydroxyapatite modified MFC as multifunctional adsorbent for the removal of both cations and anions ions from water was obtained. The maghemite nanoparticles (Fe3O4) modified MFC was found to be a highly promising adsorbent for the removal of As(V) from aqueous solutions due to its magnetic properties, high surface area, and high adsorption capacity . The maximum removal efficiencies of each adsorbent were studied in batch mode. The results of adsorption kinetics indicated very fast removal rates for all the studied pollutants. Modeling of adsorption isotherms and adsorption kinetics using various theoretical models provided information about the adsorbent’s surface properties and the adsorption mechanisms. This knowledge is important for instance, in designing water treatment units/plants. Furthermore, the correspondence between the theory behind the model and properties of the adsorbent as well as adsorption mechanisms were also discussed. On the whole, both the experimental results and theoretical considerations supported the potential applicability of the studied nano/microcellulose-based adsorbents in water treatment applications.
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The need for industries to remain competitive in the welding business, has created necessity to develop innovative processes that can exceed customer’s demand. Significant development in improving weld efficiency, during the past decades, still have their drawbacks, specifically in the weld strength properties. The recent innovative technologies have created smallest possible solid material known as nanomaterial and their introduction in welding production has improved the weld strength properties and to overcome unstable microstructures in the weld. This study utilizes a qualitative research method, to elaborate the methods of introducing nanomaterial to the weldments and the characteristic of the welds produced by different welding processes. The study mainly focuses on changes in the microstructural formation and strength properties on the welded joint and also discusses those factors influencing such improvements, due to the addition of nanomaterials. The effect of nanomaterial addition in welding process modifies the physics of joining region, thereby, resulting in significant improvement in the strength properties, with stable microstructure in the weld. The addition of nanomaterials in the welding processes are, through coating on base metal, addition in filler metal and utilizing nanostructured base metal. However, due to its insignificant size, the addition of nanomaterials directly to the weld, would poses complications. The factors having major influence on the joint integrity are dispersion of nanomaterials, characteristics of the nanomaterials, quantity of nanomaterials and selection of nanomaterials. The addition of nanomaterials does not affect the fundamental properties and characteristics of base metals and the filler metal. However, in some cases, the addition of nanomaterials lead to the deterioration of the joint properties by unstable microstructural formations. Still research are ongoing to achieve high joint integrity, in various materials through different welding processes and also on other factors that influence the joint strength.
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Arabic cookery book, dated tentatively to 12th or 13th century by the editors (Öhrnberg & Mroueh) on the basis of the script. Aro suggests (grounds not made explicit) that the manuscript came to the library from the collections of G. A. Wallin, but Öhrnberg & Mroueh simply describe it as being of unknown provenance.
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Artikkelissa kerrotaan Ammattien edistämislaitoksen (AEL) KH-NET -projektista, jonka koulutuksellisena tavoitteena oli kiinteistönhoitajan ammattitutkinnon suorittaminen tietokonepainotteisella koulutuksella
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The goal of the thesis was to study fundamental structural and optical properties of InAs islands and In(Ga)As quantum rings. The research was carried out at the Department of Micro and Nanosciences of Helsinki University of Technology. A good surface quality can be essential for the potential applications in optoelectronic devices. For such device applications it is usually necessary to control size, density and arrangement of the islands. In order to study the dependence of the structural properties of the islands and the quantum rings on growth conditions, atomic force microscope was used. Obtained results reveal that the size and the density of the In(Ga)As quantum rings strongly depend on the growth temperature, the annealing time and the thickness of the partial capping layer. From obtained results it is possible to conclude that to get round shape islands and high density one has to use growth temperature of 500 ̊C. In the case of formation of In(Ga)As quantum rings the effect of mobility anisotropy is observed that so the shape of the rings is not symmetric. To exclude this effect it is preferable to use a higher annealing temperature of 570 ̊C. Optical properties were characterized by PL spectroscopy. PL emission was observed from buried InAs quantum dots and In(Ga)As quantum rings grown with different annealing time and temperature and covered with a various thickness of the partial capping layer.
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The purpose of this study was to evaluate the competence of nurse teachers, who are teaching nursing at polytechnic level in Finland. The following research questions were framed for the study: What kind of evaluation nurse teachers of their nursing competence, teaching skills, evaluation skills, personality factors and relationships with students. The data were collected by a questionnaire (A Tool for Evaluation of Requirements of Nurse Teacher, ERNT). The questionnaire regarded background factors and 20 statements divided in five categories. The five competence categories were: Nursing competence, Teaching skills, Evaluation skills, Personality factors and Relationships with students. The evaluation scale was a 5-point Likert-scale. The respondents were nurse teachers, teacher for emergency nursing, public health nurse and midwifery teachers from all polytechnics in Finland. Response rate to the questionnaire was 46 % (n=342). The data were analysed by using descriptive statistics. Mean scores and standard deviations for each item were calculated. Category scores were obtained by summing scores of all items within a category. The results of this study showed that nurse teacher evaluated their competence on a high level. Concerning the category Relationships with students (mean 4.61, standard deviation 0.71) they got the highest averages. The lowest scores were gained regarding the requirements associated with teaching skills (mean 4.30, standard deviation 0.82). Concerning a single question, the best score was achieved in ability to take students seriously (mean 4.66, standard deviation 0.71) and the lowest score was achieved for their guidance of students to advance in decision making (mean 4.15, Std 0.69). The nurse teachers evaluated themselves with relatively high scores concerning competence categories as a hole. In future it is important to study nurse teacher competence with students or authorities of health service.
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Tämän diplomityön tavoitteena oli etsiä mahdollisimman hyvin ionista nestettä kestävä yleisesti kaupallisesti saatavilla oleva nano- tai ultrasuodatusmembraani. Kirjallisuusosassa on perehdytty yleisesti membraanitekniikan ja ionisten nesteiden historiaan sekä niiden ominaisuuksiin ja käyttösovelluksiin. Membraaniprosesseista on lyhyesti käyty läpi mikro-, ultra- ja nanosuodatus sekä käänteisosmoosi ja pervaporaatio. Kokeellisessa osassa tutkittiin neljäntoista kaupallisesti saatavilla olevien nano- ja ultrasuodatusmembraanien kestävyyttä ionisessa nesteessä. Tutkimuksessa käytettyjen membraanien vesi- ja malliaineliuosvuon arvoja sekä retentioita vertailtiin ennen ja jälkeen ioniselle nesteelle altistusta. Tulokset osoittivat, että polyamidista, polyeetterisulfonista ja sulfonoidusta polyeetterisulfonista valmistettujen membraanien suodatusominaisuudet muuttuivat niiden altistuessa ioniselle nesteelle. Näiden membraanien permeabiliteetit ja retentiot laskivat viikon altistuksen jälkeen merkittävästi. Erityisesti liuottimia kestäviksi suunnitellut membraanit säilyttivät erotusominaisuutensa paremmin.
