Constraining sources of atmospheric trace constituents with Lagrangian particle dispersion modeling

Benmergui, Joshua

January 2013

This manuscript based thesis examines and advances methods for constraining sources of atmospheric trace constituents with a Lagrangian particle dispersion model. The method of Bayesian inversion is demonstrated, and a new method is introduced to a class of similar problems where established methods are not applicable. First, A new regression based methodology was developed and applied to observations of atmospheric methanesulfonic acid mass concentrations at Alert, Nunavut. The methodology was used to compare the importance of phytoplankton blooms vs. the ice-free ocean as sources of the dimethylsulfide precursor, and to compare the importance of bromine monoxide vs. hydroxyl as agents oxidizing dimethylsul de to methanesulfonic acid. These issues are relevant to the application of methanesulfonic acid concentrations in ice cores to determine historic sea ice properties. The analysis indicated that source regions to Alert during the spring are primarily ice-free ocean with a significant contribution from ice edge blooms, and during the summer to be dominated by the ice-free ocean. The model also indicated that oxidation of DMS by BrO was the dominant source of MSA in the spring, while DMS oxidation by OH was the dominant source in the summer. Secondly, Bayesian inversion was applied to observations of atmospheric elemental carbon mass concentrations at Tsinghua University in Beijing, China. The analysis provided evidence that current bottom-up elemental carbon emissions estimates in northern China are likely underpredicted. Global chemical transport models show ubiquitous underestimates of the atmospheric burden of elemental carbon, especially near large sources of emissions. Northern China is among the regions with the most intensive elemental carbon emissions in the world, and an underestimate of emissions in this region may be partially responsible for the global chemical transport model underestimates.

atmospheric contaminant transport

Lagrangian particle dispersion model

inverse modeling

atmospheric emissions

methanesulfonic acid

elemental carbon

Earth Sciences

Synthesis and Characterisation of NASICON-Type Structured Lithium-Ion Conductors with Dielectric Particle Dispersion / 誘電体粒子を分散したNASICON型リチウムイオン伝導体の合成とキャラクタリゼーション

SONG, Fangzhou

23 March 2022

京都大学 / 新制・課程博士 / 博士(エネルギー科学) / 甲第24002号 / エネ博第438号 / 新制||エネ||83(附属図書館) / 京都大学大学院エネルギー科学研究科エネルギー基礎科学専攻 / (主査)准教授 高井 茂臣, 教授 萩原 理加, 教授 佐川 尚 / 学位規則第4条第1項該当 / Doctor of Energy Science / Kyoto University / DFAM

Solid-state electrolyte

NASICON-type lithium-ion conductor

Insulative particle dispersion

Space charge layer

Solid-state chemistry

501

In-line monitoring of carbon nanoparticle epoxy dispersion processes: Insights into the process via next generation three roll mills and impedance spectroscopy

Meeuw, H., Wisniewski, V. K., Köpke, U., Nia, A. S., Vázquez, A. R., Lohe, M. R., Feng, X., Fiedler, B.

17 July 2019

The new generation of three roll mills is able to monitor occurring process loads while dispersion. This paper focuses on the interpretation of the gathered data to find criteria quantifying the dispersion state online. The aim is process time reduction. We used impedance spectroscopy to identify the dispersion state and correlated it with the occurring process loads. The dispersion process of a wide spectrum of carbon based nano particles, namely carbon black, single walled carbon nanotubes, multi walled carbon nanotubes, a few-layer graphene powder, electrochemically exfoliated graphite and a functionalized electrochemically exfoliated graphite was investigated. The filler content was varied along the material’s electrical percolation threshold. The criteria found led to a reduction of processing time and revealed the prevalent mechanisms during dispersion.

info:eu-repo/classification/ddc/620

ddc:620

Modelling of Dust Emissions from Agricultural Sources in Europe

Faust, Matthias

07 February 2024

Dust aerosol emission is a critical topic in agriculture, occurring either by aeolian process from bare or sparsely vegetated cropland or as fugitive emission during tilling, harvest and many other farming activities. Aerosols, which are in the case of agriculture either mineral dust, organic particles or a mixture, are known for impacting human health, cloud formation and ultimately, the earth’s climate and ecosystem. Coupled atmosphere and aerosol transport models are commonly used to study aerosol dispersion in the atmosphere, but so far, agricultural sources are under-represented. Hence, estimations of these emissions’ actual impact are still somewhat uncertain regarding their seasonality, spatial distribution and the fraction of the global aerosol load. To fill this gap, this study aims at identifying suitable approaches for modelling aeolian emissions from sparsely vegetated cropland and fugitive emissions from tilling. Fugitive emissions are challenging since they mainly depend on human activity that is not predictable, but observed events can be used as case studies. For this, a Lagrangian particle dispersion model was chosen, which can trace the trajectory of individual particles in the emitted dust plume. So the particle model “Itpas” was developed to tackle fugitive emissions and to be capable of simulating the complex turbulent mixing of dust particles inside the atmospheric boundary layer. This model was used to simulate a case study based on measured tilling emissions, showing the particle dispersion for a stable and unstable stratified boundary layer. It was shown that within a stably stratified boundary layer, the dust plume is restricted to the near-source region. In contrast, emissions in unstable boundary layers go into long-range transport. This illustrates the spatial range a single tillage operation can have an impact. Aeolian dust emissions are controlled by the wind. For cropland, the emission variability is caused mainly by the frequently changing vegetation cover. Emissions can only occur in the time between tillage and newly grown crops or during drought periods. A parametrisation based on high-resolution satellite observations of the vegetation cover was created to include this process into a model. With this, a new dust emission scheme for cropland emission was developed for the model system COSMO-MUSCAT. In a case study of a dust outbreak from cropland in Poland in 2019, the model’s ability was tested extensively on multiple spatial resolutions. Validation against satellite-measured AOD, ground-measured PM10 and the vertical profile of the PollyNET lidar in Warsaw showed an overall good agreement of the model simulation with the observations. In the framework of this thesis, one dedicated model approach was developed for both the fugitive emissions and the aeolian emissions and validated upon case studies. These approaches could help better understand agricultural dust emissions, their spatial distribution, seasonality and, ultimately, global impact.

info:eu-repo/classification/ddc/530

ddc:530

Direct numerical simulation of particle-laden turbulence in a straight square duct

Sharma, Gaurav

30 September 2004

Particle-laden turbulent flow through a straight square duct at Reτ = 300 is studied using direct numerical simulation (DNS) and Lagrangian particle tracking. A parallelized 3-D particle tracking direct numerical simulation code has been developed to perform the large-scale turbulent particle transport computations reported in this thesis. The DNS code is validated after demonstrating good agreement with the published DNS results for the same flow and Reynolds number. Lagrangian particle transport computations are carried out using a large ensemble of passive tracers and finite-inertia particles and the assumption of one-way fluid-particle coupling. Using four different types of initial particle distributions, Lagrangian particle dispersion, concentration and deposition are studied in the turbulent straight square duct. Particles are released in a uniform distribution on a cross-sectional plane at the duct inlet, released as particle pairs in the core region of the duct, distributed randomly in the domain or distributed uniformly in planes at certain heights above the walls. One- and two-particle dispersion statistics are computed and discussed for the low Reynolds number inhomogeneous turbulence present in a straight square duct. New detailed statistics on particle number concentration and deposition are also obtained and discussed.

DNS

Duct Flow

Aerosol

Lagrangian Particle Transport

Particle Tracking

Single Particle Dispersion

Particle Pair Dispersion

Particle Concentration

Particle Deposition

Turbulence

Computation.

Direct numerical simulation of particle-laden turbulence in a straight square duct

Sharma, Gaurav

30 September 2004

Particle-laden turbulent flow through a straight square duct at Reτ = 300 is studied using direct numerical simulation (DNS) and Lagrangian particle tracking. A parallelized 3-D particle tracking direct numerical simulation code has been developed to perform the large-scale turbulent particle transport computations reported in this thesis. The DNS code is validated after demonstrating good agreement with the published DNS results for the same flow and Reynolds number. Lagrangian particle transport computations are carried out using a large ensemble of passive tracers and finite-inertia particles and the assumption of one-way fluid-particle coupling. Using four different types of initial particle distributions, Lagrangian particle dispersion, concentration and deposition are studied in the turbulent straight square duct. Particles are released in a uniform distribution on a cross-sectional plane at the duct inlet, released as particle pairs in the core region of the duct, distributed randomly in the domain or distributed uniformly in planes at certain heights above the walls. One- and two-particle dispersion statistics are computed and discussed for the low Reynolds number inhomogeneous turbulence present in a straight square duct. New detailed statistics on particle number concentration and deposition are also obtained and discussed.

DNS

Duct Flow

Aerosol

Lagrangian Particle Transport

Particle Tracking

Single Particle Dispersion

Particle Pair Dispersion

Particle Concentration

Particle Deposition

Turbulence

Computation.

Conceitos para formulação de concretos com baixo consumo de ligantes: controle reológico, empacotamento e dispersão de partículas. / Concepts for designing low binder concretes: rheological control, packing and dispersion particles.

Damineli, Bruno Luís

25 October 2013

Devido à demanda dos países em desenvolvimento, a produção de cimento e as emissões de CO2 relacionadas aumenta progressivamente, colocando esta indústria sob pressão devido às preocupações com o aquecimento global. Como diminuir a produção não é uma opção sustentável do ponto de vista social, deve-se primar pela diminuição dos impactos ambientais mantendo-se o aumento da produção. Porém, as principais estratégias de redução das emissões substituição de clínquer por adições, aumento da eficiência de fornos e uso de combustíveis alternativos não são capazes de uma redução que compense o crescimento da produção, mesmo com a disseminação dos maiores esforços industriais possíveis, devido a limites tecnológicos e de disponibilidade de materiais. A captura e sequestro de carbono, por sua vez, pode vir a aumentar significativamente o custo do cimento, prejudicando justamente os países mais necessitados. Novas alternativas são necessárias. Uma delas, ainda pouco desenvolvida, é o aumento da eficiência do uso dos ligantes em materiais cimentícios, como os concretos. Esta tese tem o objetivo de explorar o potencial desta estratégia para contribuir à mitigação das emissões de CO2 da cadeia concreto/cimento. O êxito nesta tarefa tem relação direta com o uso de ferramentas de empacotamento e dispersão de partículas para permitir comportamento reológico adequado à aplicação com uso de menor teor de água na mistura. O trabalho foi dividido em três etapas: 1) levantamento de dados para criação de benchmark da tecnologia atual de concretos com relação e eficiência no uso dos ligantes através de dois indicadores de eficiência Índice de Ligantes (IL) e Índice de CO2 (IC); 2) levantamento da teoria de empacotamento e dispersão de partículas; e 3) estudo experimental demonstrando como a eficiência do uso dos ligantes pode ser aumentada através da aplicação dos conceitos da etapa 2, do controle mais preciso do comportamento reológico e do uso de finos inertes para substituir clínquer para obtenção de parâmetros reológicos. Concluiu-se que o potencial de aumento da eficiência é superior a 50%. Porém, sua implantação em escala comercial dependeria de aumento do controle tecnológico das dosagens de concreto e de profundas modificações na cadeia produtiva e na definição de agregados, fillers, cimento e ligantes. / Due to the increasing demand of developing countries, cement production and related CO2 emissions increases steadily, putting industry under pressure due to global warming constraints. As decreasing production is not a sustainable option from social point of view, environmental loads need to be decreased even maintaining the increase of production. However, current strategies for reducing emissions clinker replacement by mineral additions, increase of kiln efficiency and the use of alternative fuels are not capable of a reduction which could compensate the increasing in production, even with the dissemination of highest industrial efforts due to technological and materials availability limits. Carbon capture and storage, by the time, could increase significantly cement cost, which could harm exactly the neediest countries. New alternatives are needed. One of them, few developed yet, is increasing the efficiency of binder use on cementitious materials, such as concretes. This thesis has the aim of exploring the potential of this strategy for contributing to the mitigation of CO2 emissions of concrete/cement chain. The success in this task is directly related to the use of tools of packing and dispersion of particles for allowing an adequate rheological behavior for the application but with a lower water content in the mixture. The thesis was divided in three main steps: 1) literature research for creating a benchmark of current concrete technology in terms of binder efficiency by two efficiency indexes Binder Intensity (BI) and CO2 Intensity (CI); 2) research of particles packing and dispersion theory; and 3) experimental planning for demonstrating how the binder use efficiency can be significantly increased by the use of concepts from step 2, a more precise rheological behavior control and the use of inert fillers for replacing clinker to obtain rheological parameters. It could be concluded that the potential of efficiency increase is higher than 50%. However, the implantation in commercial scale would depend on the increase of technological control in concrete designs, and also on deep changes in the productive chain and in the definitions of aggregates, fillers, cement and binders.

Aquecimento global

Binder

Cement

Cimento

CO2

CO2

Concrete

Concreto

Dispersão de partículas

Efficiency

Eficiência

Empacotamento de partículas

Filler

Filler

Global warming

Ligantes

Optimization

Otimização

Particle dispersion

Particle packing

Reologia

Rheology

Sustainability

Sustentabilidade

Conceitos para formulação de concretos com baixo consumo de ligantes: controle reológico, empacotamento e dispersão de partículas. / Concepts for designing low binder concretes: rheological control, packing and dispersion particles.

Bruno Luís Damineli

25 October 2013

Devido à demanda dos países em desenvolvimento, a produção de cimento e as emissões de CO2 relacionadas aumenta progressivamente, colocando esta indústria sob pressão devido às preocupações com o aquecimento global. Como diminuir a produção não é uma opção sustentável do ponto de vista social, deve-se primar pela diminuição dos impactos ambientais mantendo-se o aumento da produção. Porém, as principais estratégias de redução das emissões substituição de clínquer por adições, aumento da eficiência de fornos e uso de combustíveis alternativos não são capazes de uma redução que compense o crescimento da produção, mesmo com a disseminação dos maiores esforços industriais possíveis, devido a limites tecnológicos e de disponibilidade de materiais. A captura e sequestro de carbono, por sua vez, pode vir a aumentar significativamente o custo do cimento, prejudicando justamente os países mais necessitados. Novas alternativas são necessárias. Uma delas, ainda pouco desenvolvida, é o aumento da eficiência do uso dos ligantes em materiais cimentícios, como os concretos. Esta tese tem o objetivo de explorar o potencial desta estratégia para contribuir à mitigação das emissões de CO2 da cadeia concreto/cimento. O êxito nesta tarefa tem relação direta com o uso de ferramentas de empacotamento e dispersão de partículas para permitir comportamento reológico adequado à aplicação com uso de menor teor de água na mistura. O trabalho foi dividido em três etapas: 1) levantamento de dados para criação de benchmark da tecnologia atual de concretos com relação e eficiência no uso dos ligantes através de dois indicadores de eficiência Índice de Ligantes (IL) e Índice de CO2 (IC); 2) levantamento da teoria de empacotamento e dispersão de partículas; e 3) estudo experimental demonstrando como a eficiência do uso dos ligantes pode ser aumentada através da aplicação dos conceitos da etapa 2, do controle mais preciso do comportamento reológico e do uso de finos inertes para substituir clínquer para obtenção de parâmetros reológicos. Concluiu-se que o potencial de aumento da eficiência é superior a 50%. Porém, sua implantação em escala comercial dependeria de aumento do controle tecnológico das dosagens de concreto e de profundas modificações na cadeia produtiva e na definição de agregados, fillers, cimento e ligantes. / Due to the increasing demand of developing countries, cement production and related CO2 emissions increases steadily, putting industry under pressure due to global warming constraints. As decreasing production is not a sustainable option from social point of view, environmental loads need to be decreased even maintaining the increase of production. However, current strategies for reducing emissions clinker replacement by mineral additions, increase of kiln efficiency and the use of alternative fuels are not capable of a reduction which could compensate the increasing in production, even with the dissemination of highest industrial efforts due to technological and materials availability limits. Carbon capture and storage, by the time, could increase significantly cement cost, which could harm exactly the neediest countries. New alternatives are needed. One of them, few developed yet, is increasing the efficiency of binder use on cementitious materials, such as concretes. This thesis has the aim of exploring the potential of this strategy for contributing to the mitigation of CO2 emissions of concrete/cement chain. The success in this task is directly related to the use of tools of packing and dispersion of particles for allowing an adequate rheological behavior for the application but with a lower water content in the mixture. The thesis was divided in three main steps: 1) literature research for creating a benchmark of current concrete technology in terms of binder efficiency by two efficiency indexes Binder Intensity (BI) and CO2 Intensity (CI); 2) research of particles packing and dispersion theory; and 3) experimental planning for demonstrating how the binder use efficiency can be significantly increased by the use of concepts from step 2, a more precise rheological behavior control and the use of inert fillers for replacing clinker to obtain rheological parameters. It could be concluded that the potential of efficiency increase is higher than 50%. However, the implantation in commercial scale would depend on the increase of technological control in concrete designs, and also on deep changes in the productive chain and in the definitions of aggregates, fillers, cement and binders.

Aquecimento global

Cimento

CO2

Concreto

Dispersão de partículas

Eficiência

Empacotamento de partículas

Filler

Ligantes

Otimização

Reologia

Sustentabilidade

Binder

Cement

CO2

Concrete

Efficiency

Filler

Global warming

Optimization

Particle dispersion

Particle packing

Rheology

Sustainability

In‑line monitoring of carbon nanoparticle epoxy dispersion processes

Meeuw, Hauke, Wisniewski, Valea Kim, Köpke, U., Nia, Ali Shaygan, Romaní Vázquez, Adrián, Lohe, Martin Rudolf, Feng, Xinliang, Fiedler, Bodo

29 April 2020

The new generation of three roll mills is able to monitor occurring process loads while dispersion. This paper focuses on the interpretation of the gathered data to find criteria quantifying the dispersion state online. The aim is process time reduction. We used impedance spectroscopy to identify the dispersion state and correlated it with the occurring process loads. The dispersion process of a wide spectrum of carbon based nano particles, namely carbon black, single walled carbon nanotubes, multi walled carbon nanotubes, a few-layer graphene powder, electrochemically exfoliated graphite and a functionalized electrochemically exfoliated graphite was investigated. The filler content was varied along the material’s electrical percolation threshold. The criteria found led to a reduction of processing time and revealed the prevalent mechanisms during dispersion.

info:eu-repo/classification/ddc/620

ddc:620

info:eu-repo/classification/ddc/670.5

ddc:670.5

info:eu-repo/classification/ddc/650

ddc:650

Erfassung und Auswertung von Ultraschallechosignalen zur Charakterisierung konzentrierter disperser Stoffsysteme

Weser, Robert

01 December 2014

Die Charakterisierung von Dispersionen hat das Ziel, die Zusammensetzung und den Zustand von partikelhaltigen Stoffgemischen zu erfassen. Vor allem der Zustand der dispersen Phase (Partikel), der wiederum von der Größe und der Konzentration der Partikel bestimmt wird, ist in diesem Zusammenhang von besonderer Bedeutung. Neben optischen Verfahren, wie der Laserbeugung oder der Lichtstreuung, ist die Anwendung von akustischen Methoden vor allem dann sinnvoll, wenn die zu untersuchenden dispersen Stoffgemische opak und optische Methoden nur noch eingeschränkt (nach Verdünnung) anwendbar sind. Derartige Dispersionen weisen oftmals eine hohe Partikelkonzentration auf. Die Erfassung und Auswertung von Ultraschallechosignalen aus konzentrierten Dispersionen stellt einen neuartigen Ansatz innerhalb der akustischen Partikelmesstechnik dar. Im Rahmen der vorliegenden Arbeit wurden theoretische und experimentelle Untersuchungen zum Ultraschallrückstreuverhalten von konzentrierten Dispersionen im unteren Megahertzbereich durchgeführt. Die messtechnische Erfassung der von der Dispersion reflektierten Schallanteile stellte eine besondere Herausforderung dar. Vor allem bei Partikeln, die klein gegenüber der Wellenlänge des Schalls sind oder einen geringen akustischen Kontrast gegenüber der kontinuierlichen Phase aufweisen, ist ein entsprechend schwaches Echosignal zu erwarten. Im Ergebnis der durchgeführten Untersuchungen zeigt sich eine hohe Sensitivität des akustischen Rückstreuverhaltens gegenüber der Zusammensatzung der Dispersion. Vor allem in konzentrierten Dispersionen kann die Messung direkt, d. h. ohne vorherige Verdünnung durchgeführt werden. Dieser Umstand prädestiniert das entwickelte Messverfahren für den Einsatz innerhalb der prozessnahen Charakterisierung von Partikelsystemen, beispielsweise bei Nasszerkleinerungs- oder Kristallisationsprozessen. Bei derartigen Prozessen ist eine Probenahme und Probenaufbereitung nicht oder nur eingeschränkt möglich.

info:eu-repo/classification/ddc/620

ddc:620