Aqueous effluent problems within the aircraft industry : the development of a new apparatus for the photocatalytic degradation of chlorinated organic species

Papakostopoulos, Ezi Aspasia

January 1997

No description available.

546

Paint stripper waste effluent

Modeling of stripper configurations for CO₂ capture using aqueous piperazine

Madan, Tarun

08 October 2013

This thesis seeks to improve the economic viability of carbon capture process by reducing the energy requirement of amine scrubbing technology. High steam requirement for solvent regeneration in this technology can be reduced by improvements in the regeneration process. Solvent models based on experimental results have been created by previous researchers and are available for simulation and process modeling in Aspen Plus®. Standard process modeling specifications are developed and multiple regeneration processes are compared for piperazine (a cyclic diamine) in Chapter 2. The configurations were optimized to identify optimal operating conditions for energy performance. These processes utilize methods of better heat recovery and effective separation and show 2 to 8% improvement in energy requirement as compared to conventional absorber-stripper configuration. The best configuration is the interheated stripper which requires equivalent work of 29.9 kJ/mol CO₂ compared to 32.6 kJ/mol CO₂ for the simple stripper. The Fawkes and Independence solvent models were used for modeling and simulation. A new regeneration configuration called the advanced flash stripper (patent pending) was developed and simulated using the Independence model. Multiple complex levels of the process were simulated and results show more than 10% improvement in energy performance. Multiple cases of operating conditions and process specifications were simulated and the best case requires equivalent work of 29 kJ/mol CO₂. This work also includes modeling and simulation of pilot plant campaigns carried out for demonstration of a piperazine with a 2-stage flash on at 1 tpd CO₂. Reconciliation of data was done in Aspen Plus for solvent model validation. The solvent model predicted results consistent with the measured values. A systematic error of approximately +5% was found in the rich CO₂, that can be attributed to laboratory measurement errors, instrument measurement errors, and standard deviation in solvent model data. Stripper Modeling for CO₂ capture from natural gas combustion was done under a project by TOTAL through the Process Science and Technology Center. Two configurations were simulated for each of three flue gas conditions (corresponding to 3%, 6% and 9% CO₂). Best cases for the three conditions of flue gas require 34.9, 33.1 and 31.6 kJ/mol CO₂. / text

Piperazine

Carbon capture

Amine scrubbing

Stripper configuration

Stripper Harvesting - Farm Trials

Stedman, Sam

02 1900

This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project.

Agriculture -- Arizona

Cotton -- Arizona

Cotton -- Harvesting

Cotton -- Stripper harvesting

Stripper Harvested Cotton Variety Test

Massey, G. D., Rauschkolb, R., Machado, M.

02 1900

This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project.

Agriculture -- Arizona

Cotton -- Arizona

Cotton -- Harvesting

Cotton -- Stripper harvesting

Time in Motion and Picking Efficiency Studies on Stripper Harvesters

Machado, Marshall

02 1900

This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project.

Agriculture -- Arizona

Cotton -- Arizona

Cotton -- Harvesting

Cotton -- Stripper harvesting

Economic Comparisons between Stripper-Type and Spindle-Type Cotton Harvesting Machines

Young, R. A., Martin, W. E.

02 1900

This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project.

Agriculture -- Arizona

Cotton -- Arizona

Cotton -- Harvesting

Cotton -- Stripper harvesting

Fat Boy Private Dance

Schwartz, Adam M

18 December 2015

After spending a decade losing weight following a traumatic high school experience, Mark has a great life with a beautiful girlfriend, good job which he's passionate about, and a wonderful group of friends. Everything changes when his high school bully reenters his life and shakes his confidence to the point of developing a severe case of body dysmorphia at a time when it's crucial he's confident, as he promised to do a private dance for his girlfriend.

Fat

Stripper

Lapdance

Body Dysmorphia, Private Dance, Sex

Screenwriting

COMPARISON OF PICKER AND STRIPPER HARVESTERS ON IRRIGATED COTTON ON THE HIGH PLAINS OF TEXAS

Faulkner, William B.

16 January 2010

Over a fourth of the cotton produced in the US since 2002 has been produced in Texas, with most coming from the High Plains. In recent years, Texas has accounted for almost half of all US cotton production (USDA-NASS, 2008b). Most cotton on the High Plains is of more storm-proof varieties that have traditionally been harvested using stripper harvesters. However, improvements in irrigation technology and shifting markets for US cotton have increased interest in picker harvesters in the region. A holistic comparison of picker and stripper harvesters in irrigated cotton on the High Plains of Texas was conducted focusing on differences in system efficiencies, the costs of ginning, fiber and yarn quality, and potential economic returns under comparable crop yields and conditions. Harvester performance was evaluated based on harvest efficiency, time-inmotion, and fuel consumption. Stripper harvesters left less cotton in the field, but most of the cotton left by the picker was of low quality. While the time spent in each operation of harvest was highly dependent on the operator and support equipment available, in general, picker harvesters were able to harvest a unit area of high-yielding cotton more quickly than stripper harvesters. The cost of ginning picked and stripped cotton was evaluated considering current fee schedules from gins on the High Plains. On average, it cost a producer $4.76 more per bale to gin stripped-and-field-cleaned cotton than picked cotton. Fiber quality parameters were compared between harvest treatments based on results from High Volume Instrument (HVI) and Advanced Fiber Information System (AFIS) tests. Samples were ring-spun into carded and carded-and-combed yarns. Differences in fiber quality between harvest treatments were more pronounced when growing conditions were less favorable. Few differences were detected in carded yarn quality between harvest treatments, while more pronounced differences favoring picked cotton were seen in carded-and-combed yarns. A cost-benefit analysis was conducted to determine the production scenarios in which picker and stripper harvesters were most appropriate. Results indicate that, if a producer has sufficient yields coupled with sufficient area to harvest per machine, picker harvesting is a more profitable alternative to producers of on the High Plains.

cotton

picker

stripper

fiber quality

yarn quality

time-in-motion

Quebra molecular em ambiente de baixa pressão: caracterização de um stripper gasoso para a implementação de um sistema AMS de baixas energias / Molecular break up process under low pressure conditions: characterization of a gaseous stripper for the implementation of a low energy AMS

Carmignotto, Marco Antonio Pannunzio

07 April 2010

O objetivo desse trabalho foi estudar a viabilidade de adaptação do Implantador Iônico da Universidade de São Paulo para a técnica de Accelerator Mass Spectrometry (AMS), tendo em vista as baixas energias utilizadas por este acelerador de partículas. A técnica de AMS, amplamente utilizada para a análise de Carbono-14 no estudo de datação de fósseis, requer que algum componente do acelerador garanta a quebra de moléculas de massa 14, contaminantes no processo de medição dos átomos de carbono com massa 14. Com a utilização de energias da ordem de dezenas de keV no acelerador, o estudo do processo de quebra de moléculas para estas energias foi realizado através do projeto, construção e caracterização de um stripper gasoso. Para caracterizar o stripper implementado foram realizadas medidas de seção de choque para troca de carga do feixe e quebra molecular em função da pressão de gás injetado no stripper. Também investigou-se a influência do átomo utilizado como gás, através de três diferentes gases injetados no stripper: Hélio, Argônio e Xenônio. Alguns feixes posivos foram produzidos no Implantador para o estudo destas seções de choques: Ar+, Ar(2+), CO+, CO2(+) e O2(+). O projeto do stripper foi idealizado para minimizar a variação de pressão no interior do implantador, visando preservar as condições da fonte de íons. Curvas de perfil de pressão de gás dentro do tubo do stripper foram calculadas segundo as teorias da Tecnologia do Vácuo que permitiram tanto a estimativa desta variação quanto a quantidade de gás no interior do stripper. Também foram realizados estudos do perfil de pressão em stripper com outras geometrias (cônicas abertas e fechadas), buscando estimar a otimização da espessura do stripper em função da injeção de gás em sua base. Baseando-se nos resultados, foram apontadas mudanças necessárias no atual estágio de adaptação desse acelerador de partículas para que se torne possível a concepção de um sistema AMS em sua linha de pesquisa. / The present work aimed on studying the feasibility of adapting the Ion Implanter of University of Sao Paulo to the Accelerator Mass Spectrometry technique, taking into account the low energies employed by this type of particle accelerator. The AMS technique, largely applied to the Carbon-14 analysis for fossil dating, requires the breaking of molecules with mass 14 by some component in the accelerator, since these lead to interference on the Carbon-14 counting process. By employing energies on the level of keV in the accelerator, the study of the breaking process of the molecules for this energy was accomplished by means desiring, building and characterization of a gaseous stripper. In order to characterize the installed stripper, measurements were taken of the charge state exchange and molecular break up process as a function of the pressure of the gas injection into the stripper. The influence of the atom employed as gas was also investigated. The experiments were realized with the following different gases: Helium, Argon and Xenon. Some positive beams were produced on the implanter: Ar+, \\Ar(2+), CO+, CO2(+) and O2(+). The designed stripper was idealized to minimize the pressure variation on the inside of the implanter in order to preserve the conditions of the ion source. Pressure profiles of the gas inside the stripper were calculated according to the Vacuum Technology theory, which allowed estimating the quantity of gas inside the stripper. Studies on the pressure profile for different stripper geometries (open and closed conic forms) were also carried out to estimate the optimization of the stripper thickness as a function of the gas injection on its base. Based on the results, specifications for further work and changes on the current system were listed to make it possible to implement the AMS system.

AMS

AMS

Applied Physics

Feixe de Íons

Física Aplicada

Gaseous Stripper

Implantador Iônico

Ion Beam

Ion Implanter

Molecular Break Up

Quebra Molecular

Stripper Gasoso

Quebra molecular em ambiente de baixa pressão: caracterização de um stripper gasoso para a implementação de um sistema AMS de baixas energias / Molecular break up process under low pressure conditions: characterization of a gaseous stripper for the implementation of a low energy AMS

Marco Antonio Pannunzio Carmignotto

07 April 2010

O objetivo desse trabalho foi estudar a viabilidade de adaptação do Implantador Iônico da Universidade de São Paulo para a técnica de Accelerator Mass Spectrometry (AMS), tendo em vista as baixas energias utilizadas por este acelerador de partículas. A técnica de AMS, amplamente utilizada para a análise de Carbono-14 no estudo de datação de fósseis, requer que algum componente do acelerador garanta a quebra de moléculas de massa 14, contaminantes no processo de medição dos átomos de carbono com massa 14. Com a utilização de energias da ordem de dezenas de keV no acelerador, o estudo do processo de quebra de moléculas para estas energias foi realizado através do projeto, construção e caracterização de um stripper gasoso. Para caracterizar o stripper implementado foram realizadas medidas de seção de choque para troca de carga do feixe e quebra molecular em função da pressão de gás injetado no stripper. Também investigou-se a influência do átomo utilizado como gás, através de três diferentes gases injetados no stripper: Hélio, Argônio e Xenônio. Alguns feixes posivos foram produzidos no Implantador para o estudo destas seções de choques: Ar+, Ar(2+), CO+, CO2(+) e O2(+). O projeto do stripper foi idealizado para minimizar a variação de pressão no interior do implantador, visando preservar as condições da fonte de íons. Curvas de perfil de pressão de gás dentro do tubo do stripper foram calculadas segundo as teorias da Tecnologia do Vácuo que permitiram tanto a estimativa desta variação quanto a quantidade de gás no interior do stripper. Também foram realizados estudos do perfil de pressão em stripper com outras geometrias (cônicas abertas e fechadas), buscando estimar a otimização da espessura do stripper em função da injeção de gás em sua base. Baseando-se nos resultados, foram apontadas mudanças necessárias no atual estágio de adaptação desse acelerador de partículas para que se torne possível a concepção de um sistema AMS em sua linha de pesquisa. / The present work aimed on studying the feasibility of adapting the Ion Implanter of University of Sao Paulo to the Accelerator Mass Spectrometry technique, taking into account the low energies employed by this type of particle accelerator. The AMS technique, largely applied to the Carbon-14 analysis for fossil dating, requires the breaking of molecules with mass 14 by some component in the accelerator, since these lead to interference on the Carbon-14 counting process. By employing energies on the level of keV in the accelerator, the study of the breaking process of the molecules for this energy was accomplished by means desiring, building and characterization of a gaseous stripper. In order to characterize the installed stripper, measurements were taken of the charge state exchange and molecular break up process as a function of the pressure of the gas injection into the stripper. The influence of the atom employed as gas was also investigated. The experiments were realized with the following different gases: Helium, Argon and Xenon. Some positive beams were produced on the implanter: Ar+, \\Ar(2+), CO+, CO2(+) and O2(+). The designed stripper was idealized to minimize the pressure variation on the inside of the implanter in order to preserve the conditions of the ion source. Pressure profiles of the gas inside the stripper were calculated according to the Vacuum Technology theory, which allowed estimating the quantity of gas inside the stripper. Studies on the pressure profile for different stripper geometries (open and closed conic forms) were also carried out to estimate the optimization of the stripper thickness as a function of the gas injection on its base. Based on the results, specifications for further work and changes on the current system were listed to make it possible to implement the AMS system.

AMS

Feixe de Íons

Física Aplicada

Implantador Iônico

Quebra Molecular

Stripper Gasoso

AMS

Applied Physics

Gaseous Stripper

Ion Beam

Ion Implanter

Molecular Break Up