[pt] ESTUDO EXPERIMENTAL DE SOLOS REFORÇADOS COM RESÍDUOS DE POLITEREFTALATO DE ETILENO (PET) / [en] EXPERIMENTAL STUDY OF SOILS REINFORCED WITH CRUSHED POLYETHYLENE TEREPHTHALATE (PET) RESIDUE

NATHALIA DOS SANTOS LOPES LOUZADA

29 October 2015

[pt] O presente estudo apresenta o comportamento dos solos reforçados com PET em pó e triturado, através de ensaios de laboratório. Foram utilizados três solos: um solo coluvionar, uma areia limpa e mal graduada e uma bentonita. Caracterização física, química e ensaios mecânicos (triaxiais CIU e cisalhamento direto) foram realizadas para cada material e misturas. O ensaio triaxial foi realizado em amostras de solo argiloso compactado com porcentagens de pó de PET de 0, 10, 20 e 30 por cento de PET triturado de 3,0 e 5,0 por cento, por seco peso de solo. Os ensaios triaxiais, em amostras de areia foram feitas a uma densidade relativa de 50 por cento e 10 por cento de teor de umidade, e com 0, 10 e 20 por cento de pó de PET, em relação ao peso seco do solo. Os ensaios de cisalhamento direto com bentonita foram feitos com porcentagens de 0 e 30 por cento de pó de PET e 3,0 e 5,0 por cento de PET triturado, por peso seco de solo. Os resultados mostraram que o teor de PET e nível de confinamento têm influência sobre o comportamento mecânico final das misturas. Com ambos os resíduos de PET, as misturas apresentam um comportamento satisfatório, aumentando ou mantendo os parâmetros de resistência ao cisalhamento semelhantes ao solo puro. Assim, para as misturas argilosos, a mistura com 30 por cento de pó de PET e a com 5 por cento de PET triturado são mais eficazes, uma vez que nelas observou-se maior melhora nos parâmetros de resistência. Para misturas de areia a inclusão PET é mais eficaz com 10 por cento de pó PET em tensões confinantes menores e umidade ótima de 10 por cento. Para misturas bentonita, a inserção de PET é mais eficaz para o PET triturado na porcentagem de 5 por cento. Portanto, o uso de resíduos de PET para o reforço do solo poderia minimizar os problemas atuais disposição do resíduo, contribuir com a redução do consumo de recursos naturais e dar um uso nobre para este material. / [en] This study presents the behavior of soils reinforced with crushed PET (Polyethylene Terephthalate) residue through experimental study. Three soils were used: a coluvionar soil, a clean and poorly graduated sand and a bentonite. Physical characterization, chemical and mechanical tests (isotropically consolidated-drained triaxial and direct shear) were performed for each material and mixtures. The triaxial test was performed on samples of clayey soil compacted within the maximum dry density and optimum moisture content with ratios of 0, 10, 20 and 30 per cent of fine crushed PET and 3,0 and 5,0 per cent of PET flakes, by dry weight of soil. The triaxial tests on sand samples were made to a relative density of 50 percent and 10 per cent of water content, and with 0, 10 and 20 percent fine crushed PET, by dry weight of soil. The direct shear tests with bentonite were made with ratios of 0 and 30 percent of fine crushed PET and 3,0 and 5,0 percent of PET flakes, by dry weight of soil. The results have shown that the PET content and level of confining stress have influence on the final mechanical behavior of the mixtures. With both residue of PET, the mixtures present a satisfactory behavior, increasing or maintaining the shear strength parameters similar to the pure soil. Thus, for the clayey mixtures, the fine crushed PET content of 30 percent and the PET flakes content of 5 percent are more effective, once they increase the strength parameters. For sandy mixtures the PET inclusions is more effective with 10 percent of fine crushed PET at lower confining stresses and the optimum content is 10 percent. For bentonite mixtures the PET inclusions is more effective for PET flakes and the optimum content is 5. Therefore, the use of PET waste for soil reinforcement could minimize the current problems of waste disposal, contribute with the reduction of consumption of natural resources and give a noble use for this material.

[pt] SOLO REFORCADO

[pt] PO DE PET

[pt] PET TRITURADO

[pt] CISALHAMENTO DIRETO

[pt] ENSAIO TRIAXIAL

[pt] POLIETILENO TEREFTALATO

[en] REINFORCED SOIL

[en] TRIAXIAL TESTS

[en] POLYETHYLENE TEREPHTHALATE

Innovative Method for Rapid Determination of Shelf-Life in Packaged Food and Beverages

Anbuhkani Muniandy (5930762)

01 December 2022

<p>Temperature is the common accelerant that is used for shelf-life determination of shelf-stable food because it is easy to use and there are models such as Q₁₀and Arrhenius, which are available for shelf-life prediction. The accelerated shelf-life test (ASLT) still requires months of analysis time as it only uses temperature as the accelerant. Oxygen pressure as an accelerant has not been given much attention even though many studies have shown the negative impact of oxygen on the shelf-life of food. An effective analysis method with multiple accelerants has the potential for the development of a rapid shelf-life determination method. Hence, this research focused on the invention of a rapid method, named the Ultra-Accelerated Shelf-Life Test (UASLT) that combines oxygen pressure and temperature as accelerants and the development of shelf-life prediction model(s). The study hypothesized that the application of elevated oxygen pressure and elevated temperature (40C) increases the amount of oxygen diffusing into packaged food which leads to rapid degradation of nutrients that further reduces the overall shelf-life analysis time compared to the ASLT method. A custom-made high-pressure chamber with a 100% oxygen environment at 40C was designed and developed as part of the UASLT method. The impact of the application of oxygen pressure on oxygen diffusivity in polymeric food packaging materials was investigated on three packages with different oxygen permeability properties. The application of oxygen pressure significantly increased the rate of oxygen transfer and the oxygen diffusivity values for all packaging materials compared to the counterparts that were not exposed to the pressure. A shelf-stable model food fortified with vitamins A, B1, C and D3 was developed to investigate the effectiveness of the UASLT method in degrading the quality indicators in the model foods in a polyethylene terephthalate (PET) container. PET was chosen as it was the most permeable to oxygen. Model food was also subjected to ASLT conditions at the same temperature without additional pressure and at room temperature (control). A degradation of 27.1 ± 1.9%, 13.9± 2.1%, 35.8 ± 1.0%, and 35.4 ± 0.7% were seen in vitamins A, B1, C and D3, respectively, in just 50 days. Slower degradation was observed with samples kept under the ASLT conditions for 105 days and reached a degradation of 24.0 ± 2.0%, 4.9 ± 6.1%, 32.0 ± 3.1% and 25.1 ± 1.5% for vitamin A, B1, C and D3, respectively. The control samples that were studied for 210 days showed 14.9 ± 5.0%, 2.0 ± 2.2%, 13.8 ± 2.2% and 10.6% ± 0.8% degradation in vitamins A, B1, C and D3, respectively. The increase in the dE values due to browning in samples kept at the UASLT, ASLT and control conditions were 11.67 ± 0.09, 7.49 ± 0.19 and 2.51 ± 0.11, respectively. The degradation of vitamins A, C, D3 was analyzed using the 1st order kinetic and the rate constant,    (day^-1) was used to develop four prediction models. Vitamin B1 values were omitted from the kinetic analysis due to insufficient degradation. Two temperature-oxygen diffusion models were developed by correlating oxygen diffusivity and   . Comparisons were made with the temperature-based models of    and Arrhenius. The predicted    values across the models were in the range of 0.051-0.054 day^-1,0.080-0.088 day^-1 and 0.048-0.051 day^-1, for vitamin A, C and D3, respectively. The    values estimated for vitamins A, C, and D3 were 2.16, 2.63 and 2.62, respectively. The predicted shelf-life of vitamin A, C and D3 to undergo 25% reduction was in the range of 404 to 551, 321-353 and 529-583 days across all models, respectively. The shelf-life predicted from the temperature-oxygen diffusion models was close to the temperature models indicating the potential to be paired with the UASLT method. Experimental verification is needed to analyze the errors in the prediction. The addition of oxygen pressure further reduced the shelf-life analysis time by 50% compared to ASLT. Elevated external oxygen pressure can be used as an accelerant along with elevated temperatures (40C) for rapid shelf-life testing of packaged foods. This novel approach has potential application in the food industry for faster shelf-life analysis of food.</p>

Food technology

rapid shelf-life

shelf-stable foods

inverse problems

polyethylene terephthalate (PET)

ultra-accelerated shelf-life test

Antimony and acetaldehyde migration from Nigerian and British PET bottles into water and soft drinks under typical use conditions. Concentration of migrants and some trace elements in polyethylene terephthalate and in bottled contents.

Tukur, Aminu

January 2011

Polyethylene terephthalate (PET) is an excellent material for bottling water, beverages, edible oils and other liquids because it is light, tough and transparent. PET bottles are also extensively reused for storage of drinking water, beverages and other liquids and for solar disinfection of microbiologically unsafe drinking water in the tropics. In spite of the usefulness of PET bottles earlier works have reported leaching of antimony and acetaldehyde from the bottle matrix into the liquid contents. Both antimony trioxide and acetaldehyde belongs to Group 2B (possible carcinogens) in the International Agency for Research on Cancer (IARC) carcinogen classification. Additionally acetaldehyde associated with alcoholic beverages (derived from alcoholic beverage and formed endogenously) has recently been upgraded to IARC Group 1 carcinogen (carcinogenic to humans). The research aims to assess the pattern and extent of antimony and acetaldehyde migration from British and Nigerian polyethylene terephthalate bottles into bottle contents under typical use and reuse conditions. The research compares the assessed extents of migration with the current regulations to determine whether the maximum acceptable levels of antimony and acetaldehyde are being exceeded and whether current regulations might need to be reassessed. To achieve these goals the pattern and extent of PET bottle use and reuse in Britain and Nigeria were appraised through survey. The survey revealed that new bottles with contents are typically stored prior to use for periods ranging between one and 7 days, with Nigerians storing for longer periods than British respondents. However storage of up to one year was reported. The extent of bottle reuse was high and similar for the two countries. Nevertheless Nigerian respondents reuse bottles for longer periods than British respondents. The survey findings together with relevant literature were used to design laboratory experiments that assessed the extent of antimony and acetaldehyde migration from PET bottles into water/beverages. A total of 82 brands of bottled water and soft drinks in plastic and glass bottles and in cartons were collected. A few samples from Nigeria in plastic pouches were collected. Materials used in bottling including glass and plastic bottle materials, metal and plastic bottle cap materials and plastic cap lining materials were collected. All samples were collected in supermarkets and shops in Britain and Nigeria except drinking water from taps which was collected in Britain only. Some bottles were aged for the purpose of studying the impact of bottle aging on chemical migration. Other bottles were stored with their contents to study the impact of long term storage of bottle contents on chemical migration. Energy dispersive X-ray spectrometry (EDX) and Raman spectroscopy were used to characterise PET bottle material and other materials associated with water and soft drink bottling. Antimony and other trace metals in water and soft drinks were determined using Inductively Coupled Plasma-Mass Spectrometry (ICP-MS). Antimony content of PET and other plastics was determined by microwave digestion and ICP-MS. Acetaldehyde content of water and soft drinks and PET were determined using headspace gas chromatography with flame ionisation detection (GC-FID). Accuracy and precision for determination of antimony and other trace elements in bottle materials and bottle contents were good as recoveries were around 100% and coefficients of variation were less than 15% for all analysis types. Accuracy and precision for determination of acetaldehyde in bottle materials and bottle contents were also good as recoveries were around 100% and coefficients of variation were less than 15% for all analysis types. Impact of long term storage, elevated temperatures, bottle thickness, carbonation, bottle aging and bottle size on migration of antimony and acetaldehyde were also assessed. All plastic bottle materials analysed were found to be PET. Bottle cap materials were either polyethylene or polypropylene. All plastic cap lining materials from Britain and some from Nigeria were found to be ethylene vinyl acetate/polypropylene copolymer. Plastic cap lining materials from some Nigerian soft drinks were identified as polyvinyl chloride. Glass bottle materials analysed were found to be soda-lime glass. Metal bottle caps were identified as tinplate, tin-free-steel coated with chromium or aluminium coated with chromium. The antimony concentration in 32 PET bottle materials from Britain and Nigeria were similar and ranged between 177 and 310 mg/kg with an average of 250±30 mg/kg. The concentration agrees well with the industry reported concentration of between 150 and 350 mg/kg. The concentration of residual acetaldehyde in 25 fresh PET bottle materials from Britain and Nigeria ranged between 0.95 and 12.52 µg/g. The average concentration in British and Nigerian soft drinks PET materials are 4.76 and 2.17µg/g respectively. Concentration of residual acetaldehyde was higher in soft drinks and still water PET materials than in sparkling water materials. The concentration of residual acetaldehyde decreases as the bottle wall material becomes older. Also the thinner the bottle walls the lower the concentration of residual acetaldehyde. Antimony concentration in 47 freshly purchased British bottled water and soft drinks ranged between 0.03 and 6.61µg/L with only one sample going above the EU acceptable limit. Concentrations of other trace elements measured were low except titanium which was detected at part per million levels in soft drinks. Lead content of a Nigerian soft drink in glass bottle stored for 2 months was above the EU acceptable limit for lead. At realistic temperatures of 40 and 60°C antimony concentration in the water remained below the EU acceptable limit even after 48 hours of exposure but the concentration exceeded the limit for most exposures at 80°C. Concentration of antimony in some Nigerian bottled water and soft drinks was above the EU limit after 11 months of storage at room temperature. Aged bottles leach lower amount of antimony than new bottles. Similarly larger bottles leach lower amount of antimony than smaller bottles. The average acetaldehyde concentrations found in British fruit juices, carbonated soft drinks, sparkling water and still water were 5113, 1458, 22 and 8 µg/L respectively. Acetaldehyde was not detected in water bottled in glass. The concentration of acetaldehyde in five fruit juice samples in PET bottles and carton was beyond the EU specific migration limit (SML) of 6mg/kg. Also the tolerable daily intake of acetaldehyde could be exceeded as a result of intake of some soft drinks and fruit juices. Acetaldehyde content in soft drinks increase with storage but the increase cannot be accounted for by the residual acetaldehyde in PET. Acetaldehyde was found to be outgassing from some bottles. It was also found to be capable of migrating from soft drinks into bottle wall. Without replenishment the concentration of acetaldehyde in solution decreases with time. The use of PVC cap lining in Nigeria as found in this study is a cause for concern as PVC is associated with health risk issues. The study recommends actions to ensure that antimony in fruit juices and other bottled products remain within the regulatory standard from bottling to consumption for the purpose of safeguarding the health of consumers. Glass used in bottling should be well scrutinized to ensure that it does not contain high levels of lead or other chemical substances that can cause harm to consumers through migration into contents. PET bottles can safely be used for solar water disinfection without the risk of antimony intake at concentrations above safe limits as water temperature achievable as the result of the technique doesn¿t go beyond 60°C. Also aged bottles are safer to use than new bottles because their chemical leaching was found to be lower than that of new bottles. This study recommends the reassessment of the absence of international guidelines for acetaldehyde in water and foods. The study also recommends that the amount of acetaldehyde that can be added to soft drinks as flavouring agent should be below the specific migration limit (SML) for migration of acetaldehyde from PET bottle into bottle contents. This is essential since the SML was designed to ensure that exposure to acetaldehyde, as a result of intake of bottled water and soft drinks in PET bottles, is below the tolerable daily intake (TDI) for acetaldehyde. As antimony was reported to go beyond the safe limits in some Nigerian bottled water and soft drinks after 11 months of storage this study discourages the use of bottle contents stored for a very long time. / Commonwealth Scholarship Commission in the United Kingdom

Antimony

Acetaldehyde

Trace elements

Bottled water

Leaching

Reuse

Microwave digestion

ICP-MS

Headspace GC-FID

Polyethylene terephthalate (PET)

Soft drinks

Nigeria

United Kingdom

Charge-Storage mechanisms in polymer electrets

Camacho González, Francisco

January 2006

In view of the importance of charge storage in polymer electrets for electromechanical transducer applications, the aim of this work is to contribute to the understanding of the charge-retention mechanisms. Furthermore, we will try to explain how the long-term storage of charge carriers in polymeric electrets works and to identify the probable trap sites. Charge trapping and de-trapping processes were investigated in order to obtain evidence of the trap sites in polymeric electrets. The charge de-trapping behavior of two particular polymer electrets was studied by means of thermal and optical techniques. In order to obtain evidence of trapping or de-trapping, charge and dipole profiles in the thickness direction were also monitored. <br><br> In this work, the study was performed on polyethylene terephthalate (PETP) and on cyclic-olefin copolymers (COCs). PETP is a photo-electret and contains a net dipole moment that is located in the carbonyl group (C = O). The electret behavior of PETP arises from both the dipole orientation and the charge storage. In contrast to PETP, COCs are not photo-electrets and do not exhibit a net dipole moment. The electret behavior of COCs arises from the storage of charges only. <br><br> COC samples were doped with dyes in order to probe their internal electric field. COCs show shallow charge traps at 0.6 and 0.11 eV, characteristic for thermally activated processes. In addition, deep charge traps are present at 4 eV, characteristic for optically stimulated processes. <br><br> PETP films exhibit a photo-current transient with a maximum that depends on the temperature with an activation energy of 0.106 eV. The pair thermalization length (rc) calculated from this activation energy for the photo-carrier generation in PETP was estimated to be approx. 4.5 nm. The generated photo-charge carriers can recombine, interact with the trapped charge, escape through the electrodes or occupy an empty trap. <br><br> PETP possesses a small quasi-static pyroelectric coefficient (QPC): ~0.6 nC/(m²K) for unpoled samples, ~60 nC/(m²K) for poled samples and ~60 nC/(m²K) for unpoled samples under an electric bias (E ~10 V/µm). When stored charges generate an internal electric field of approx. 10 V/µm, they are able to induce a QPC comparable to that of the oriented dipoles. Moreover, we observe charge-dipole interaction. Since the raw data of the QPC-experiments on PETP samples is noisy, a numerical Fourier-filtering procedure was applied. Simulations show that the data analysis is reliable when the noise level is up to 3 times larger than the calculated pyroelectric current for the QPC. <br><br> PETP films revealed shallow traps at approx. 0.36 eV during thermally-stimulated current measurements. These energy traps are associated with molecular dipole relaxations (C = O). On the other hand, photo-activated measurements yield deep charge traps at 4.1 and 5.2 eV. The observed wavelengths belong to the transitions in PETP that are analogous to the π - π* benzene transitions. The observed charge de-trapping selectivity in the photocharge decay indicates that the charge detrapping is from a direct photon-charge interaction. Additionally, the charge de-trapping can be facilitated by photo-exciton generation and the interaction of the photo-excitons with trapped charge carriers. These results indicate that the benzene rings (C6H4) and the dipolar groups (C = O) can stabilize and share an extra charge carrier in a chemical resonance. In this way, this charge could be de-trapped in connection with the photo-transitions of the benzene ring and with the dipole relaxations. <br><br> The thermally-activated charge release shows a difference in the trap depth to its optical counterpart. This difference indicates that the trap levels depend on the de-trapping process and on the chemical nature of the trap site. That is, the processes of charge detrapping from shallow traps are related to secondary forces. The processes of charge de-trapping from deep traps are related to primary forces. Furthermore, the presence of deep trap levels causes the stability of the charge for long periods of time. / Angesichts der Bedeutung der Ladungsspeicherung in Polymerelektreten für viele Anwendungen, wie z.B. in elektromechanischen Wandler, ist es das Ziel dieser Arbeit, zum Verständnis der zugrundeliegenden Mechanismen der kurz- und langfristigen Ladungsstabilisierung beizutragen sowie mögliche Haftstellen zu identifizieren. Ladungs- und Entladungsprozesse in Elektreten geben Hinweise auf Ladungshaftstellen. Diese Prozesse wurden mit thermischen und optischen Methoden bei gleichzeitiger Messung von Ladungs- und Polarisationprofilen untersucht. Die experimentellen Untersuchungen der vorliegenden Arbeit wurden an Polyethylenterephthalat (PETP) und an Cyclischen-Olefin Copolymeren (COC) durchgeführt. <br><br> PETP ist ein Photoelektret und weist in der Carbonylgruppe (C = O) ein Dipolmoment auf. Die Elektreteigenschaften ergeben sich sowohl aus der Orientierungspolarisation als auch aus der Ladungsspeicherung. Im Gegensatz zu PETP ist COC kein Photoelektret und zeigt auch keine Orientierungspolarisation. Deshalb folgen die Elektreteigenschaften des COC ausschließlich aus der Ladungsspeicherung. Die COC-Proben wurden mit Farbstoffen dotiert, um das innere elektrische Feld zu untersuchen. Diese Systeme zeigen flache Ladungshaftstellen bei 0,6 und 0,11 eV, die durch thermisch stimulierte Prozesse entladen werden sowie tiefe Haftstellen bei 4 eV, die optisch stimuliert werden können. <br><br> PETP-Filme zeigen einen transienten Photostrom mit einem Maximalwert ( jp), der von der Temperatur mit einer Aktivierungsenergie von 0,106 eV abhängt. Der thermische Paarabstand (rc) kann für die Photoladungsgeneration in PETP auf ca. 4,5 nm abgeschätzt werden. Die Photoladungsträger können rekombinieren, mit den gespeicherten Ladungen interagieren, über die Elektroden entkommen oder eine leere Haftstelle einnehmen. <br><br> PETP zeigt einen kleinen quasi-statischen pyroelektrischen Koeffizienten (QPC) von ca. 0,6 nC/(m²K) für nicht polarisierte Proben, ca. 60 nC/(m²K) für polarisierte Proben und ca. 60 nC/(m²K) für nicht polarisierte Proben mit Vorspannung (E ~10 V/µm). Wenn die gespeicherten Ladungen ein internes elektrisches Feld von ca. 10 V/µm generieren können, sind sie in der Lage, einen QPC herbeizuführen, der vergleichbar mit dem von orientierten Dipolen ist. Es ist außerdem möglich, eine Ladungs-Dipol-Wechselwirkung zu beobachten. Da die QPM-Daten von PETP auf Grund des geringen Signals verrauscht sind, wurde ein numerisches Fourier-Filterverfahren angewandt. Simulationen zeigen, dass eine zuverlässige Datenanalyse noch bei einem Signal möglich ist, dessen Rauschen bis zu 3-mal größer ist als der berechnete pyroelektrische Strom. <br><br> Messungen der thermisch stimulierten Entladung von PETP-Filmen ergaben flache Haftstellen bei ca. 0,36 eV, welche mit der Dipolrelaxation der Carbonylgruppe (C = O) assoziiert sind. Messungen der photostimulierten Entladung ergaben tiefe Haftstellen bei 4,1 und 5,2 eV. Die beobachteten Wellenlängen entsprechen Übergängen in PETP analog den π - π* Übergängen in Benzol. Die beobachtete Selektivität bei der photostimulierten Entladung lässt auf eine direkte Wechselwirkung von Photonen und Ladungen schließen. Einen zusätzlichen Einfluß auf die Entladung hat die Erzeugung von Photo-Exzitonen und deren Wechselwirkung mit den gespeicherten Ladungsträgern. Diese Ergebnisse deuten darauf hin, dass die Phenylringe (C6H4) und die Dipolgruppen (C = O) eine zusätzliche Ladung in einer chemischen Resonanz stabilisieren und miteinander teilen können. Daher kann die gebundene Ladung auch durch einen Photoübergang im Benzolring oder durch eine Dipolrelaxation freigesetzt werden. <br><br> Die mittels thermisch stimulierter Entladung bestimmte Tiefe der Haftstellen unterscheidet sich deutlich von den mittels photostimulierter Entladung gemessenen Werten. Flachere Haftstellen werden bei der thermisch stimulierten Entladung gefunden und können sekundären Kräften zugeordnet werden. Die tieferen Haftstellen sind chemischer Natur und können primären Kräften zugeordnet werden. Letztere sind für die Langzeitstabilität der Ladung in Polymerelektreten verantwortlich.

Charge-Storage

polymer-electret

photo-stimulated discharge

polyethylene terephthalate

cyclic-olefin copolymer

charge-dipole interaction

thermo-stimulated discharge

thermo-luminescence

trap-depth

charge profiling

charge storage

charge trap

Physics

Desenvolvimento e validação de métodos analíticos para a determinação de contaminantes em polietileno tereftalato e polietileno de alta densidade pós-consumo / Development and validation of analytical methods for the determination of contaminants in polyethylene terephthalate and high-density polyethylene post consumer

Dutra, Camila Braga

16 August 2018

Orientadores: Felix Guillermo Reyes Reyes, Maria Teresa de Alvarenga Freire / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos / Made available in DSpace on 2018-08-16T23:01:27Z (GMT). No. of bitstreams: 1 Dutra_CamilaBraga_D.pdf: 1974104 bytes, checksum: 7a0aae96f3654e27fb7d553ee756e522 (MD5) Previous issue date: 2010 / Doutorado / Doutor em Ciência de Alimentos

PET (Polietileno Tereftalato)

Polietileno de alta densidade

Polyethylene terephthalate

High-sensity Polyethylene

Gas chromatography-mass spectrometry

Liquid chromatography mass spectrometry

Desenvolvimento técnico e avaliação de custo e benefício do sistema construtivo de painéis sanduíche, com núcleo de garrafas PET, moldados no local / Technical development and evaluation od cost and benefit of the construction system of sandwich panels, with bottles PET nuccleus, framed in local

Fernandes, Georgeo Dias

28 January 2016

Submitted by Luciana Ferreira (lucgeral@gmail.com) on 2016-06-01T09:08:49Z No. of bitstreams: 2 Dissertação - Georgeo Dias Fernandes - 2016.pdf: 4550829 bytes, checksum: c89172b3acd5d16ace7d0bf283fc8446 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2016-06-01T09:10:55Z (GMT) No. of bitstreams: 2 Dissertação - Georgeo Dias Fernandes - 2016.pdf: 4550829 bytes, checksum: c89172b3acd5d16ace7d0bf283fc8446 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2016-06-01T09:10:55Z (GMT). No. of bitstreams: 2 Dissertação - Georgeo Dias Fernandes - 2016.pdf: 4550829 bytes, checksum: c89172b3acd5d16ace7d0bf283fc8446 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2016-01-28 / Traditional construction methods are questioned, because of low productivity, waste, rework, low standardization, among other things. Because of these problems and taking into account environmental aspects, new building systems that make use of reusable or recyclable materials from other industries are analyzed to verify its efficiency in technical and economic level. In this context, the aim of the dissertation is to describe the technical development and assess costs and benefits of the constructive system sandwich panels, molded on site, which reuses bottles of polyethylene terephthalate (PET) to make up the core of the walls and slabs. Concerning the technical development was described experiments and tests carried out for the conformation of the construction system, with the configuration of its characteristics and peculiarities, discussed the results of the tests performed, including the early to define the structural safety of the walls and slabs together with the presentation of the theoretical model calculation and performance evaluation for the validation. In the economic aspect, there was a comparison between the traditional construction system and the studied system. The cost direct was examined and observed the benefits with the help of value attributes expected to prefabricated options construction, drawn by Cook (2013), namely: direct costs (material and labor), time (schedule), design flexibility, work time management, quality, delivery and conference in work, subcontractors activities in work, work safety, exercise stress testing, health, environmental impact, LEED certification, rubble and dispensing, public relations, marketing, maintenance (life cycle). With the help of estimators engineers, through interviews, the steps we investigated, activities, productivity and resources needed to execute a project in the traditional building system, building system in masonry traditional system and building system analyzed. Was elaborated cost composition of spreadsheets and productivity for hypothetical situations of conventional and innovative construction system of sealing walls with slabs of residential buildings and walls and structural slabs works until two floors. The mapping process was designed, in which to extract the consideration of potential benefits or otherwise of the building system. Technical descriptions highlight the possibility of constructive feasibility of sandwich panels, with core of PET bottles, molded on site. And the evaluation of costs and benefits demonstrates its value, not so much due to the direct cost, but in terms of building system management benefits. / Os métodos construtivos tradicionais são questionados em função da baixa produtividade, desperdícios, retrabalhos e baixa padronização, dentre outros aspectos. Em virtude destes problemas e levando em conta aspectos ambientais, novos sistemas construtivos, que fazem uso de materiais reutilizáveis ou recicláveis de outras indústrias, são analisados visando verificar sua eficiência em nível técnico-econômico. Diante desse contexto, o objetivo da dissertação é descrever o desenvolvimento técnico e avaliar custo e benefício do sistema construtivo em painéis sanduíche, moldados no local, que reutiliza garrafas de politereftalato de etileno (PET) para compor o núcleo das paredes e lajes. Relativo ao desenvolvimento técnico, descrevem-se os experimentos e ensaios realizados para a conformação do sistema construtivo, apresentando a configuração das suas características e peculiaridades. Em seguida, discutem-se os resultados dos ensaios executados, compreendendo os iniciais para definição da segurança estrutural das paredes e lajes conjuntamente com a apresentação do modelo teórico de cálculo, bem como os de avaliação de desempenho para validação. No aspecto econômico, faz-se um comparativo entre o sistema construtivo tradicional e o sistema estudado. A relação custo direto foi examinada e observou-se os benefícios com a ajuda dos atributos de valor esperados para opções pré-fabricadas de construção, quais sejam: custo direto (material e mão de obra), tempo (cronograma), flexibilidade de projeto, tempo de administração de obra, qualidade, entregas e conferência em obra, atividades de subempreiteiros em obra, segurança do trabalho, ergometria, condições de saúde, impacto ambiental, certificação LEED, entulho e descarte, relações públicas, marketing e manutenção (ciclo de vida). Com a ajuda de engenheiros orçamentistas, por meio de entrevistas, investigaram-se as etapas, atividades, produtividade e recursos necessários para executar um projeto no sistema construtivo tradicional, sistema construtivo em alvenaria estrutural e no sistema construtivo analisado. Elaboraram-se planilhas de composição de custo e produtividade para as situações hipotéticas do sistema construtivo inovador e convencional de paredes de vedação com lajes de edifícios habitacionais e para paredes e lajes estruturais de obras até dois pavimentos. O mapeamento dos processos foi delineado, no qual foram extraídas as considerações sobre possíveis benefícios ou não do sistema construtivo. As descrições técnicas evidenciam a possibilidade da viabilidade construtiva de painéis sanduíche, com núcleo de garrafas PET, moldados no local. Já o a avaliação de custo e benefício demonstrou seu valor, nem tanto em função do custo direto, mas, em termos de benefícios de gestão do sistema construtivo.

Construção enxuta

Análise técnica

Atributos de valor

Sistema construtivo inovador

Lean construction

Technical analysis

Value attributes

Innovative building system

ENGENHARIA CIVIL::CONSTRUCAO CIVIL

[en] DIAGNOSIS OF THE REVERSE DISTRIBUTION CHANNEL IN RECYCLE OF PLASTICS RESIDUES: POLYSTYRENE AND POLYETHYLENE TEREPHTHALATE / [pt] DIAGNÓSTICO DO CANAL DE DISTRIBUIÇÃO REVERSO NA RECICLAGEM DOS RESÍDUOS PLÁSTICOS: POLIESTIRENO E POLIETILENO TEREFTALATO

DEBORAH FRANCISCO RODRIGUES

12 April 2004

[pt] O acelerado desenvolvimento tecnológico tem provocado uma obsolescência precoce dos produtos. Com o aumento dos produtos com vida útil cada vez menor, cresce o número de resíduos gerados e chega-se ao esgotamento da capacidade dos sistemas tradicionais de disposição de resíduos. Com isso, alternativas são estudadas para a destinação final dos bens, a fim de minimizar o impacto ambiental gerado pelos mesmos. Aliado a esse aspecto, devem ser consideradas as legislações referentes às questões ambientais e a crescente sensibilidade ecológica, com a propagação do conceito do desenvolvimento sustentável e os novos princípios de proteção ambiental (como o EPR - Extended Product Responsability). O processo de reciclagem é também uma importante fonte de renda e de postos de trabalho, especialmente, para os extratos mais pobres da sociedade. É neste contexto que a Logística Reversa vem se desenvolvendo, com processos de retorno dos bens aos seus ciclos produtivos, quando possível, ou à sua destinação final. Este trabalho pretende apresentar, em linhas gerais, a logística reversa relacionada à reciclagem de resíduos plásticos. Para isso, foi diagnosticado o canal reverso de distribuição da reciclagem dos resíduos plásticos de Poliestireno e Polietileno Tereftalato, analisando oito empresas integrantes deste canal no Estado do Rio de Janeiro por meio de entrevistas. Além dessas empresas, foram abordadas no estudo uma recicladora de PET em São Paulo com dados extraídos via internet e uma empresa que está realizando uma nova experiência em coleta automática de recicláveis. / [en] The accelerated technological development produces an early obsolescence of the products. With the increase the number of products with its useful life progressively smaller, the number of generated residues grows bringing to the exhaustion the capacity of the tradicional systems of disposition of residues. Given this scenario, alternatives are studied for the final destination of the goods, in order to minimize the resulting environmental impact. In addition, the legislations concerned with environmental subjects, the growing ecological sensibility with the sustainable development and the new beginnings of environmental protection (like EPR - Extended Product Responsability) are requiring reduced environment impacts. In this context, Reverse Logistics is developing processes to direct the goods back to production, whenever possible, or to final destination. This work intends to present in general lines the reverse logistics related to recycling plastics residues. This work has diagnosed the reverse distribution channel in the recycling of plastic residues of Polystyrene and Polyethylene Terephthalate. Eight companies located in the State of Rio de Janeiro which operate in this channel have been chosen for interviewing. In addition, two other companies have been included in the research, one located in the State of São Paulo, and recycling PET, was evaluated through the Internet, and another operating with a new type of automatic collection was evaluated through published reports.

[pt] LOGISTICA REVERSA

[en] REVERSE LOGISTICS

[pt] FLUXO REVERSO

[en] REVERSE FLOW

[pt] RECICLAGEM DO PLASTICO

[en] PLASTIC RECYCLE

[pt] POLIESTIRENO

[en] POLYSTYRENE

[pt] POLIETILENO TEREFTALATO

[en] POLYETHYLENE TEREPHTHALATE

[pt] CANAL DE DISTRIBUICAO REVERSO

[en] REVERSE DISTRIBUTION CHANNEL

A disulfide bridge in the calcium binding site of a polyester hydrolase increases its thermal stability and activity against polyethylene terephthalate

Then, Johannes, Wei, Ren, Oeser, Thorsten, Gerdts, André, Schmidt, Juliane, Barth, Markus, Zimmermann, Wolfgang

January 2016

Elevated reaction temperatures are crucial for the efficient enzymatic degradation of polyethylene terephthalate (PET). A disulfide bridge was introduced to the polyester hydrolase TfCut2 to substitute its calcium binding site. The melting point of the resulting variant increased to 94.7°C (wild-type TfCut2: 69.8 °C) and its half-inactivation temperature to 84.6 °C (TfCut2: 67.3 °C). The variant D204C-E253C-D174R obtained by introducing further mutations at vicinal residues showed a temperature optimum between 75 and 80 °C compared to 65 and 70 °C of the wild-type enzyme. The variant caused a weight loss of PET films of 25.0 +/- 0.8% (TfCut2: 0.3 +/-0.1%) at 70 °C after a reaction time of 48 h. The results demonstrate that a highly efficient and calcium-independent thermostable polyester hydrolase can be obtained by replacing its calcium binding site with a disulfide bridge.

info:eu-repo/classification/ddc/540

ddc:540

info:eu-repo/classification/ddc/570

ddc:570

Effect of Tris, MOPS, and phosphate buffers on the hydrolysis of polyethylene terephthalate films by polyester hydrolases

Schmidt, Juliane, Wei, Ren, Oeser, Thorsten, Belisário-Ferrari, Matheus Regis, Barth, Markus, Then, Johannes, Zimmermann, Wolfgang

January 2016

The enzymatic degradation of polyethylene terephthalate (PET) occurs at mild reaction conditions and may find applications in environmentally friendly plastic waste recycling processes. The hydrolytic activity of the homologous polyester hydrolases LC cutinase (LCC) from a compost metagenome and TfCut2 from Thermobifida fusca KW3 against PET films was strongly influenced by the reaction medium buffers tris(hydroxymethyl)aminomethane (Tris), 3-(N-morpholino)propanesulfonic acid (MOPS), and sodium phosphate. LCC showed the highest initial hydrolysis rate of PET films in 0.2 M Tris, while the rate of TfCut2 was 2.1-fold lower at this buffer concentration. At a Tris concentration of 1 M, the hydrolysis rate of LCC decreased by more than 90% and of TfCut2 by about 80%. In 0.2 M MOPS or sodium phosphate buffer, no significant differences in the maximum initial hydrolysis rates of PET films by both enzymes were detected. When the concentration of MOPS was increased to 1 M, the hydrolysis rate of LCC decreased by about 90%. The activity of TfCut2 remained low compared to the increasing hydrolysis rates observed at higher concentrations of sodium phosphate buffer. In contrast, the activity of LCC did not change at different concentrations of this buffer. An inhibition study suggested a competitive inhibition of TfCut2 and LCC by Tris and MOPS. Molecular docking showed that Tris and MOPS interfered with the binding of the polymeric substrate in a groove located at the protein surface. A comparison of the Ki values and the average binding energies indicated MOPS as the stronger inhibitor of the both enzymes.

info:eu-repo/classification/ddc/540

ddc:540

Silvering of three-dimensional polyethylene terephthalate textile material by means of wet-chemical processes

Onggar, Toty, Abu Shayed, Mohammad, Hund, Rolf-Dieter, Cherif, Chokri

17 September 2019

The aim of this research is to develop a wet-chemical silvering method for a three-dimensional (3D) textile material made of polyethylene terephthalate (PET) to prevent and eliminate biological contaminants in drinking water and other liquid-containing systems. Three-dimensional textile fabrics are particularly well-suited as silvered disinfection materials in water systems, because they have 3D structures, pressure-elastic textile design, and provide large contact areas. Furthermore, water can easily be passed through the structure. The developed wet-chemical procedures are based on aminosilane, which consists of at least two amine groups and is well-suited to form a silver diamine complex. The silvered textile material was coated with cationic silver. After the chemical reduction, the cationic silver turns into metallic silver on the surface of PET spacer fabrics. The surface morphology of silver-coated spacer fabrics was analyzed and the uniform silver layer on the PET fiber surface was found. X-ray diffraction and energy-dispersive X-ray spectroscopy analysis spectrums showed that the silver was immobilized on the PET fiber surface. The layer thickness and the silver amount were also determined. The silvered spacer fabrics can be used in sealing and/or cooling water systems; therefore, the silver ion release in water was analyzed. Furthermore, textile physical tests for the measurement of breaking force and elongation were carried out. No significant change in breaking force and elongation was observed after silvering of PET spacer fabric.

info:eu-repo/classification/ddc/660

ddc:660

info:eu-repo/classification/ddc/670

ddc:670