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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Aromatic compound degradation by cresol-utilizing Rhodococcus strains

Delcroix, Valerie A. January 1998 (has links)
No description available.
2

Factors Affecting Distribution of Borate to Protect Building Envelope Components from Biodegradation

Saadat, Md. Nazmus 26 November 2012 (has links)
Borate can be a potential candidate to protect building envelope components from biodegradation as it has low toxicity and can penetrate wood without pressure treatment, even in the refractory species commonly used in construction industries as structural components. In this research, wood moisture content, grain direction, formulation and species that affect the diffusion of borate in refractory species were investigated. Two highly concentrated formulations were applied and a novel approach (borate bandage) was used to keep the preservative on the surface and enhance the diffusion by reducing surface drying. From ANOVA test for different diffusion periods and depths of penetration, it was found that grain directions and moisture content are significant factors. A mould test was performed, the diffusion co-efficients were calculated and some recommendations were made about the quantity required to protect a specific volume of wood considering the distance moved by diffusion and volume treated in different directions.
3

Factors Affecting Distribution of Borate to Protect Building Envelope Components from Biodegradation

Saadat, Md. Nazmus 26 November 2012 (has links)
Borate can be a potential candidate to protect building envelope components from biodegradation as it has low toxicity and can penetrate wood without pressure treatment, even in the refractory species commonly used in construction industries as structural components. In this research, wood moisture content, grain direction, formulation and species that affect the diffusion of borate in refractory species were investigated. Two highly concentrated formulations were applied and a novel approach (borate bandage) was used to keep the preservative on the surface and enhance the diffusion by reducing surface drying. From ANOVA test for different diffusion periods and depths of penetration, it was found that grain directions and moisture content are significant factors. A mould test was performed, the diffusion co-efficients were calculated and some recommendations were made about the quantity required to protect a specific volume of wood considering the distance moved by diffusion and volume treated in different directions.
4

Durabilidade da madeira do gênero Pinus tratada com preservantes: avaliação em campo de apodrecimento. / Durability of preservative treated Pinus lumber: evaluation through field stake test.

Barillari, Cristiane Tabarelli 13 May 2002 (has links)
A madeira quando usada em contato direto com o solo, é atacada por agentes biológicos, principalmente fungos apodrecedores e cupins subterrâneos. Uma maneira de ampliar as possibilidades de utilização das espécies de baixa durabilidade natural, como as do gênero Pinus, é através do tratamento químico preservante. No entanto, faltam informações disponíveis que indiquem a durabilidade destas madeiras em serviço. A fim de se determinar a durabilidade da madeira do gênero Pinus tratada com preservantes, a Escola Superior de Agricultura "Luiz de Queiroz" e o Instituto Florestal do Estado de São Paulo instalaram, em 1980, campos de apodrecimento segundo método de ensaio sugerido pelo IUFRO (International Union of Forestry Research Organizations). As espécies utilizadas no ensaio foram o Pinus elliottii Engl. var. elliottii, o Pinus caribaea Mor. var. hondurensis, B & G., o Pinus oocarpa Shied e o Pinus kesiya Royle ex Gordon; tratadas com os preservantes CCA tipos A, B e C, CCB e pentaclorofenol, em cinco níveis de retenção. Em continuidade ao projeto, foi inspecionado o campo instalado na Estação Experimental de Mogi-Guaçu, visando avaliar o estado de sanidade do material. A análise dos resultados obtidos até o momento, 21 anos de exposição demonstrou que não houve diferença no comportamento entre espécies. Os índices de comportamento mais altos (maior expectativa de durabilidade) correspondem aos tratamentos com CCA tipos A, B e C em retenções acima de 7,5 kg/m3. Mesmo para os tratamentos que apresentaram os menores índices de comportamento (CCA tipo C com retenções de 5,0 kg/m 3 e CCB com 5,9 kg/m 3 ), é prevista uma durabilidade de 30 anos em serviço. / When used in ground contact, wood is deteriorated by biological agents, as root fungi and subterranean termites. A way to increase the use of wood species of low natural durability, as the Pinus lumber, is the preservative treatment. However, there is a lack of information indicating the durability of treated wood. In order to determine the durability of preservative treated Pinus lumber, the Escola Superior de Agricultura "Luiz de Queiroz" and the Instituto Florestal do Estado de São Paulo installed, in 1980, fields tests according to the IUFRO (International Union of Forestry Research Organizations). The species under test were Pinus elliottii Engl. var. elliottii, Pinus caribaea Mor. var. hondurensis, B & G., Pinus oocarpa Shied and Pinus kesiya Royle ex Gordon; treated with the preservatives CCA types A, B and C, CCB and pentachlorophenol, in five retention levels. In continuity to the project, the material installed in the test site of Experimental Station of Mogi-Guaçu was inspected, to evaluate the degree of attack. The analysis of results obtained till now, after 21 years of exposure, demonstrated that there are no differences in durability related with species. The highest performance index (longer durability expectation) correspond to treatments with CCA types A, B and C in retentions above 7,5 kg/m3. Even for the treatments that presented lowest performance index (CCA type C with retention of 5,0 kg/m 3 and CCB with 5,9 kg/m 3 ), the durability expectation is 30 years in service.
5

Durabilidade da madeira do gênero Pinus tratada com preservantes: avaliação em campo de apodrecimento. / Durability of preservative treated Pinus lumber: evaluation through field stake test.

Cristiane Tabarelli Barillari 13 May 2002 (has links)
A madeira quando usada em contato direto com o solo, é atacada por agentes biológicos, principalmente fungos apodrecedores e cupins subterrâneos. Uma maneira de ampliar as possibilidades de utilização das espécies de baixa durabilidade natural, como as do gênero Pinus, é através do tratamento químico preservante. No entanto, faltam informações disponíveis que indiquem a durabilidade destas madeiras em serviço. A fim de se determinar a durabilidade da madeira do gênero Pinus tratada com preservantes, a Escola Superior de Agricultura "Luiz de Queiroz" e o Instituto Florestal do Estado de São Paulo instalaram, em 1980, campos de apodrecimento segundo método de ensaio sugerido pelo IUFRO (International Union of Forestry Research Organizations). As espécies utilizadas no ensaio foram o Pinus elliottii Engl. var. elliottii, o Pinus caribaea Mor. var. hondurensis, B & G., o Pinus oocarpa Shied e o Pinus kesiya Royle ex Gordon; tratadas com os preservantes CCA tipos A, B e C, CCB e pentaclorofenol, em cinco níveis de retenção. Em continuidade ao projeto, foi inspecionado o campo instalado na Estação Experimental de Mogi-Guaçu, visando avaliar o estado de sanidade do material. A análise dos resultados obtidos até o momento, 21 anos de exposição demonstrou que não houve diferença no comportamento entre espécies. Os índices de comportamento mais altos (maior expectativa de durabilidade) correspondem aos tratamentos com CCA tipos A, B e C em retenções acima de 7,5 kg/m3. Mesmo para os tratamentos que apresentaram os menores índices de comportamento (CCA tipo C com retenções de 5,0 kg/m 3 e CCB com 5,9 kg/m 3 ), é prevista uma durabilidade de 30 anos em serviço. / When used in ground contact, wood is deteriorated by biological agents, as root fungi and subterranean termites. A way to increase the use of wood species of low natural durability, as the Pinus lumber, is the preservative treatment. However, there is a lack of information indicating the durability of treated wood. In order to determine the durability of preservative treated Pinus lumber, the Escola Superior de Agricultura "Luiz de Queiroz" and the Instituto Florestal do Estado de São Paulo installed, in 1980, fields tests according to the IUFRO (International Union of Forestry Research Organizations). The species under test were Pinus elliottii Engl. var. elliottii, Pinus caribaea Mor. var. hondurensis, B & G., Pinus oocarpa Shied and Pinus kesiya Royle ex Gordon; treated with the preservatives CCA types A, B and C, CCB and pentachlorophenol, in five retention levels. In continuity to the project, the material installed in the test site of Experimental Station of Mogi-Guaçu was inspected, to evaluate the degree of attack. The analysis of results obtained till now, after 21 years of exposure, demonstrated that there are no differences in durability related with species. The highest performance index (longer durability expectation) correspond to treatments with CCA types A, B and C in retentions above 7,5 kg/m3. Even for the treatments that presented lowest performance index (CCA type C with retention of 5,0 kg/m 3 and CCB with 5,9 kg/m 3 ), the durability expectation is 30 years in service.
6

Metodutveckling för analys av klorfenoler i jord samt analys av förorenad jord från ett sågverk

Gustavsson, Jenny January 2007 (has links)
In this final thesis, an existing method for analysis of chlorophenols (CP) in bottom sediments has been updated and adjusted for analysis of chlorophenols in soil. The covalent bonds between the chlorophenols and the soil matrix were broken through basic hydrolysis and the chlorophenols were then separated from the water phase through addition of sulphuric acid followed by ether extraction. The chromatography was improved through extractive acetylation of the chlorophenols. The updated method was then applied on soil samples from a contaminated area (a former sawmill in Hyttsjö, Östergötland, Sweden). The analyse was preformed by GC/MS with respect to 2-MonoCP, 4-MonoCP, 2,4-DiCP, 2,6-DiCP, 2,4,6-TriCP, 2,3,4,6-TetraCP and pentachlorophenol (PCP). Contamination of chlorophenols in nature can be explained by the former use of wood preservative chemicals based on chlorophenols. In the 1960s and the 1970s these chemicals were used in Sweden, but due to their toxicity they were banned by the Swedish government in 1978. In Hyttsjö a pentachlorophenol-based product named Santobrite was used for several years. The concentration of PCP in the soil samples from Hyttsjö varied from 0.2->1.8 ng/mg dry substance. 2,3,4,6- Tetrachlorophenol was also detected in some of the soil samples.
7

Metodutveckling för analys av klorfenoler i jord samt analys av förorenad jord från ett sågverk

Gustavsson, Jenny January 2007 (has links)
<p>In this final thesis, an existing method for analysis of chlorophenols (CP) in bottom sediments has been updated and adjusted for analysis of chlorophenols in soil. The covalent bonds between the chlorophenols and the soil matrix were broken through basic hydrolysis and the chlorophenols were then separated from the water phase through addition of sulphuric acid followed by ether extraction. The chromatography was improved through extractive acetylation of the chlorophenols.</p><p>The updated method was then applied on soil samples from a contaminated area (a former sawmill in Hyttsjö, Östergötland, Sweden).</p><p>The analyse was preformed by GC/MS with respect to 2-MonoCP, 4-MonoCP, 2,4-DiCP, 2,6-DiCP, 2,4,6-TriCP, 2,3,4,6-TetraCP and pentachlorophenol (PCP).</p><p>Contamination of chlorophenols in nature can be explained by the former use of wood preservative chemicals based on chlorophenols. In the 1960s and the 1970s these chemicals were used in Sweden, but due to their toxicity they were banned by the Swedish government in 1978.</p><p>In Hyttsjö a pentachlorophenol-based product named Santobrite was used for several years. The concentration of PCP in the soil samples from Hyttsjö varied from 0.2->1.8 ng/mg dry substance. 2,3,4,6- Tetrachlorophenol was also detected in some of the soil samples.</p>
8

Influence of Alkaline Copper Quat (ACQ) Solution Parameters on Copper Complex Distribution and Leaching

Pankras Mettlemary, Sedric 31 August 2011 (has links)
The effects of ACQ solution parameters such as copper to quat ratio, pH and copper to ligand ratio on distribution of copper complexes in solution and insoluble precipitates, and on fixation and leaching of copper in treated wood were evaluated. The distribution of ionic complexes, predicted by equilibrium speciation model (MINTEQA2), was related to laboratory fixation and leaching results at controlled ACQ solution parameters. A decrease in the relative proportion of copper in the ACQ formulation from a copper oxide (CuO) to didecyldimethylammonium carbonate (DDACb) ratio of 2:1 to 1:1 and 1:2 resulted in lower copper retention in the treated samples and substantially decreased the amount of copper leached per unit area. For monoethanolamine (Mea) based ACQ, solution parameters which favour a higher proportion of monovalent cationic complex, which consume one reactive site in wood, and the presence of insoluble carbonate precipitate of copper in wood during preservative treatment resulted in higher leach resistance compared to the neutral copper complex present at higher pH. Ammonia (NH3) based ACQ can fix more copper at high pH as there is no chelated neutral complex as in Mea based ACQ; however divalent copper-NH3 complexes may consume two sites to fix in wood. Addition of NH3 in Mea based ACQ at Cu:Mea:NH3 ratio of 1:4:6 at pH 10.6 significantly reduced copper leaching compared to 1:4:0 (without ammonia) at pH 9 due to increased divalent copper-ammonia complexes and decreased neutral copper amine complex at elevated pH. Ammonia addition with a lower proportion of Mea (1:2.5:4 at pH 10.5-10.7), significantly reduced copper leaching compared to 1:4:0 at pH 9; no reduction was observed for ammonia addition in ACQ with a higher proportion of Mea (1:4:4 at pH 10.45). The lower copper leaching from 1:2.5:4 resulted from the higher amount of divalent copper-NH3 complexes at higher pH without compromising the amount of copper precipitated at lower pH. The higher percent copper leached from tetramethylethylenediamine (Tmed) based ACQ compared to Mea and NH3 based ACQ suggested that highly stable complexes tend to stay in solution and do not result in leach resistant copper in the wood.
9

Influence of Alkaline Copper Quat (ACQ) Solution Parameters on Copper Complex Distribution and Leaching

Pankras Mettlemary, Sedric 31 August 2011 (has links)
The effects of ACQ solution parameters such as copper to quat ratio, pH and copper to ligand ratio on distribution of copper complexes in solution and insoluble precipitates, and on fixation and leaching of copper in treated wood were evaluated. The distribution of ionic complexes, predicted by equilibrium speciation model (MINTEQA2), was related to laboratory fixation and leaching results at controlled ACQ solution parameters. A decrease in the relative proportion of copper in the ACQ formulation from a copper oxide (CuO) to didecyldimethylammonium carbonate (DDACb) ratio of 2:1 to 1:1 and 1:2 resulted in lower copper retention in the treated samples and substantially decreased the amount of copper leached per unit area. For monoethanolamine (Mea) based ACQ, solution parameters which favour a higher proportion of monovalent cationic complex, which consume one reactive site in wood, and the presence of insoluble carbonate precipitate of copper in wood during preservative treatment resulted in higher leach resistance compared to the neutral copper complex present at higher pH. Ammonia (NH3) based ACQ can fix more copper at high pH as there is no chelated neutral complex as in Mea based ACQ; however divalent copper-NH3 complexes may consume two sites to fix in wood. Addition of NH3 in Mea based ACQ at Cu:Mea:NH3 ratio of 1:4:6 at pH 10.6 significantly reduced copper leaching compared to 1:4:0 (without ammonia) at pH 9 due to increased divalent copper-ammonia complexes and decreased neutral copper amine complex at elevated pH. Ammonia addition with a lower proportion of Mea (1:2.5:4 at pH 10.5-10.7), significantly reduced copper leaching compared to 1:4:0 at pH 9; no reduction was observed for ammonia addition in ACQ with a higher proportion of Mea (1:4:4 at pH 10.45). The lower copper leaching from 1:2.5:4 resulted from the higher amount of divalent copper-NH3 complexes at higher pH without compromising the amount of copper precipitated at lower pH. The higher percent copper leached from tetramethylethylenediamine (Tmed) based ACQ compared to Mea and NH3 based ACQ suggested that highly stable complexes tend to stay in solution and do not result in leach resistant copper in the wood.

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