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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230223T120000
DTEND;TZID=America/New_York:20230223T130000
DTSTAMP:20260421T213337
CREATED:20230201T172447Z
LAST-MODIFIED:20230201T172447Z
UID:10000948-1677153600-1677157200@ccee.engr.it
SUMMARY:2023 Construction Engineering  Distinguished Speaker Series: The Importance of Leadership — Experiences of an NC State Construction Engineer
DESCRIPTION:Speaker: \nMike Lancaster \nPresident & CEO \nFrank L Blum Construction Company
URL:https://ccee.engr.it/event/2023-construction-engineering-distinguished-speaker-series-the-importance-of-leadership-experiences-of-an-nc-state-construction-engineer/
LOCATION:Fitts-Woolard Hall 3301\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230206T124500
DTEND;TZID=America/New_York:20230206T134500
DTSTAMP:20260421T213337
CREATED:20230131T032553Z
LAST-MODIFIED:20230131T032553Z
UID:10000947-1675687500-1675691100@ccee.engr.it
SUMMARY:EWC Seminar by Asmita Narode - Methods to measure heat generation from ash in landfills
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nFitts-Woolard Hall 3301 \nMethods to measure heat generation from ash in landfills\n \nAbstract: In recent years\, there have been reports of a few municipal solid waste landfills experiencing temperatures as high as 100ºC. These landfills are referred to as elevated temperature landfills (ETLFs). ETLFs require increased monitoring and management. A recently published landfill heat accumulation model identified reactions that contribute significant heat to landfills\, including the hydration and carbonation of Ca-containing wastes such as ash. Model predictions were based on published information on reaction thermodynamics and kinetics. However\, there is limited data on heat evolution from ash. This study aims to develop laboratory methods to measure heat evolution from Ca-containing ash under landfill-relevant conditions (presence of water and abundance of CO2). A semi-adiabatic reactor system was developed. The reactor consists of four major parts: an insulated container (dewar flask)\, insulation\, a sample container\, and a center channel to hold a temperature sensor. The temperature sensor is connected to a data acquisition device (LabJack). The reactor is characterized for heat loss so that temperature data during ash reaction can be used to calculate the rate and extent of heat generation. Reactor characterization involves the determination of two parameters; the coefficient of heat loss and the thermal capacity. Validation experiments were conducted by measuring heat evolution from the hydration of pure CaO and the carbonation of pure Ca(OH)2 and comparing those to theory. In the case of Ca(OH)2\, a continuous stream of N2/CO2 was provided\, and the CO2 uptake was compared to theoretical expected uptake. Heat evolution and CO2 uptake data were used to calculate the heat generation rate. This heat and rate will be used to better parameterize models of heat generation and accumulation in landfills. The coefficient of heat loss and thermal capacity was measured to be 105 J‧hr-1‧K-1 and 1200 J‧K-1\, respectively. The validation experiments yielded an efficiency between 103 and 106% for hydration and between 104 and 107% for carbonation\, respectively. Work is in progress to parameterize the landfill model. \nBiography: Asmita Narode is a Ph.D. student working with Dr. Morton Barlaz at NC State. Her work focuses on measuring heat generation from ash that is disposed of in landfills. She completed her undergraduate in Civil Engineering in India and her M.S. in environmental engineering at Georgia Tech. Before starting her Ph.D.\, Asmita worked for a consulting firm.
URL:https://ccee.engr.it/event/ewc-seminar-by-asmita-narode-methods-to-measure-heat-generation-from-ash-in-landfills/
LOCATION:Fitts-Woolard Hall 3301\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230130T124500
DTEND;TZID=America/New_York:20230130T134500
DTSTAMP:20260421T213337
CREATED:20230117T213802Z
LAST-MODIFIED:20230117T214145Z
UID:10000946-1675082700-1675086300@ccee.engr.it
SUMMARY:EWC Seminar by Christina Quaassdorff (Technical University of Madrid) - Modelling road transport emissions: a microscale point of view
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nFitts-Woolard Hall 3301 \nModelling road transport emissions: a microscale point of view \nAbstract: Road transport is often the main source of air pollution in urban areas worldwide. Many efforts have been aimed at reducing emissions from this sector achieving significant abatements. Nevertheless\, emission reductions have been lower than expected due to the heavy growth of transport in the last decades. To estimate emissions from the road transport sector\, there are several methods and approaches that are useful for different scales of analysis. To understand the spatial and temporal distribution of the emissions\, typically\, regional traffic emission models are used for the compilation of urban inventories\, and usually\, those are the most detailed data available at the city scale. This level of detail is not enough to understand the high pollutant concentrations that occur in specific urban highly polluted areas (hotspots). In recent years many actions have been undertaken to solve air quality problems in these traffic hotspots. But\, to accurately understand the influence of these very local high concentrations on the real exposure of the population\, there is a need to estimate the contribution of road traffic to atmospheric emissions in great detail (at microscale) for those areas. In this seminar\, we will dive into the capabilities of currently available road traffic emission modeling tools as well as some practical applications of those tools to support emission analysis at the microscale level.\n \nBiography: Christina Quaassdorff\, PhD\, is a visiting postdoctoral research scholar at NC State University coming from the Technical University of Madrid in Spain. She is a road traffic emission modeler that finished her Ph.D. in Environmental Engineering in 2018 with her dissertation about road traffic emissions modeling and air quality measures applied to Madrid in Spain. For two years\, she worked on technical support for the Spanish Ministry for Ecological Transition in order to achieve the Spanish commitments to the European Union’s air pollution reduction goals for 2030. Now\, she is collaborating with NCSU to estimate highly detailed road traffic emissions at city scale in the frame of an IRTEMS European Union grant.
URL:https://ccee.engr.it/event/ewc-seminar-by-christina-quaassdorff-columbia-university-modelling-road-transport-emissions-a-microscale-point-of-view/
LOCATION:Fitts-Woolard Hall\, Room 3301\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20221007T125000
DTEND;TZID=America/New_York:20221007T134000
DTSTAMP:20260421T213337
CREATED:20220906T151049Z
LAST-MODIFIED:20220906T151049Z
UID:10000923-1665147000-1665150000@ccee.engr.it
SUMMARY:EWC Seminar by Daniel Westervelt (Columbia University) - Air pollution and climate change in Africa: From low-cost sensors to supercomputers
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nFitts-Woolard Hall 2331 \nAir pollution and climate change in Africa: From low-cost sensors to supercomputers \nAbstract: In Africa\, air pollution exposure has been linked to 1 million premature deaths annually and\, without intervention\, these numbers are likely to climb. Sparse pollutant monitoring across the continent makes these estimates uncertain and also hinders the development of mitigation policies and regulations. Additionally\, some of the most severe climate impacts are also felt in Africa\, despite the continent’s relatively small contribution to global greenhouse gas emissions. This talk will highlight some recent efforts to close the air pollution data gap in Africa using a variety of methods spanning from traditional reference monitors\, to consumer-grade low-cost sensors\, to satellite retrievals\, and to air quality and climate models. In particular we demonstrate the effectiveness of well-calibrated low cost particulate matter sensors in several previously-unmonitored megacities including Kinshasa (DRC)\, Lomé (Togo)\, Accra (Ghana)\, Nairobi (Kenya)\, and more. We find that many consumer-grade Plantower-based low-cost PM2.5 monitoring devices\, such as PurpleAir\, Clarity\, and QuantAQ\, perform well (r-squared ~ 0.6\, MAE ~ 7 µg m-3) compared to locally available reference monitors\, but can be improved dramatically (r-squared ~ 0.8\, MAE ~ 2) using a variety of statistical methods\, including linear regression\, random forest regression\, and Gaussian mixture regression. These well-calibrated sensors form the basis of dense urban networks of PM2.5 monitors in several African megacities\, for example in Kinshasa (DRC)\, where the annual mean PM2.5 in 2019 was approximately 45 µg m-3\, or ~8 times the WHO annual guideline. This talk will also present some research that leverages well-calibrated low-cost sensors and reference monitors to evaluate and improve the Africa region GEOS-Chem nested high-resolution model (25km x 25km). We also demonstrate the potential of fusing satellite data with ground-based observations using machine learning to develop high spatiotemporal resolution PM2.5 datasets\, which may be useful in policy and health settings in addition to model evaluation. Finally\, I will present climate modeling results that quantify how both local and remote aerosol emissions changes can have a substantial impact on African climate\, in particular rainfall in the drought-stricken Sahel region of Africa.\n \nBiography: Daniel Westervelt is currently a Lamont Assistant Research Professor at Columbia University’s Lamont Doherty Earth Observatory in Palisades\, NY. In addition\, he is a Columbia University Climate and Life Fellow leading a project on air pollution and climate change in Africa. He is also an affiliated scientist with the NASA Goddard Institute of Space Studies in New York\, NY\, and an air pollution advisor to the US State Department. I am an affiliate faculty of the Columbia University Data Science Institute. Prior to Lamont\, Dr. Westervelt worked as a Science\, Technology\, and Environmental Policy (STEP) postdoctoral research associate at Princeton University. He completed his PhD degree in May 2013 in Civil and Environmental Engineering from Carnegie Mellon University.
URL:https://ccee.engr.it/event/ewc-seminar-by-daniel-westervelt-columbia-university-air-pollution-and-climate-change-in-africa-from-low-cost-sensors-to-supercomputers/
LOCATION:Fitts Woolard Hall 2331\, 915 Partners Way\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220923T125000
DTEND;TZID=America/New_York:20220923T134000
DTSTAMP:20260421T213337
CREATED:20220906T145507Z
LAST-MODIFIED:20220906T145507Z
UID:10000922-1663937400-1663940400@ccee.engr.it
SUMMARY:EWC Seminar by Matthew Verbyla (San Diego State University): Using Data Analytics and Learning to Attenuate Inequities in Engineering Classrooms; A Teacher-Scholar Approach
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nFitts-Woolard Hall 2331 \nUsing Data Analytics and Learning to Attenuate Inequities in Engineering Classrooms: A Teacher-Scholar Approach
URL:https://ccee.engr.it/event/ewc-seminar-by-matthew-verbyla-san-diego-state-university-using-data-analytics-and-learning-to-attenuate-inequities-in-engineering-classrooms-a-teacher-scholar-approach/
LOCATION:Fitts Woolard Hall 2331\, 915 Partners Way\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220916T125000
DTEND;TZID=America/New_York:20220916T134000
DTSTAMP:20260421T213337
CREATED:20220906T143247Z
LAST-MODIFIED:20220912T030559Z
UID:10000921-1663332600-1663335600@ccee.engr.it
SUMMARY:EWC Seminar by Ricardo Morales (Universidad de los Andes): Air quality challenges in Northern South America; From the synoptic to the micro scale
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nFitts-Woolard Hall 2331 \nAir quality challenges in Northern South America: From the synoptic to the micro scale \nAbstract: The processes shaping air pollution span many spatial scales. In the large and densely populated cities of Latin America\, one of the most rapidly urbanizing areas in the world\, day-to-day exposure to particulate pollution is often dominated by mobile sources in the near-road environment. However\, the seasonality of air pollution in the region is controlled by the long-range transport of smoke plumes from wildfires and agricultural burns. In this talk\, we will discuss how\, by using modeling and observational tools\, we can better understand the nature of air pollution in Northern South America\, identify its more pressing challenges\, and characterize the rapid transformations it is currently undergoing. This research helps identify opportunities to implement interventions to effectively improve air quality in the region. \nBiography: Ricardo Morales is an Associate Professor in the Department of Environmental Engineering at Universidad de los Andes\, in Bogotá\, Colombia. After graduating with a BS in Physics and in Chemical Engineering\, he completed his PhD in Atmospheric Sciences from Georgia Tech. Since then\, his research at Universidad de los Andes has used modeling and observational tools for atmospheric aerosols to better understand air quality in the northern portion of South America\, and the city of Bogotá in particular. He has authored over 20 peer-reviewed publications. He is currently visiting NCSU supported by a Fulbright Visiting Scholar grant.
URL:https://ccee.engr.it/event/ewc-seminar-by-ricardo-morales-universidad-de-los-andes-air-quality-challenges-in-northern-south-america-from-the-synoptic-to-the-micro-scale/
LOCATION:Fitts Woolard Hall 2331\, 915 Partners Way\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220902T125000
DTEND;TZID=America/New_York:20220902T134000
DTSTAMP:20260421T213337
CREATED:20220901T143110Z
LAST-MODIFIED:20220901T143339Z
UID:10000913-1662123000-1662126000@ccee.engr.it
SUMMARY:EWC Seminar by Francis de los Reyes (NCSU): An Engineer Talks About Poop
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nFitts-Woolard Hall 2331 \nAn Engineer Talks About Poop (Alternatively\, Challenges and Opportunities in Global Sanitation) \nAbstract: Most people don’t think about or don’t want to think about what happens to human waste- fecal material. Where do we poop\, where does it go? This is a big\, global problem: 2020 WHO/UNICEF data show that 3.6 billion people- 46% of the global population- don’t use a toilet or latrine where the fecal material is safely treated and disposed. This is a wicked problem that touches on engineering\, public health\, social and cultural dimensions\, and has economic impacts in less developed countries. This presentation will discuss a systems view of the sanitation “value” chain- from the user interface\, the toilet or latrine\, to the collection and transport of fecal material\, to treatment and disposal. Key factors for addressing this global challenge will be discussed\, including how to re-think sanitation technologies. \nOne major project is developing a hygienic and dignified way of emptying pit latrines. Every day\, pit latrines receive an estimated 0.6 billion kg of faeces and 2.1 billion kg of urine from 1.77 billion people around the world. Once pits are full\, fecal sludge has to be removed\, before being transported and treated/reused. Manual emptying of pit latrines using buckets and shovels still exist today – a high-risk\, unsanitary\, and undignified job. One of the biggest challenges in this field is developing a single pit emptying technology that can empty trash-filled pits at a competitive cost. Our NC State University team has developed the innovative pit-emptying device\, the Flexcrevator. This device removes fecal sludge even in the presence of trash in pits. The Flexcrevator system has been developed over 6 years with extensive field testing in South Africa\, Zambia\, Malawi\, Kenya\, and India\, with funding from the Bill & Melinda\nGates Foundation\, and has recently been patented. Our overall goal is to demonstrate how the Flexcrevator can scale-up to meet global demand for hygienic and profitable pit emptying\, thereby improving sanitation practices and access world-wide. The presentation includes the design evolution of the trash exclusion head\, lab testing results with faecal sludge simulants and trash\, and field testing results from Zambia\, Kenya\, Madagascar\, and Rwanda. The challenges and lessons learned in designing this technology will be discussed. \nBiography: Francis de los Reyes is the Glenn E. and Phyllis J. Futrell Distinguished Professor #2 of Civil\, Construction\, and Environmental Engineering\, Alumni Distinguished Undergraduate Professor\, and University Faculty Scholar at North Carolina State University. He is also an Associate Faculty of Microbiology and Training Faculty of Biotechnology. He has also worked in water and sanitation issues in developing countries\, and has collaborations in the Philippines\, India\, China\, South Africa\, Pakistan\, Ghana\, and Malawi. Current and past research projects include: competition between filaments and floc-formers in activated sludge\, ecophysiology of nitrifiers and denitrifiers in microbial floc\, N removal from swine waste\, fate of bioagents in landfills\, microbial characterization of landfills\, molecular techniques for groundwater remediation sites\, foam control methods\, factors affecting fats\, oils\, and grease deposits in sewers\, wastewater treatment for rural areas\, water reuse systems\, novel molecular techniques for detecting denitrifiers\, energy from co-digestion\, and solutions for pit latrine emptying problems.
URL:https://ccee.engr.it/event/ewc-seminar-by-francis-de-los-reyes-ncsu-an-engineer-talks-about-poop/
LOCATION:Fitts Woolard Hall 2331\, 915 Partners Way\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220824T120000
DTEND;TZID=America/New_York:20220824T130000
DTSTAMP:20260421T213337
CREATED:20220815T144452Z
LAST-MODIFIED:20220815T144452Z
UID:10000911-1661342400-1661346000@ccee.engr.it
SUMMARY:2022 Construction Engineering  Distinguished Speaker Series: Challenges and  Rewards of a Life in  Construction Engineering
DESCRIPTION:Speaker: \nMike Gwyn\, PE \nOwner and President \nGwyn Consulting Services\, Inc.
URL:https://ccee.engr.it/event/2022-construction-engineering-distinguished-speaker-series-challenges-and-rewards-of-a-life-in-construction-engineering/
LOCATION:Fitts-Woolard Hall 3301\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220325T125000
DTEND;TZID=America/New_York:20220325T135000
DTSTAMP:20260421T213337
CREATED:20220323T143441Z
LAST-MODIFIED:20220323T143441Z
UID:10000889-1648212600-1648216200@ccee.engr.it
SUMMARY:EWC Seminar: Following the Microbes in Maputo\, Mozambique: The Maputo Sanitation Trial
DESCRIPTION:Following the Microbes in Maputo\, Mozambique: The Maputo  Sanitation Trial  \nSpeaker: Drew Capone\, Ph.D.\, Post-Doc\, Department of Environmental Sciences and Engineering\, UNC-Chapel Hill \nSummary: The Maputo Sanitation (MapSan) Trial is a controlled before-and-after evaluation of a shared onsite  sanitation intervention in urban Maputo\, Mozambique. Intervention compounds (i.e.\, clusters of  households) received a pour flush to septic tank system with a soakaway pit for subsurface infiltration  of aqueous effluent\, while control compounds continued using existing shared sanitation. During trial  baseline and the 12-month and 24-month follow-up periods we collected soils\, flies\, and fecal  sludges from the living environment of trial compounds. We evaluated samples using culture\,  microscopy\, and molecular methods to evaluate the impact of the intervention on environmental fecal  contamination and advance our understanding of the fate and transport of enteric pathogens in low income urban environments. We found that the intervention reduced the presence of some fecal  contamination in the domestic environment\, but pathogen detection remained prevalent 24 months  following the introduction of new latrines. Using quantitative microbial risk assessment\, we estimated  infection risk from exposure to fecally contaminated soils was high for infants and children. Modelling  source apportionment of fecal wastes suggested that the daily transport of small quantities of child  feces or infrequent transport of moderate amounts of fecal sludges could plausibly explain observed  fecal contamination in soils. Together\, these results suggest a sustainable environmental response to  the risks posed by fecal-oral pathogens in low-income urban settings will require policies and  strategies capable of achieving a nearly complete reduction in the feces transported to the living  environment. \nJoin in person at Fitts-Woolard Hall Room 2321 or virtually via Zoom: go.ncsu.edu/ewcseminar \n  \nThis is a joint presentation from Environmental Water Resources and Coastal Engineering Seminar NC State University Global WaSH Cluster Speaker Series
URL:https://ccee.engr.it/event/ewc-seminar-following-the-microbes-in-maputo-mozambique-the-maputo-sanitation-trial/
LOCATION:Fitts-Woolard Hall Room 2321\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220225T090000
DTEND;TZID=America/New_York:20220225T170000
DTSTAMP:20260421T213337
CREATED:20220113T192940Z
LAST-MODIFIED:20220113T192940Z
UID:10000873-1645779600-1645808400@ccee.engr.it
SUMMARY:2022 Structural Engineering & Mechanics (SEM) Graduate Research Symposium
DESCRIPTION:2022 Structural Engineering and Mechanics Graduate Research Symposium\nThis annual event is “engineered” to highlight the amazing research you all do here in CCEE at NCSU! \nIn lieu of the ongoing pandemic\, the SEM Symposium will again be held virtually (Zoom meeting info below). \n\nPlease register for the symposium (attending or presenting) by January 21st by filling out the information in the online form at the following link: https://docs.google.com/forms/d/e/1FAIpQLSeapwlk4AZJB0LzZWe0ncQ69teBtOqvrI8ir1cf0Tp6E3KheA/viewform?usp=sf_link\nIf you are presenting\, abstracts are due February 4th by 5pm EST. Please upload your abstract to the shared Google Drive Folder with the filename “Lastname_Firstname.”\n\nYou will find an abstract template attached to this email. This includes a one-page\, 150-200 word written abstract along with a graphical abstract to convey the overarching theme/topic of your research presentation. Please include up to 5 keywords so we can determine the most appropriate session for your talk.\nNOTES: (Attendance): All MS/PhD students are required to attend and MCE students are encouraged to attend. (Presenting): According to the SEM graduate advising guidelines\, MS students are required to present at least once and PhD students at least twice prior to graduation. (Course Registering): Also\, MS and PhD students must register once for CE 605 (MS) and CE 805 (PhD) in the semester in which you intend to graduate. For example if you intend to graduate in Fall 2022\, you can present this Spring to fulfill the presentation requirement but will register for the in the Fall\n\n\nWe request your assistance in being session moderators to ensure speakers keep on time\, facilitate the Q&A\, etc. Please email me if you would like to participate in this capacity and thank you in advance for your help.\nThe keynote address will be given by Dr. Andrew Ziccarelli\, a new faculty member in the SEM group.\n\n  \nAdditional information will be forthcoming regarding the symposium schedule and presentation details. \nJoin Zoom Meeting\nhttps://ncsu.zoom.us/j/95438477737?pwd=aCtYSUpMd0xONjRZcGJibU9vVlpBQT09 \nMeeting ID: 954 3847 7737\nPasscode: 11235\nOne tap mobile\n+19292056099\,\,95438477737#\,\,\,\,*11235# US (New York)\n+12678310333\,\,95438477737#\,\,\,\,*11235# US (Philadelphia)
URL:https://ccee.engr.it/event/2022-structural-engineering-mechanics-sem-graduate-research-symposium/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
ORGANIZER;CN="Prof. Jason Patrick":MAILTO:jfpatric@ncsu.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220225T005000
DTEND;TZID=America/New_York:20220225T134000
DTSTAMP:20260421T213337
CREATED:20220217T184308Z
LAST-MODIFIED:20220217T184308Z
UID:10000882-1645750200-1645796400@ccee.engr.it
SUMMARY:EWC Seminar: Waves Through Aquatic Vegetation: Flow-Vegetation Hydrodynamics and Sediment Transport
DESCRIPTION:Abstract: Aquatic vegetation alters the flow and sediment mobility within and around them\, shaping coastal environments in the long term. Improved sediment transport relations for vegetated flows become fundamental for predicting sediment transport rates through aquatic coastal ecosystems. We investigate suspended sediment transport under flow-vegetation hydrodynamics in oscillatory boundary layers. We conduct experiments in a U-shaped oscillatory tunnel using optical techniques\, including 2D and 3D particle image velocimetry. We explore how aquatic plants change the near-bed and in-canopy hydrodynamics from the single-plant scale to the vegetation patch scale. For a single plant\, we study the effect of vegetation morphology (shape and biomechanics) on the turbulence characteristics. We focus on the vegetation drag at the canopy top and near the bed to explore the flow-vegetation hydrodynamics. For sediment experiments\, we evaluate the impact of vegetation on the suspended sediment transport mechanisms. These various boundaries inform for a better assessment of the role of aquatic vegetation as eco-engineers in wave-dominated environments.\n\nBio: Jorge San Juan is a postdoctoral associate at St. Anthony Falls Laboratory in the Department of Civil\, Environmental\, and Geo-Engineering at the University of Minnesota Twin Cities. His research focuses on coastal eco-hydraulics\, eco-morphodynamics\, and experimental methods. Dr. San Juan completed his B.S. (2012) at the University of Cartagena (Colombia) in civil engineering. He received his M.S. (2016) and Ph.D. (2021) from the University of Illinois Urbana-Champaign in Water Resources Engineering and Science in Civil and Environmental Engineering. He is one of the co-founders of the Latinx/Latin American Academic (LLAmA) Talks initiative and an active member of Geolatinas.\n\nZoom link: go.ncsu.edu/ewcseminar 
URL:https://ccee.engr.it/event/ewc-seminar-waves-through-aquatic-vegetation-flow-vegetation-hydrodynamics-and-sediment-transport/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220211T115000
DTEND;TZID=America/New_York:20220211T134000
DTSTAMP:20260421T213337
CREATED:20220210T044916Z
LAST-MODIFIED:20220210T044916Z
UID:10000881-1644580200-1644586800@ccee.engr.it
SUMMARY:EWC Seminar by Liang Liu (CARB):  An overview of California’s 2020 mobile source strategy in the off-road sector
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nVirtual seminar: https://ncsu.zoom.us/j/96075468552?pwd=RlZvb2x2YmM3c25KQWdRaXNEdVhUUT09 \n An overview of California’s 2020 mobile source strategy in the off-road sector \nAbstract: The California Air Resources Board (CARB) 2020 Mobile Source Strategy (MSS) is a strategy document that illustrates the technology mixes needed to reduce emissions from California’s transportation sector. This includes cars\, trucks\, trains\, ships\, aircraft\, and all other on-road and off-road equipment. The MSS explores technologies for California to meet its various clean air goals including federal ambient air quality standards\, community risk reduction\, and ambitious mid- and long-term climate change targets. This presentation focuses on the control strategy in the off-road sector. Off-road covers a wide range of sectors including locomotives\, ocean-going vessels\, commercial harbor craft\, construction and mining\, lawn and garden\, aircraft and many other industries. Off-road engines are significant sources of air pollutants such as nitrogen oxides (NOx)\, reactive organic gases (ROG)\, and diesel particulate matter (PM). Off-road has surpassed on-road vehicles as the largest source of statewide NOx emissions in 2017. As the regulations for off-road equipment tend to follow those for on-road vehicles by a few years\, the relative contribution of emissions from off-road equipment is expected to continue to grow\, absent additional controls. \nBiography: Dr. Liu received her bachelor’s degrees in environmental science and Economics from Peking University in Beijing. She went on to receive her master’s and Ph.D. in Environmental Engineering from the University of Illinois. Her Ph.D. work focuses on air emissions from mobile sources and the overall health and climate impacts from freight transportation. Dr. Liu currently works for the California Air Resources Board (CARB) in the Mobile Source Branch\, specifically in the Off-Road Diesel Analysis Section. Her work mainly includes development of off-road emission inventories and rule measures to support CARB’s air quality\, public health\, and climate goals.
URL:https://ccee.engr.it/event/ewc-seminar-by-liang-liu-carb-an-overview-of-californias-2020-mobile-source-strategy-in-the-off-road-sector/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220204T125000
DTEND;TZID=America/New_York:20220204T134000
DTSTAMP:20260421T213337
CREATED:20220201T223344Z
LAST-MODIFIED:20220201T223344Z
UID:10000876-1643979000-1643982000@ccee.engr.it
SUMMARY:EWC Seminar by Kofi Christie (Princeton): Membrane distillation for high salinity brine management: Scaling and energy efficiency
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nVirtual seminar: https://ncsu.zoom.us/j/96075468552?pwd=RlZvb2x2YmM3c25KQWdRaXNEdVhUUT09 \nAbstract: Membrane distillation (MD)\, a hybrid thermal-membrane desalination technology\, has recently received tremendous interest as a sustainable technology for the treatment of hypersaline brines. MD is tolerant to higher salinity than reverse osmosis (RO) and capable of leveraging low-grade thermal energy such as waste heat and geothermal energy. However\, several fundamental aspects need to be addressed to achieve resilient MD systems for industrial applications. In this seminar\, I will present and discuss two of such aspects from the perspectives of process optimization. First MD performance is constrained by inorganic fouling from mineral growth\, or scaling\, due to the increased concentration over time of sparingly-soluble feed water constituents. Accordingly\, careful control of the driving force for feed water concentration (i.e.\, the vapor pressure gradient across the hydrophobic membrane) has been used to improve the robustness of MD performance. Recently we discovered that an equivalent trans-membrane vapor flux (i.e.\, the rate of vapor transferred through the membrane per unit area) can be achieved at varying feed water temperatures by separately controlling the vapor pressure on the opposite side of the membrane. Such control has enabled the investigation of the thermodynamic state of the nucleating minerals at the interface between the feed water and the membrane. Second\, MD is highly competitive to RO when lowgrade thermal energy is applied efficiently. I will present findings that elucidate the nuanced variations in energy efficiency definitions when varying heat sources and operational configurations are applied. Our work highlights the importance of determining whether the integration of low-grade thermal energy will minimize the costly high-grade energy to maintain the process or maximize the usage of the greatest amount of latent heat upon feed recycling. At the conclusion of the seminar\, I will also discuss the prospects and research needs associated with MD to improve environmental sustainability at the water-energy nexus. \nBiography: Dr. Kofi Christie is a postdoctoral research associate in the Andlinger Center for Energy and the Environment as well as the Department of Civil and Environmental Engineering at Princeton University. Dr. Christie grew up in Atlanta\, GA and received his B.S. degree from Morehouse College in 2014\, and his M.S. and Ph.D. from Vanderbilt University in 2016 and 2020\, respectively. He worked with Prof. Shihong Lin for his doctoral dissertation\, where he sought to advance water treatment and desalination technologies for high-salinity wastewater. His thesis focused on expanding our understanding of membrane distillation through module-scale thermodynamic analysis and elucidation of the causes and effects of inorganic fouling on membrane surfaces. At Princeton University\, Dr. Christie is working in the WET (Water & Energy Technologies) Lab of Prof. Z. Jason Ren. Dr. Christie’s work explores the intersection of membrane separation and crystal nucleation to sustainably recover solid and liquid resources from wastewater streams associated with coal-fired power plants. Additionally\, Dr. Christie works under the mentorship of Rodney Priestley\, Pomeroy and Betty Perry Smith Professor of Chemical and Biological Engineering. He is the recipient of several academic and professional awards\, including the National Science Foundation (NSF) Innovation Corps Grant (2020)\, the Princeton Presidential Postdoctoral Fellowship (2020)\, the NSF Graduate Research Fellowship (2015)\, and the IBM-Vanderbilt Graduate Fellowship (2014).
URL:https://ccee.engr.it/event/ewc-seminar-by-kofi-christie-princeton-membrane-distillation-for-high-salinity-brine-management-scaling-and-energy-efficiency/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220128T125000
DTEND;TZID=America/New_York:20220128T134000
DTSTAMP:20260421T213337
CREATED:20220124T192539Z
LAST-MODIFIED:20220124T193131Z
UID:10000874-1643374200-1643377200@ccee.engr.it
SUMMARY:EWC Seminar by Erin McDuffie (virtual); Environmental Science at the Interface of Policy: Sources of Air Pollution\, Public Health Impacts\, and Lessons Learned from a Year in D.C.
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nVirtual seminar link: https://ncsu.zoom.us/j/96075468552?pwd=RlZvb2x2YmM3c25KQWdRaXNEdVhUUT09 \nAbstract: Long-term exposure to outdoor fine particulate matter (PM2.5) is attributable to over 4 million deaths each year. Understanding the sources of PM2.5 pollution in a given location can help to inform the development of effective air pollution control policies. Leveraging recent advances in air quality modeling\, emission inventories\, remote sensing\, and public health data\, our interdisciplinary team conducted a comprehensive assessment of air pollution sources and the attributable disease burden across over 200 countries and sub-national regions. Our study approach provides results with consistent coverage across each country\, and for the first time\, also quantifies the global health impact of multiple individual fuel types\, including coal and solid biomass. Results reveal that dominant sources of PM2.5 vary both between and within each country and identify multiple options for improving air quality in the most polluted regions. Fossil fuels alone contribute to 27% (1 million deaths) of the total global PM2.5 disease burden. Combined with the PM2.5 pollution from residential biomass combustion\, results suggest substantial public health benefits from replacing traditional energy sources. In this presentation\, I will first focus on the study methods\, the main results\, and their policy relevance. In the second part\, I will discuss the life of this work outside of the final manuscript\, as well as general lessons learned about engaging in policy after working for over a year (from home) as a science policy fellow in Washington\, D.C. \nBiography: Dr. Erin McDuffie earned her Ph.D. (2018) in Atmospheric Chemistry from the University of Colorado Boulder. During graduate school Erin worked as a member of the NOAA Chemical Sciences Laboratory\, with a focus on atmospheric field measurements of reactive nitrogen oxides and ozone. After graduate school\, Erin made the jump to global atmospheric modeling and completed a post-doctoral fellowship at Dalhousie University in Halifax\, Nova Scotia. Erin is currently a AAAS Science and Technology Policy Fellow\, with a joint appointment as a visiting research associate at Washington University in St. Louis. Her interests lie in integrating and aligning scientific and policy perspectives to better understand the impacts of human activity on atmospheric processes and feedbacks on human health and the environment.
URL:https://ccee.engr.it/event/ewc-seminar-by-erin-mcduffie-virtual-environmental-science-at-the-interface-of-policy-sources-of-air-pollution-public-health-impacts-and-lessons-learned-from-a-year-in-d-c/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20220124T160000
DTEND;TZID=America/New_York:20220124T170000
DTSTAMP:20260421T213337
CREATED:20220110T203803Z
LAST-MODIFIED:20220121T190413Z
UID:10000872-1643040000-1643043600@ccee.engr.it
SUMMARY:Lecture: How Can Civil Engineers Advance Social Equity? with Mitchell Silver
DESCRIPTION:Social equity has been a term that has gained more attention over the past five years\, but what exactly does it mean and how does it apply to the civil engineering profession? This lecture by Mitchell Silver (FAICP\, Hon. ASLA) will unpack the Code of Ethics of The American Society of Civil Engineers and the American Institute of Certified Planners pervious and revised versions to understand the aspirational values that drives each profession and pivot to an in-depth presentation on the meaning of equity\, diversity access and inclusion with examples on how it can be applied to the built environment. \nJoin via Zoom! \nLink: https://ncsu.zoom.us/j/94130431276?pwd=cTFHV3Nsa1Iwb09zZ1FqZlpHaEpDdz09 \nMeeting ID: 941 3043 1276 Passcode: 899057
URL:https://ccee.engr.it/event/mitchell-silver-mcadams-inclusive-urban-development/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20211112T125000
DTEND;TZID=America/New_York:20211112T134000
DTSTAMP:20260421T213337
CREATED:20211109T201807Z
LAST-MODIFIED:20211109T201807Z
UID:10000860-1636721400-1636724400@ccee.engr.it
SUMMARY:EWC Seminar by Gabriel Isaacman-VanWertz (Virginia Tech): A little goes a long way – the outsize influence of small chemical differences in a complex atmosphere
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nIn-person: Fitts-Woolard Hall 2331 \nVirtual seminar link: https://ncsu.zoom.us/j/92010077484?pwd=aFlOQmp5dHVKMmNnK0w0Qi9hREJWdz09 \nAbstract: Reactive organic carbon is emitted to the atmosphere as a relatively small number of molecules and compound classes\, which undergo sunlight-drive oxidation processes to form a dynamic and complex mixture of thousands of compounds. The physical and chemical transformations of each organic compound is dictated by physicochemical properties that depend critically on the molecular structure of the molecule. However\, little work has examined the prevalence of compounds that differ only in their molecular structure (i.e.\, isomers)\, or the extent to which ignoring structure degrades understanding of the sources\, transformations\, and fates of organic compounds in the atmosphere. This presentation will examine the prevalence of isomers in the atmosphere\, where they come from\, and the extent to which knowing their structures matters in understanding the atmosphere. Observations of biogenic organic carbon in central Virginia will be presented\, with a focus on the dominant and variable role of isomers that are low in abundance by high in reactivity. The prevalence of isomers formed in the oxidation of these compounds will then be examined using a combination of novel instrumentation and chemical modeling. Finally\, the physicochemical properties of isomers in these oxidation product mixtures will be compared to quantitatively understand differences in their atmospheric transformations. Together these approaches will provide insight into the role of structure in the competition between different atmospheric processes\, and the consequent fate of a molecule. \nBiography: Gabriel Isaacman-VanWertz is an Assistant Professor in the Department of Civil and Environmental Engineering at Virginia Tech. He completed\nhis PhD at the University of California\, Berkeley\, after which he spent two years as an NSF Postdoctoral Fellow at MIT. He is originally from the East Coast\, growing up in Maryland and completing his undergraduate at Wesleyan University in Connecticut. He currently lives in Blacksburg\, VA with his wife and two young kids\, where he spends his free time trying to keep the deer and groundhogs from eating everything in their garden.
URL:https://ccee.engr.it/event/ewc-seminar-by-gabriel-isaacman-vanwertz-virginia-tech-a-little-goes-a-long-way-the-outsize-influence-of-small-chemical-differences-in-a-complex-atmosphere/
LOCATION:Fitts-Woolard Hall\, 915 Partners Way\, Raleigh\, NC\, 24606\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20211105T125000
DTEND;TZID=America/New_York:20211105T134000
DTSTAMP:20260421T213337
CREATED:20211101T192517Z
LAST-MODIFIED:20211101T192733Z
UID:10000858-1636116600-1636119600@ccee.engr.it
SUMMARY:EWC Seminar by Kyana Young (Wake Forest University): The use of advanced oxidation treatment processes to support the achievement of Sustainable Development Goal #6
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nIn-person: Fitts-Woolard Hall 2331 \nVirtual seminar link: https://ncsu.zoom.us/j/92010077484?pwd=aFlOQmp5dHVKMmNnK0w0Qi9hREJWdz09 \nAbstract: Water\, sanitation\, and hygiene (WASH) is a global initiative focusing on improving community access to clean water and sanitation\, particularly to the millions of the people in resource poor regions of the world. On September 25th 2015\, 193 world leaders committed to seventeen Sustainable Development Goals (SDG) to end extreme poverty\, fight inequality and injustice\, and address climate change by 2030. Of these seventeen goals\, the sixth goal focuses on water quality\, water availability\, and sustainable water practices. A public health perspective\, related to the availability and access to safe drinking water\, provides a pathway to explore low energy\, high efficacy treatment options for underserved communities. This talk will focus on the application of advanced oxidation treatment processes as an impetus to resolving various drinking water contamination issues for a diverse spectrum of communities. \nBiography:Dr. Kyana Young is an Assistant Professor in the Department of Engineering at Wake Forest University. Dr. Young received her doctorate in Environmental Engineering from the University of Wisconsin – Madison. Her research focuses on water treatment\, water quality\, and public health\,\nwhere her work has included water treatment technology projects in Haiti\, Sierra Leone\, China\, India\, and Hong Kong. Dr. Young\, served as an executive editor for the United Nations Educational\, Scientific\, and Cultural Organization – Michigan State University Global Water Pathogen Project. She is currently the co-chair of the Water and Health Committee with the American Public Health Association. Dr. Young is also the co-Director of the Girls as Citizen\nScientists program\, which provides the opportunity for girls in Forsyth County to explore the connections between environmental health and public health.
URL:https://ccee.engr.it/event/ewc-seminar-by-kyana-young-wake-forest-university-uncovering-the-effects-of-extreme-events-on-carbon-energy-and-water-budgets/
LOCATION:Fitts-Woolard Hall\, 915 Partners Way\, Raleigh\, NC\, 24606\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20211022T125000
DTEND;TZID=America/New_York:20211022T134000
DTSTAMP:20260421T213337
CREATED:20211018T202608Z
LAST-MODIFIED:20211019T012341Z
UID:10000856-1634907000-1634910000@ccee.engr.it
SUMMARY:EWC Seminar by Lauren Lowman (Wake Forest University): Uncovering the effects of extreme events on carbon\, energy and water budgets
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nIn-person: Fitts-Woolard Hall 2331 \nVirtual seminar link: https://ncsu.zoom.us/j/92010077484?pwd=aFlOQmp5dHVKMmNnK0w0Qi9hREJWdz09 \nAbstract: Extreme weather events are costly\, deadly\, uproot people from their homes\, and can have devastating effects on human life\, health and the economy. They are also a natural part of variability in our climate and play a role in maintaining healthy ecosystems. The purpose of this talk is to quantify the impact of extreme events on regional carbon\, energy and water budgets. Using high-resolution land-surface hydrology models\, plant hydraulics models\, and predictive phenology models\, we simulate how vegetation canopies respond to changes in atmospheric and soil conditions as a result of extreme events. Specific applications of the coupled hydrology-phenology modeling framework include understanding the sensitivity of montane cloud forests to changes in microclimate\, assessing the role that vegetation water use strategies play in the evolution of flash drought events\, and quantifying the impacts of wildfires in humid climates on the carbon and energy budgets. A key finding is that the magnitude of the change in the carbon cycle as a result of these extreme events are similar\, while the governing processes may be vastly different. This work highlights the need to understand how vegetation processes modulate carbon\, energy\, and water fluxes towards the goal of managing and maintaining healthy ecosystems. \nBiography: Lauren Lowman is an Assistant Professor in the Engineering Department at Wake Forest University and has served in this role since 2018. She received a Ph.D. and M.S. in Civil and Environmental Engineering with a focus in Hydrology and Fluid Dynamics from Duke University\, and a B.A. in Public Policy Studies from Duke University. Her research investigates how extreme events affect overall ecosystem health\, productivity\, and sustainability using numerical models\, geospatial data analysis\, and field experiments. She is passionate about developing and sharing inclusive teaching practices in STEM fields and received a 2020 Engineering Unleashed Fellowship from the Kern Family Foundation to support this work (hiddenSTEMwfu.edu | @hiddenSTEMfigs on Twitter & Instagram).
URL:https://ccee.engr.it/event/ewc-seminar-by-lauren-lowman-wake-forest-university-uncovering-the-effects-of-extreme-events-on-carbon-energy-and-water-budgets/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20211015T125000
DTEND;TZID=America/New_York:20211015T134000
DTSTAMP:20260421T213337
CREATED:20210927T182153Z
LAST-MODIFIED:20211011T175856Z
UID:10000852-1634302200-1634305200@ccee.engr.it
SUMMARY:EWC Seminar by Sherri Cook (University of Colorado Boulder): Integrating Sustainability and Resilience to Support Sustained and Universal Sanitation Access
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nVirtual seminar link: https://ncsu.zoom.us/j/92010077484?pwd=aFlOQmp5dHVKMmNnK0w0Qi9hREJWdz09 \nAbstract:\nSanitation systems fail globally at high rates. Researchers and practitioners attribute causes of sanitation success and failure to numerous factors that include both technical and non-technical issues. A comprehensive understanding of what leads to sanitation failure\, and how to achieve sanitation success\, is imperative to prioritize the use of limited resources. To this end\, first\, I will discuss how sanitation sustainability is currently measured and identify improvements to current approaches. Next\, I will discuss a new approach created by my research group that harmonizes current efforts and better supports context-specific sustainability assessments. This will include opportunities for improving measurements of environmental and human well-being\nassociated with sanitation access and quality. Finally\, a case study of sanitation systems in a hazard-prone area will be evaluated to improve the understanding of the understudied area of sanitation resilience. The overarching goal of this set of works is to progress towards sustained global sanitation coverage and access that is both sustainable and resilient. \nBiography: Dr. Sherri Cook is an Assistant Professor of Environmental Engineering at the University of Colorado Boulder. She received her M.S. and Ph.D. in Environmental Engineering from the University of Michigan\, and her B.S. in Civil Engineering from Virginia Tech. Dr. Cook’s research and teaching interests include the design and implementation of sustainable and resilient water\, sanitation\, and civil systems. Her research group is currently investigating biological treatment technologies for water reuse\, recovering resources (such as energy and nutrients) from organic solid wastes\, and developing sustainability frameworks to identify the most appropriate implementations of existing technologies and to set sustainability targets for technology development\, especially for PFAS water remediation and water reuse treatment technologies.
URL:https://ccee.engr.it/event/ewc-seminar-by-sherri-cook-sanitation-in-resource-limited-communities-do-we-need-better-data-better-technologies-or-better-decisions/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20210924T125000
DTEND;TZID=America/New_York:20210924T134000
DTSTAMP:20260421T213337
CREATED:20210908T021452Z
LAST-MODIFIED:20210921T134412Z
UID:10000848-1632487800-1632490800@ccee.engr.it
SUMMARY:EWC Seminar by David Farnham: Climate-related risks and opportunities for 21st century energy systems.
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nVirtual seminar link: https://ncsu.zoom.us/j/92010077484?pwd=aFlOQmp5dHVKMmNnK0w0Qi9hREJWdz09 \nAbstract: Weather and climate conditions impact energy infrastructure operations in numerous and critical ways. For example\, heating and cooling energy demands are dependent on temperatures\, and the productivity of wind and solar generation farms are subject to surface wind and cloud cover conditions. Transitioning to a low-carbon energy system\nand relying more on wind and solar power generation is likely to increase our energy system’s dependence on weather conditions. This potential increased exposure to variable weather conditions presents a new set of challenges and opportunities for energy system planners and operators to design adaptive\, reliable\, and resilient systems. In this talk I will highlight work that quantifies weather- and climate-related risks and opportunities for an evolving energy system. I will also present a statistical modeling tool for grid planning to understand the risks of undersupply in wind and solar generation scenarios and an applied modeling effort to provide a rough estimate of the economic cost effectiveness of a globally interconnected wind and solar powered electricity grid. \nBiography: David Farnham combines earth science\, data science\, and systems analysis to (1) identify vulnerabilities of our water and energy infrastructure to climate variability and climate change\, (2) quantify climate hazards to these critical infrastructure systems\, and (3) conduct research that supports efforts to design and operate adaptive and resilient\nengineered water and energy systems that limit exposure to climate risks and make use of the opportunities presented by nature. David is a postdoctoral research fellow at Carnegie Science and the Department of Global Ecology at Stanford University working with Dr. Ken Caldeira. David is an engineer and applied scientist who investigates climate risk to critical water and energy infrastructure. David holds a PhD from the Department of Earth and Environmental Engineering at Columbia University where he studied under the advisement of Dr. Upmanu Lall.
URL:https://ccee.engr.it/event/ewc-seminar-by-david-farnham-carnegie-institute/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20210917T125000
DTEND;TZID=America/New_York:20210917T134000
DTSTAMP:20260421T213337
CREATED:20210819T165832Z
LAST-MODIFIED:20210903T191515Z
UID:10000847-1631883000-1631886000@ccee.engr.it
SUMMARY:EWC Seminar by Keith Little: Introduction to Open-Source\, Generic Environmental F&T Software
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nVirtual seminar link: https://ncsu.zoom.us/j/92010077484?pwd=aFlOQmp5dHVKMmNnK0w0Qi9hREJWdz09
URL:https://ccee.engr.it/event/ewc-seminar-by-keith-little-introduction-to-open-source-generic-environmental-ft-software/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20210903T125000
DTEND;TZID=America/New_York:20210903T134000
DTSTAMP:20260421T213337
CREATED:20210819T161634Z
LAST-MODIFIED:20210903T165825Z
UID:10000846-1630673400-1630676400@ccee.engr.it
SUMMARY:EWC Seminar by Colette Heald (MIT): How Reactive Organic Carbon Fuels Atmospheric Chemistry
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nVirtual seminar link: https://ncsu.zoom.us/j/92010077484?pwd=aFlOQmp5dHVKMmNnK0w0Qi9hREJWdz09 \nAbstract: Organic molecules in the atmosphere play a major role in the production of secondary pollutants such as ozone and particles. These\, in turn\, are central to some of the major environmental issues of our times (climate change\, air pollution). Despite the vital role that these species play in our global environment\, our understanding has been hampered by the complexity of this class of species and a fractured approach to studying their chemical evolution. In this talk\, I’ll discuss the overall role of reactive organic carbon (ROC) in tropospheric chemistry\, as well as recent progress and remaining challenges in understanding this role. I will also use field measurements from the CalNex\, SOAS\, and ATom field campaigns to contrast the abundance and role of ROC in terms of OH reactivity\, ozone\, and secondary organic aerosol production. \nBiography: Colette L. Heald is the Germeshausen Professor of Civil and Environment Engineering & Earth\, Atmospheric\, and Planetary Sciences at the Massachusetts Institute of Technology (MIT). She received her undergraduate degree in Engineering Physics from Queen’s University in Canada in 2000\, and her PhD in Earth and Planetary Science from Harvard University in 2005. She held the NOAA Climate and Global Change postdoctoral fellowship at the University of California Berkeley from 2006-2007. Prof. Heald heads the Global Atmospheric Composition and Chemistry Modeling Group at MIT. Her primary research interests are the interactions between the biosphere and atmosphere and the evolution and impacts of atmospheric particles. She has published over 100 papers in the peer-reviewed literature. Colette is currently a member of the Advisory Committee on Geosciences for the National Science Foundation\, the Science Community Committee for NASA’s ACCP mission\, and an elected representative of the Atmospheric & Hydrospheric Sciences Section of AAAS. In 2015\, she was awarded the James B. Macelwane Medal for early career contributions to the geosciences. She is a Fellow of the American Geophysical Union.
URL:https://ccee.engr.it/event/ewc-seminar-by-colette-heald-mit/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20210423T125000
DTEND;TZID=America/New_York:20210423T134000
DTSTAMP:20260421T213337
CREATED:20210420T031114Z
LAST-MODIFIED:20210420T031114Z
UID:10000840-1619182200-1619185200@ccee.engr.it
SUMMARY:EWC Seminar by Michael Kleeman: Future Energy\, Air Pollution\, and Environmental Justice in California
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nVirtual seminar link: https://ncsu.zoom.us/j/96156963811?pwd=QVRwSmlRZ1lqWm1xL0JVcG9RWC9Zdz09 \nAbstract: California’s commitment to reduce GHG emissions by 80% in the year 2050 will profoundly transform the energy systems in one of the world’s top 10 economies. In addition to helping reduce climate change\, the adoption of low carbon energy sources will improve air quality. California currently has well-known Environmental Justice issues in which some socio-economic classes are exposed to increased levels of air pollution. This study will examine how that Environmental Justice problem will change along different possible energy futures. Exposure estimates will be discussed for both fine (PM2.5) and ultrafine (PM0.1) particulate matter under six different energy scenarios. Benefits to public health will be categorized by socio-economic class and the potential to reduce disparities will be discussed. \nBiography: Michael Kleeman has degrees in Mechanical Engineering (University of Waterloo) and Environmental Engineering Science (California Institute of Technology). He has been a faculty member in the Department of Civil and Environmental Engineering at UC Davis for 22 years. Professor Kleeman’s research is focused on urban and regional air quality problems using a wide variety of measurement and modeling approaches. Recent areas of interest include the adoption of new energy sources and the resulting impacts on air quality.
URL:https://ccee.engr.it/event/ewc-seminar-by-michael-kleeman-future-energy-air-pollution-and-environmental-justice-in-california/
LOCATION:Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20210416T125000
DTEND;TZID=America/New_York:20210416T134000
DTSTAMP:20260421T213337
CREATED:20210413T172054Z
LAST-MODIFIED:20210413T172054Z
UID:10000839-1618577400-1618580400@ccee.engr.it
SUMMARY:EWC+COPRI Seminar by Ali Abdolali: Advances in the Unstructured WAVEWATCH III within Earth System Modeling Framework
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering + Coasts\, Oceans\, Ports and Rivers Institute Seminar Series \nVirtual seminar link: https://ncsu.zoom.us/j/96156963811?pwd=QVRwSmlRZ1lqWm1xL0JVcG9RWC9Zdz09 \nAbstract: The recent advancements in the spectral wave model WAVEWATCH III (WW3) have extended its capability for large scale and nearshore applications. The domain decomposition parallelization with the optional implicit scheme makes WW3 a powerful tool to efficiently\nresolve complex shorelines and high-gradient wave zones\, incorporating dominant physics in complicated coastal zones such as wave breaking\, wave-current interaction\, bottom friction and scattering\, wave-vegetation interaction and nonlinearity (Abdolali et al. 2020). These new capabilities allowed us to run WW3 on a suite of ensemble members on unstructured grids with very high nearshore resolutions for uncertainty analysis (Abdolali et al. 2021). The model is compatible with community-based coupling infrastructure (NEMS) to facilitate two-way coupling with ocean circulation models and hydrological models for simulating Hurricane storm surge and waves (Bakhtyar et al. 2020 and Moghimi et al. 2020). Here we present an overview of the recent advances in the WW3 model in terms of improvements in the nearshore physics and computational efficiency. A couple of real case applications on large-scale numerical domains with high-resolution coastal refinement during stormy conditions will be shown. A summary of model computational scalability will be given on various scales. \nReferences: \nAbdolali A.\, Roland\, A.\, Van Der Westhuysen\, A.\, Meixner\, J.\, Chawla\, A.\, Hesser\, T.\, Smith\, J.M. and M. Dutour Sikiric (2020)\, Large-scale Hurricane Modeling Using Domain Decomposition Parallelization and Implicit Scheme Implemented in WAVEWATCH III Wave Model\, Coastal Engineering\, 157\, 103656\, https://doi.org/10.1016/j.coastaleng.2020.103656 \nAli Abdolali\, Andre van der Westhuysen\, Zaizhong Ma\, Avichal Mehra\, Aron Roland and Saeed Moghimi (2021) Evaluating the Accuracy and Uncertainty of Atmospheric and Wave Model Hindcasts During Severe Events Using Model Ensembles\, Ocean Dynamics. https://doi.org/10.1007/s10236-020-01426-9 \nBakhtyar\, R.\, Maitaria\, K.\, Velissariou\, P.\, Trimble\, B.\, Mashriqui\, H.\, Moghimi\, S.\, Abdolali\, A.\, Van der Westhuysen\, A.J.\, Ma\, Z.\, Clark\, E.P. and Flowers\, T. (2020). A new 1D/2D Coupled Modeling Approach for a Riverine‐Estuarine System under Storm Events: Application to Delaware River Basin. Journal of Geophysical Research: Oceans\, 125\, e2019JC015822. https://doi.org/10.1029/2019JC015822 \nMoghimi\, S.; Van der Westhuysen\, A.; Abdolali\, A.; Myers\, E.; Vinogradov\, S.; Ma\, Z.; Liu\, F.; Mehra\, A.; Kurkowski\, N. Development of an ESMF Based Flexible Coupling Application of ADCIRC and WAVEWATCH III for High Fidelity Coastal Inundation Studies. J. Mar. Sci. Eng. 2020\, 8\, 308. https://doi.org/10.3390/jmse8050308 \n  \nBiography: Ali completed his Ph.D. and then was a Postdoctoral Research Associate at the University of Delaware\, where he worked on wetland circulation and tsunamigenic induced acoustic-gravity waves in the open ocean and arctic zones. Ali has served as a scientist at NOAA since 2016. During 10 years of his experience\, Ali has worked on Coastal Hazards (Tsunamis\, Hurricanes & Storm Surges)\, Tsunami Early Warning Systems\, Nearshore hydrodynamics (Coastal Morphodynamics & Wetland hydrodynamics)\, Elastic Earth – Compressible Ocean interaction\, Climate Change\, and Sea Level Rise\, Compressible Fluids\, Underwater Acoustics and Renewable Oceanic Wave Energy. His methodology for early detection of tsunamis via underwater acoustic signals attracted the media and scientific community and was published in prestigious journals like Nature and Journal of Fluid Mechanics. Currently\, he is the lead of wave model development at NCEP and the code manager for WAVEWATCH III where he prepares the plans and strategies of future code developments. He is involved with the wave-surge coupling developments for the COASTAL Act and Alaska Coastal Ocean Forecast System (ALCOFS) projects and UFS Weather and GFSv16 developments.
URL:https://ccee.engr.it/event/ewccopri-seminar-by-ali-abdolali-advances-in-the-unstructured-wavewatch-iii-within-earth-system-modeling-framework/
LOCATION:NC
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20210319T125000
DTEND;TZID=America/New_York:20210319T134000
DTSTAMP:20260421T213337
CREATED:20210318T181706Z
LAST-MODIFIED:20210318T181706Z
UID:10000838-1616158200-1616161200@ccee.engr.it
SUMMARY:EWC Seminar by Lutz Ahrens: An overview of treatment techniques for removal of PFASs in water - A Swedish perspective
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nVirtual seminar link: https://ncsu.zoom.us/j/96156963811?pwd=QVRwSmlRZ1lqWm1xL0JVcG9RWC9Zdz09 \nAbstract: Per- and polyfluoroalkyl substances (PFASs) have received increasing attention both in politics and science during the recent decade. PFASs are extremely persistent\, and potentially bioaccumulative and toxic. PFASs affect the environment through the use of aqueous firefighting foam (AFFF) at fire training facilities at airports and waste facilities such as wastewater treatment plants and landfills and have been discovered in high concentrations in drinking water in Sweden and around the world. However\, cost-efficient treatment and\nremediation techniques are lacking. The overall aim of our research is to develop next generation treatment techniques of PFASs in landfill leachate\, wastewater\, stormwater\, and groundwater. In our research group\, different types of treatment techniques are evaluated in laboratory- and pilot-scale including approaches using immobilization/stabilization (i.e. granular activated carbon (GAC)\, anion exchange (AIX))\, separation (i.e. nanofiltration (NF)\, electrodialytic remediation\, phytoremediation\, foam fractionation)\, and destruction (i.e. electrochemical\, biological treatment). Overall\, improvements are needed in separation and destruction treatment technologies to improve their effectiveness for the broad suite of PFASs to become viable treatment options in the future. \nBiography: Lutz Ahrens is an Associate Professor of Environmental Chemistry in the Department of Aquatic Sciences and Assessment at the Swedish University of Agricultural Sciences in Uppsala\, Sweden. He joined the university in 2012 after two postdoctoral research experiences in Germany and Canada and after receiving his PhD degree in 2009 in Germany. Dr. Ahrens’ research program focuses on the detection and remediation of emerging organic contaminants\, such as per- and polyfluoroalkyl substances (PFAS).
URL:https://ccee.engr.it/event/ewc-seminar-by-lutz-ahrens-an-overview-of-treatment-techniques-for-removal-of-pfass-in-water-a-swedish-perspective/
LOCATION:NC
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20210316T160000
DTEND;TZID=America/New_York:20210316T170000
DTSTAMP:20260421T213338
CREATED:20210310T183752Z
LAST-MODIFIED:20210310T183752Z
UID:10000836-1615910400-1615914000@ccee.engr.it
SUMMARY:Strategic Planning for your Job Search
DESCRIPTION:The Civil Engineering Graduate Student Association (CEGSA) is organizing the Strategic Planning for your Job Search\, on Tuesday\, March 16th at 4:00 PM. Dr. Jason Cramer who is the founder of the CareerWell program at UNC\, as well as the A2i program at NCSU will present various strategies such as Personal Branding\, Networking\, Resume Writing\, Interviewing\, and many others for your job search. The flyer and the Zoom link are attached herewith.\n\nLooking forward to seeing you at the seminar\,\n\nThanks\,\nCEGSA \n\nZoom link: 919 4550 9490\nPasscode: 664090
URL:https://ccee.engr.it/event/strategic-planning-for-your-job-search/
LOCATION:NC
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20210312T080000
DTEND;TZID=America/New_York:20210312T170000
DTSTAMP:20260421T213338
CREATED:20210308T194233Z
LAST-MODIFIED:20210308T194246Z
UID:10000835-1615536000-1615568400@ccee.engr.it
SUMMARY:EWC Seminar by Nadine Kotlarz: Monitoring for SARS-CoV-2 RNA in Raleigh wastewater solids as a means of community-wide COVID-19 infection surveillance
DESCRIPTION:Environmental\, Water Resources\, and Coastal Engineering Seminar Series \nVirtual seminar link: https://ncsu.zoom.us/j/96156963811?pwd=QVRwSmlRZ1lqWm1xL0JVcG9RWC9Zdz09 \n\nAbstract: SARS-CoV-2 infected individuals shed the virus in stool. Therefore\, analyzing municipal wastewater is an emerging strategy to track SARS-CoV-2 infections at the community level. We measured SARS-CoV-2 RNA concentrations in primary solids from the Raleigh wastewater treatment plant\, which serves approximately 500\,000 people\, during the COVID-19 pandemic. SARS-CoV-2 RNA was detectable in all solids samples analyzed using direct RNA extraction followed by reverse transcriptase droplet digital PCR targeting two regions of the virus nucleocapsid gene (N1 and N2). SARS-CoV-2 N1 and N2 concentrations in primary solids correlated positively and significantly with laboratory-confirmed COVID-19 case counts in the sewershed. Our data suggest that wastewater surveillance can be used to track COVID-19 infections at the community level. \nBiography: Dr. Nadine Kotlarz is a postdoctoral researcher in the Department of Biological Sciences at NC State University\, and a member of NC State’s Center for Human Health and the Environment. Dr. Kotlarz received her PhD in Environmental Engineering in 2017 from University of Michigan. Her work lies at the interface of engineering and public health\, with a focus on characterizing microbial and chemical contaminants in engineered water systems\, and communicating scientific results to the public. In April 2020\, Dr. Kotlarz teamed up with Drs. Francis de los Reyes and Angela Harris to monitor for SARS-CoV-2 RNA in Raleigh wastewater\, and to evaluate this strategy as a means of tracking COVID-19 infection trends at the community level.
URL:https://ccee.engr.it/event/ewc-seminar-by-nadine-kotlarz-monitoring-for-sars-cov-2-rna-in-raleigh-wastewater-solids-as-a-means-of-community-wide-covid-19-infection-surveillance/
LOCATION:NC
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20210219T125000
DTEND;TZID=America/New_York:20210219T134000
DTSTAMP:20260421T213338
CREATED:20210209T163631Z
LAST-MODIFIED:20210209T163715Z
UID:10000827-1613739000-1613742000@ccee.engr.it
SUMMARY:EWC Seminar by Andrea Cominola\, TU Berlin: From individual end uses to communities. What do smart meter data reveal about water use behaviors?
DESCRIPTION:From individual end uses to communities. What do smart meter data reveal about water use behaviors?\nAndrea Cominola\, Assistant Professor and head of the Smart Water Networks group at the Einstein Center Digital Future and the Technische Universität Berlin\n \nCCEE Environmental\, Water Resources\, and Coastal Engineering Seminar Series\n12:50-1:40\nFriday\, February 19\, 2021\nPlease join us virtually at\nhttps://ncsu.zoom.us/j/96156963811?pwd=QVRwSmlRZ1lqWm1xL0JVcG9RWC9Zdz09\n \nAbstract:\nOver the last three decades\, the development of smart water meter trials and the rise of “digital water” have enabled the collection and analysis of water demand data at increasingly higher spatial and temporal resolutions with advanced metering infrastructure and powerful data analytics. Knowledge on the determinants and patterns of water demand for different consumers can support the design of customized demand management strategies. Yet\, the large-scale collection of water consumption data at high spatial and temporal resolution is hampered by several uncertainties\, including privacy issues\, sensor battery duration\, unclear business models\, benefits for water utilities and water consumers\, and the actual implications for environmental sustainability. In this talk\, we will first analyze the development of advanced metering infrastructure in the global context. Second\, we will show how water consumption data at different spatial and temporal scales\, coupled with advanced data analytics\, can be used to improve our understanding of water usage behaviors\, from individual end uses to communities\, with demonstrative case studies in the USA\, Australia\, and Europe. Finally\, results from recent studies demonstrating how smart meter-based feedback and user engagement can foster long-term water conservation will be critically analyzed.\n\nShort bio:\nAndrea Cominola is an Assistant Professor and head of the Smart Water Networks group at the Einstein Center Digital Future and the Technische Universität Berlin (Germany). He received his PhD in Information Technology at Politecnico di Milano (Italy) for his dissertation on modelling residential water consumers’ behavior using smart meter data. He holds a M.Sc. and a B.Sc. in Environmental and Land Planning Engineering from Politecnico di Milano. He has been visiting PhD candidate at the Watershed Sciences Center and Center for Water-Energy Efficiency of UC Davis (CA – USA). His research is focused on different aspects of digital water\, hydroinformatics\, and related data mining and machine learning applications to advance the digitalization of water/energy utilities\, support water efficiency and conservation\, and consumer engagement. Research topics include intelligent water metering\, behavioral modelling\, urban water/energy demand modelling and management\, water efficiency and conservation\, modeling of water distribution networks and coupled human-environment systems\, and leakage/anomaly detection. He is author of 13 scientific publications in peer-reviewed international journals\, 2 book chapters\, 47 publications/presentations in international conferences\, and reviewer for several international journals. He serves as Associate Editor for the Journal of Water Resources Planning and Management (ASCE) and of the ICE’s Water Management journal. Born and raised in Italy\, Andrea currently lives in Berlin (Germany) and is looking forward to being able to travel again.
URL:https://ccee.engr.it/event/ewc-seminar-andrea-cominola-tu-berlin/
LOCATION:NC
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20201113T134500
DTEND;TZID=America/New_York:20201113T144500
DTSTAMP:20260421T213338
CREATED:20201109T172106Z
LAST-MODIFIED:20201109T172106Z
UID:10000822-1605275100-1605278700@ccee.engr.it
SUMMARY:Computing and Systems Colloquium - Energy Systems Modeling with High Performance Computing Resources: Joe DeCarolis
DESCRIPTION:Climate change coupled with rapid technological innovation is driving large scale change in the global energy system. Computer models of the energy system – referred to as energy optimization system models – provide a way to examine future energy system evolution\, test the effects of proposed policy\, and explore the role of future uncertainty. Modeling the whole energy system is computationally intensive and requires large input datasets. In addition\, in order to deliver insights that are robust to large future uncertainties\, it is necessary to iterate the model many times under different scenario assumptions. \nIn this talk\, Dr. Joseph DeCarolis\, Professor in the Department of Construction\, Civil\, & Environmental Engineering at NC State\, will highlight ongoing work using Tools for Energy Model Optimization and Analysis (Temoa)\, an open source energy system optimization model developed at NC State that is designed to conduct rigorous uncertainty analysis and make use of high-performance computing resources.
URL:https://ccee.engr.it/event/computing-and-systems-colloquium-energy-systems-modeling-with-high-performance-computing-resources-joe-decarolis/
LOCATION:NC
CATEGORIES:Appear On Homepage,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20201103T080000
DTEND;TZID=America/New_York:20201103T170000
DTSTAMP:20260421T213338
CREATED:20201103T162823Z
LAST-MODIFIED:20201103T162823Z
UID:10000821-1604390400-1604422800@ccee.engr.it
SUMMARY:OpenSees Seminar - Dr. Michael H Scott\, Hosted by CEGSA
DESCRIPTION:Civil Engineering Graduate Student Organization (CEGSA) has invited Dr. Michael H Scott to share his expertise with us on the 4th of November at 6 pm EST.  Dr. Scott is a Professor of Structural Engineering in the School of Civil and Construction Engineering at Oregon State University and a developer of the OpenSees finite element software framework.\nHe will give a virtual presentation on OpenSees and its structural applications. There will be some allotted time for any of your questions about OpenSees. \nYou can find the zoom link below.\nhttps://ncsu.zoom.us/j/96247296424 \nHope to see you all there! \nCEGSA\n\n\n\nTopic: OpenSees Seminar – Dr. Michael H Scott\nTime: Nov 4\, 2020 06:00 PM Eastern Time (US and Canada) \nJoin Zoom Meeting\nhttps://ncsu.zoom.us/j/96247296424 \nMeeting ID: 962 4729 6424
URL:https://ccee.engr.it/event/opensees-seminar-dr-michael-h-scott-hosted-by-cegsa/
LOCATION:NC
CATEGORIES:Seminars
END:VEVENT
END:VCALENDAR