Cálculo do inventário de emissões de gases efeito estufa, estudo de caso em uma indústria química / Inventory calculation of greenhouse gas emissions, a case study in a chemical plant

Elzbieta Mitkiewicz

30 November 2007

O Painel Intergovernamental de Mudanças Climáticas da ONU (IPCC) tem comprovado com nível de confiança cada vez maior, ao longo dos últimos anos, a forte relação entre o aumento da temperatura média global e o aumento dos gases de efeito estufa (GEEs) principalmente quanto ao gás que mais contribui para a composição desses gases: o gás carbônico ou CO2. O Brasil se insere no rol dos emissores desse gás, principalmente devido ao desmatamento das reservas florestais que possui. Assim, assumiu o compromisso na Convenção Quadro das Nações Unidas sobre Mudanças Climáticas (United Nations Framework Convention on Climate Change UNFCCC) de estabilizar suas emissões e inventariar periodicamente os seus GEEs. Dentro deste contexto, cabe também à indústria levantar sua parcela de responsabilidade significativa neste processo ameaçador para a vida no planeta terra. Desta forma, o principal objetivo do presente trabalho foi o de levantar e contabilizar o Inventário dos GEEs emitidos em 2006 por uma empresa que produz importantes insumos para a indústria de petróleo. A pesquisa bibliográfica sobre a metodologia mais adequada e sua aplicação para a empresa em estudo foram os principais objetivos específicos. A autora não encontrou fatores de emissão de CO2 (kg CO2/TJ do combustível, detalhado no decorrer deste trabalho) desenvolvidos no Brasil para levantar o inventário, com um nível razoável de confiança, que reflita a situação real e local. Toda a pesquisa bibliográfica feita mostrou que os trabalhos realizados mesmo por órgãos governamentais brasileiros usaram a metodologia do IPCC (versão anterior à usada neste trabalho) que foi elaborada por países desenvolvidos, que não é o nosso caso ou realidade. Foram feitas diversas visitas à empresa, levantadas todas as fontes potenciais de emissão, consumos e características de todos os combustíveis usados, bem como o levantamento do trabalho desenvolvido sobre geração de mudas de plantas no seu horto. Através de cálculos por essa metodologia reconhecida mundialmente (IPCC) a autora encontrou um valor em torno de 76.000 toneladas de CO2 emitidos pela empresa em 2006. A empresa neutralizou cerca de 80 toneladas de CO2, através da produção de mudas (para doação e plantio em torno de uma área que é um passivo ambiental) em seu horto e o que plantou na área desse passivo em 2006. Isso significou cerca de 0,1% do que emitiu / The Intergovernamental Panel Climate Change - IPCC from ONU has proved with higher level of confidence, along last years, a strong relation between the global average temperature increasing and the Greenhouse Gases increasing mainly about the biggest contributor to the composition in these gases: the carbonic gas or CO2. Brazil is included in the list of these gas polluters, mainly because of its deforestation. Then, it assumed the commitment with United Nations Framework Convention on Climate Change UNFCCC of stabilize and calculate his Greenhouse Gases (GHG) Inventory. In this context, the industries must to survey their part of responsibility in this threatening process for the life in this planet. For the reasons above, the main purpose from the present work is to calculate the Greenhouse Gases emissions inventory in 2006 from a enterprise that produces important inputs for a petroleum industry. The specific purposes were to research the bibliography about the most suitable methodology and its application for this enterprise. The author of this work didnt find any emission factors for CO2 developed in Brazil for calculate the inventory, with a reasonable level of confidence, which can show the real and local situation about this subject. Then, the entire bibliographic search done showed that the works found even in governmental institutions used the IPCC methodology, done by developed countries, that isnt our reality. For this study, it was done several visits to that enterprise and identified all the sources from these GHG, fuel uses and their quantities and intensive bibliographic searches about several national and international methodologies. It was seen the developed work done by this enterprise about generation of seedling (plants) in its market garden. It was chosen the IPCC methodology that was the tool to calculate about 76.000 t of CO2 emitted by the enterprise in 2006. This studied enterprise neutralized 80 t of CO2, through the production of plants cuttings (for donation to people and to plant in around an area that is an environmental passive) in its market garden and what it planted in that passive area in 2006. This was about 0,1% on that it emitted

Greenhouse gases emissions inventory

ENGENHARIA QUIMICA

Cálculo do inventário de emissões de gases efeito estufa, estudo de caso em uma indústria química / Inventory calculation of greenhouse gas emissions, a case study in a chemical plant

Elzbieta Mitkiewicz

30 November 2007

O Painel Intergovernamental de Mudanças Climáticas da ONU (IPCC) tem comprovado com nível de confiança cada vez maior, ao longo dos últimos anos, a forte relação entre o aumento da temperatura média global e o aumento dos gases de efeito estufa (GEEs) principalmente quanto ao gás que mais contribui para a composição desses gases: o gás carbônico ou CO2. O Brasil se insere no rol dos emissores desse gás, principalmente devido ao desmatamento das reservas florestais que possui. Assim, assumiu o compromisso na Convenção Quadro das Nações Unidas sobre Mudanças Climáticas (United Nations Framework Convention on Climate Change UNFCCC) de estabilizar suas emissões e inventariar periodicamente os seus GEEs. Dentro deste contexto, cabe também à indústria levantar sua parcela de responsabilidade significativa neste processo ameaçador para a vida no planeta terra. Desta forma, o principal objetivo do presente trabalho foi o de levantar e contabilizar o Inventário dos GEEs emitidos em 2006 por uma empresa que produz importantes insumos para a indústria de petróleo. A pesquisa bibliográfica sobre a metodologia mais adequada e sua aplicação para a empresa em estudo foram os principais objetivos específicos. A autora não encontrou fatores de emissão de CO2 (kg CO2/TJ do combustível, detalhado no decorrer deste trabalho) desenvolvidos no Brasil para levantar o inventário, com um nível razoável de confiança, que reflita a situação real e local. Toda a pesquisa bibliográfica feita mostrou que os trabalhos realizados mesmo por órgãos governamentais brasileiros usaram a metodologia do IPCC (versão anterior à usada neste trabalho) que foi elaborada por países desenvolvidos, que não é o nosso caso ou realidade. Foram feitas diversas visitas à empresa, levantadas todas as fontes potenciais de emissão, consumos e características de todos os combustíveis usados, bem como o levantamento do trabalho desenvolvido sobre geração de mudas de plantas no seu horto. Através de cálculos por essa metodologia reconhecida mundialmente (IPCC) a autora encontrou um valor em torno de 76.000 toneladas de CO2 emitidos pela empresa em 2006. A empresa neutralizou cerca de 80 toneladas de CO2, através da produção de mudas (para doação e plantio em torno de uma área que é um passivo ambiental) em seu horto e o que plantou na área desse passivo em 2006. Isso significou cerca de 0,1% do que emitiu / The Intergovernamental Panel Climate Change - IPCC from ONU has proved with higher level of confidence, along last years, a strong relation between the global average temperature increasing and the Greenhouse Gases increasing mainly about the biggest contributor to the composition in these gases: the carbonic gas or CO2. Brazil is included in the list of these gas polluters, mainly because of its deforestation. Then, it assumed the commitment with United Nations Framework Convention on Climate Change UNFCCC of stabilize and calculate his Greenhouse Gases (GHG) Inventory. In this context, the industries must to survey their part of responsibility in this threatening process for the life in this planet. For the reasons above, the main purpose from the present work is to calculate the Greenhouse Gases emissions inventory in 2006 from a enterprise that produces important inputs for a petroleum industry. The specific purposes were to research the bibliography about the most suitable methodology and its application for this enterprise. The author of this work didnt find any emission factors for CO2 developed in Brazil for calculate the inventory, with a reasonable level of confidence, which can show the real and local situation about this subject. Then, the entire bibliographic search done showed that the works found even in governmental institutions used the IPCC methodology, done by developed countries, that isnt our reality. For this study, it was done several visits to that enterprise and identified all the sources from these GHG, fuel uses and their quantities and intensive bibliographic searches about several national and international methodologies. It was seen the developed work done by this enterprise about generation of seedling (plants) in its market garden. It was chosen the IPCC methodology that was the tool to calculate about 76.000 t of CO2 emitted by the enterprise in 2006. This studied enterprise neutralized 80 t of CO2, through the production of plants cuttings (for donation to people and to plant in around an area that is an environmental passive) in its market garden and what it planted in that passive area in 2006. This was about 0,1% on that it emitted

Greenhouse gases emissions inventory

ENGENHARIA QUIMICA

City of San Luis Obispo: Community and Municipal Operations 2005 Baseline Greenhouse Gas Emissions Inventory

Chiapella, Geoffrey M.

01 March 2010

The passage of AB 32 in 2006 initiated the need for city planners in California to consider the quantification of greenhouse gas emissions at the community level in order to develop policies and programs to reduce emissions in the future. Although local jurisdictions are not required to quantify and report emissions at this time, the AB 32 Climate Change Scoping Plan recommended a reduction goal for local governments of 15 percent below today’s levels by 2020 to ensure consistent reduction goals at the state and local levels. ICLEI-Local Governments for Sustainability initiated the Cities for Climate Protection (CCP) campaign in 1993, which provides a framework for local governments to develop a baseline emissions inventory and identify reduction measures as part of a climate action plan. This inventory is developed under the framework of the CCP campaign. A review of the current practice of local greenhouse gas emissions inventories in California identified significant consistencies across jurisdictions in the overall framework of community and municipal emissions inventories– due largely to the framework provided by the CCP campaign. However, data sources used and methods of measurement vary greatly among local inventories, which limit the ability to compare results. This highlights the need for a standard reporting protocol for community inventories. This baseline emissions inventory document provides the technical information necessary for the city to set reduction goals and facilitates the development of the climate action plan outlining policies and programs that when implemented would reach those goals.

greenhouse gas emissions inventory

climate change

AB 32

ICLEI

CCP campaign

Sustainability

Urban, Community and Regional Planning

Characterization of Urban Air Pollutant Emissions by Eddy Covariance using a Mobile Flux Laboratory

Klapmeyer, Michael Evan

30 May 2012

Air quality management strategies in the US are developed largely from estimates of emissions, some highly uncertain, rather than actual measurements. Improved knowledge based on measurements of real-world emissions is needed to increase the effectiveness of these strategies. Consequently, the objectives of this research were to (1) quantify relationships among urban emissions sources, land use, and demographics, (2) determine the spatial and temporal variability of emissions, and (3) evaluate the accuracy of official emissions estimates. These objectives guided three field campaigns that employed a unique mobile laboratory equipped to measure pollutant fluxes by eddy covariance. The first campaign, conducted in Norfolk, Virginia, represented the first time fluxes of nitrogen oxides (NO_x) were measured by eddy covariance in an urban environment. Fluxes agreed to within 10% of estimates in the National Emissions Inventory (NEI), but were three times higher than those of an inventory used for air quality modeling and planning. Additionally, measured fluxes were correlated with road density and increased development. The second campaign took place in the Tijuana-San Diego border region. Distinct spatial differences in fluxes of carbon dioxide (CO₂), NO_x, and particles were revealed across four sampling locations with the lowest fluxes occurring in a residential neighborhood and the highest ones at a port of entry characterized by heavy motor vehicle traffic. Additionally, observed emissions of NO_x and carbon monoxide were significantly higher than those in emissions inventories, suggesting the need for further refinement of the inventories. The third campaign focused on emissions at a regional airport in Roanoke, Virginia. NOx and particle number emissions indices (EIs) were calculated for aircraft, in terms of grams of pollutant emitted per kilogram of fuel burned. Observed NO_x EIs were ~20% lower than those in an international databank. NO_x EIs from takeoffs were significantly higher than those from taxiing, but relative differences for particle EIs were mixed. Observed NO_x fluxes at the airport agreed to within 25% of estimates derived from the NEI. The results of this research will provide greater knowledge of urban impacts to air quality and will improve associated management strategies through increased accuracy of official emissions estimates. / Ph. D.

particulate matter

black carbon

flux

eddy covariance

nitrogen oxides

carbon dioxide

National Emissions Inventory

Carbon Regulated Supply Chain Management

Cansiz, Selcan

01 September 2010

In this study, carbon dioxide emissions resulting from transportation are assessed, carbon emission reduction opportunities in the current service supply chain design of Cisco Systems, Inc. are explored. Among these opportunities, changing transport mode from a high-carbon transport mode to a low-carbon transport mode is found to be the most promising option and is scrutinized. The effect of transportation mode change on carbon emission and expected total cost are scrutinized by developing a mathematical model that minimizes expected total cost subject to aggregate fill rate constraint. Furthermore, a second model that minimizes the expected total cost under aggregate expected fill rate and carbon emission constraints is developed. In this model transportation mode choice decisions are integrated into inventory decisions. Since it is difficult to make transportation mode selection for each individual item, the items are clustered and transportation mode selection is made for each cluster. Therefore we propose two clustering methods that are k-means clustering and an adopted ABC analysis. In addition, a greedy algorithm based on second model is developed. Since currently there are no regulations on carbon emissions, in order to examine possible regulation scenarios computational studies are carried out. In these studies, efficient solutions are generated and the most preferred solutions that have less carbon emission and lower total cost among all efficient solutions are examined.

Investigation of Mercury Use, Release, Deposition, and Exposures in the Tampa Bay Area

Michael, Ryan Algernon

01 January 2013

I investigate the links between mercury use, release, deposition, and population exposure in Tampa Bay, with the focus of identifying levers for reducing population mercury exposures. To achieve this, I investigated the trends in mercury use and release by products and processes in the Tampa Bay area using a Material Flow Analysis. Analysis of USEPA National Emissions Inventory data over time (1999 - 2008) identified relevant air source emission categories, and explored and compared state and regional trends in mercury emissions. To understand source contributions to wet deposited mercury in the Tampa Bay area, I analyzed trends in mercury deposition data from the National Atmospheric Deposition Program, Mercury Deposition Network, and the 2001 Bay Regional Atmospheric Chemistry Experiment. I also collected wet deposition samples for mercury and trace metals in the Tampa Bay area during a 6-month campaign at a site at the University of South Florida (USF) campus. Samples were analyzed using Cold Vapor Atomic Fluorescence Spectrometry (CVAFS) for mercury, and Inductively Coupled Plasma Mass Spectrometry (ICP-MS) for trace metals analysis. Concentration data were analyzed for source contributions using HYSPLIT back-trajectory meteorology-based modeling to assess source locations, and the Positive Matrix Factorization (PMF) statistical receptor model to apportion the deposition data by source type. To explore the factors influencing fish consumption behaviors of the local angler population, I analyzed population surveys collected previously from fisher-folks along the Hillsborough River, in Hillsborough County, Florida. Results from the mercury inventory indicate that mercury releases from industrial sources and dental facilities were the most important sources of mercury to the Tampa Bay area. Furthermore, the solid-waste pool was the most important direct sink in the domain, with air emissions an important indirect sink. Emissions inventory data indicated that coal-fired power plants were the largest contributors of mercury emissions in the Tampa Bay area. Medical and municipal waste incineration also accounted for significant fractions of total mercury releases to the domain. Emissions from sources in Hillsborough County accounted for a significant portion of mercury emissions in the region and state. Measurement data indicated that event mercury concentration was only very weakly correlated with event precipitation depth, with both studies showing agreement with this phenomenon. Back-trajectory simulations reveal that high mercury concentration events were often from air masses with recent trajectories over Florida land (6 and 24 hr), and with previous high precipitation depth events over the trajectory in the long term (72 hr). The statistical PMF results indicate the importance of coal burning power plant emissions, medical and municipal waste incineration, and agrochemicals on mercury in wet deposition in the Tampa Bay area. Changes were observed between the 2001 and 2012 data, including greater mercury concentrations in 2012, and the removal of medical waste incineration as a mercury source in the 2012 model results. Together with local emissions inventory data, these results suggest that sources local to the Tampa Bay area and in Florida likely contribute substantially to mercury deposition in the region. Finally, population survey data suggests that mercury exposure risks are poorly understood by the fishing population in Hillsborough County. Taken together, these results suggest that policies targeting mercury emissions control, particurlarly for coal-fired power plants and municipal waste processing, and fish consumption education may be instrumental to the protection of susceptible populations.

emissions inventory

fish consumption

mercury

modeling

source apportionment

wet deposition

Environmental Engineering

Environmental Health and Protection

Environmental Sciences

A new heavy-duty vehicle visual classification and activity estimation method for regional mobile source emissions modeling

Yoon, Seungju

20 July 2005

For Heavy-duty vehicles (HDVs), the distribution of vehicle miles traveled (VMT) by vehicle type is the most significant parameters for onroad mobile source emissions modeling used in the development of air quality management and regional transportation plans. There are two approaches for the development of the HDV VMT distribution; one approach uses HDV registration data and annual mileage accumulation rates, and another uses HDV VMT counts/observations collected with the FHWA truck classification. For the purpose of emissions modeling, the FHWA truck classes are converted to those used by the MOBILE6.2 emissions rate model by using either the EPA guidance or the National Research Council conversion factors. However, both these approaches have uncertainties in the development of onroad HDV VMT distributions that can lead to large unknowns in the modeled HDV emissions. This dissertation reports a new heavy-duty vehicle visual classification and activity estimation method that minimizes uncertainties in current HDV conversion methods and the vehicle registration based HDV VMT estimation guidance. The HDV visual classification scheme called the X-scheme, which classifies HDV/truck classes by vehicle physical characteristics (the number of axles, gross vehicle weight ratings, tractor-trailer configurations, etc.) converts FHWA truck classes into EPA HDV classes without losing the original resolution of HDV/truck activity and emission characteristics. The new HDV activity estimation method using publicly available HDV activity databases minimizes uncertainties in the vehicle registration based VMT estimation method suggested by EPA. The analysis of emissions impact with the new method indicates that emissions with the EPA HDV VMT estimation guidance are underestimated by 22.9% and 25.0% for oxides of nitrogen and fine particulate matter respectively within the 20-county Atlanta metropolitan area. Because the new heavy-duty vehicle visual classification and activity estimation method has the ability to provide accurate HDV activity and emissions estimates, this method has the potential to significantly influence policymaking processes in regional air quality management and transportation planning. In addition, the ability to estimate link-specific emissions benefits Federal and local agencies in the development of project (microscale), regional (mesoscale), and national (macroscale) level air quality management and transportation plans.

X-Scheme

Heavy-duty vehicles

VMT estimation

Vehicle classification

Modal emission model

Emissions inventory

Trucks Classification

The impact of Beirut Rafic Hariri International Airport’s activities on the air quality of Beirut & its suburbs : measurements and modelling of VOCs and NO2 / Impact de l'aéroport Rafic Hariri sur la qualité de l'air de Beyrouth : mesure de modélisation des COVs et NO2

Mokalled, Tharwat

23 September 2016

Cette thèse étudie l’impact de l’Aéroport international de Beyrouth sur la qualité de l’air de Beyrouth et ses banlieues par mesures et modélisation des COVs et NO2. Il s’agit de la première étude qui identifie les signatures des émissions (COVs) issues des avions sous opération réelle. Grâce aux signatures détectées lors de 4 campagnes réalisées, nous constatons que l’aéroport a un impact sur la qualité de l’air de son voisinage, la zone côtière (trajectoire d’atterrissage), et les zones montagneuses. Ces résultats sont confirmés via le modèle ADMS-Airport, utilisé pour la première fois au Moyen-Orient et validé pour les conditions libanaises (r = 0.86). Par ailleurs, les concentrations de 47 COVs ont été mesurées pour la première fois à l'intérieur d’un bâtiment de l'aéroport. Les teneurs en COVs qui sont corrélées au nombre d’avions sont en dessous des valeurs seuils sauf pour l'acroléine alors que la celle de NO2 peut constituer un danger pour la santé. / This work mainly investigated the impact of Beirut Airport on the air quality of Beirut and its suburbs via both measurements and modeling of VOCs and NO2. This is the first study to determine VOC signatures of exhaust emissions from aircraft under real operation. Using these signatures, the impact of the airport activities was tracked in 4 transect campaigns, where it was found that the airport impacts air quality not only in its vicinity, but also on the seashore (landing jet trajectory) and in mountainous areas. These results were confirmed via modeling with ADMS-Airport, implemented for the first time in the Middle East, after being validated in the Lebanese conditions (r = 0.86). As a secondary goal, and for the first time, 47 VOCs were assessed inside an airport building. Measured VOC levels did not present any risks except for acrolein. In the arrivals hall, NO2 levels indicated a health hazard; while a direct relationship was found between aircraft number and VOC concentrations.

Aéroport

Composés organiques volatils

Dioxyde d’azote

Métrologie

Air ambiant

Air intérieur

Inventaire des emissions

Airport

Volatile organic compounds

Nitrogen dioxide

Meteorology

Ambient air

Indoor air

Emissions inventory

543

Investigation into submicrometer particle and gaseous emissions from airport ground running procedures

Mazaheri, Mandana

January 2009

Emissions from airport operations are of significant concern because of their potential impact on local air quality and human health. The currently limited scientific knowledge of aircraft emissions is an important issue worldwide, when considering air pollution associated with airport operation, and this is especially so for ultrafine particles. This limited knowledge is due to scientific complexities associated with measuring aircraft emissions during normal operations on the ground. In particular this type of research has required the development of novel sampling techniques which must take into account aircraft plume dispersion and dilution as well as the various particle dynamics that can affect the measurements of the aircraft engine plume from an operational aircraft. In order to address this scientific problem, a novel mobile emission measurement method called the Plume Capture and Analysis System (PCAS), was developed and tested. The PCAS permits the capture and analysis of aircraft exhaust during ground level operations including landing, taxiing, takeoff and idle. The PCAS uses a sampling bag to temporarily store a sample, providing sufficient time to utilize sensitive but slow instrumental techniques to be employed to measure gas and particle emissions simultaneously and to record detailed particle size distributions. The challenges in relation to the development of the technique include complexities associated with the assessment of the various particle loss and deposition mechanisms which are active during storage in the PCAS. Laboratory based assessment of the method showed that the bag sampling technique can be used to accurately measure particle emissions (e.g. particle number, mass and size distribution) from a moving aircraft or vehicle. Further assessment of the sensitivity of PCAS results to distance from the source and plume concentration was conducted in the airfield with taxiing aircraft. The results showed that the PCAS is a robust method capable of capturing the plume in only 10 seconds. The PCAS is able to account for aircraft plume dispersion and dilution at distances of 60 to 180 meters downwind of moving a aircraft along with particle deposition loss mechanisms during the measurements. Characterization of the plume in terms of particle number, mass (PM2.5), gaseous emissions and particle size distribution takes only 5 minutes allowing large numbers of tests to be completed in a short time. The results were broadly consistent and compared well with the available data. Comprehensive measurements and analyses of the aircraft plumes during various modes of the landing and takeoff (LTO) cycle (e.g. idle, taxi, landing and takeoff) were conducted at Brisbane Airport (BNE). Gaseous (NOx, CO2) emission factors, particle number and mass (PM2.5) emission factors and size distributions were determined for a range of Boeing and Airbus aircraft, as a function of aircraft type and engine thrust level. The scientific complexities including the analysis of the often multimodal particle size distributions to describe the contributions of different particle source processes during the various stages of aircraft operation were addressed through comprehensive data analysis and interpretation. The measurement results were used to develop an inventory of aircraft emissions at BNE, including all modes of the aircraft LTO cycle and ground running procedures (GRP). Measurements of the actual duration of aircraft activity in each mode of operation (time-in-mode) and compiling a comprehensive matrix of gas and particle emission rates as a function of aircraft type and engine thrust level for real world situations was crucial for developing the inventory. The significance of the resulting matrix of emission rates in this study lies in the estimate it provides of the annual particle emissions due to aircraft operations, especially in terms of particle number. In summary, this PhD thesis presents for the first time a comprehensive study of the particle and NOx emission factors and rates along with the particle size distributions from aircraft operations and provides a basis for estimating such emissions at other airports. This is a significant addition to the scientific knowledge in terms of particle emissions from aircraft operations, since the standard particle number emissions rates are not currently available for aircraft activities.