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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20171201T125000
DTEND;TZID=America/New_York:20171201T134000
DTSTAMP:20260426T101430
CREATED:20170831T232041Z
LAST-MODIFIED:20171127T134850Z
UID:10000663-1512132600-1512135600@ccee.engr.it
SUMMARY:EWC Seminar 12/01 : Ezra Cates
DESCRIPTION:Our EWC seminar on this Friday\, Dec 1\, will feature Dr. Ezra Cates from Clemson University.  He will discuss “Radiation-based Processes and Materials for Advanced Water Treatment Technologies.”  An abstract is included below.  Please join us in Mann 304 from 12:50-1:40pm. \n\nTitle: Radiation-based Processes and Materials for Advanced Water Treatment Technologies \n\nAbstract: As a tool for selective chemical transformations\, the electromagnetic spectrum offers a wide range of wavelengths and various forms of light-matter interactions. Ultraviolet irradiation\, for example\, has become a widespread means of pathogen inactivation and contaminant degradation in the water treatment field. The Cates Lab explores new applications of radiation for water treatment technologies\, and seeks to develop advanced materials that aid in the production and manipulation of photon energy. Topics will include: emerging applications of X-ray irradiation\, including radioluminescence membrane biofouling control and radiocatalytic materials; and advances in UV photocatalysts for degradation of perfluoroalkyl contaminants.
URL:https://ccee.engr.it/event/ewc-seminar-2017-12-01/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20171117T125000
DTEND;TZID=America/New_York:20171117T134000
DTSTAMP:20260426T101430
CREATED:20170831T232041Z
LAST-MODIFIED:20171113T172453Z
UID:10000662-1510923000-1510926000@ccee.engr.it
SUMMARY:COPRI & EWC Seminar 11/17 : Navid Tahvildari
DESCRIPTION:We will co-host our regular seminar on this Friday\, Nov 17\, with the Coasts\, Oceans\, Ports & Rivers Institute (COPRI) student chapter. Dr. Navid Tahvildari of Old Dominion University will share a seminar about “Nonlinear Dynamics of Surface Waves in Dissipative Environments.” An abstract and bio are included below. Please join us in Mann 304 from 12:50-1:40pm. \n  \nAbstract: Accurate estimation of wave energy in the nearshore is critical for predicting storm forces on coastal infrastructure and estimating sediment transport. While it is well known that surface waves can undergo significant dissipation in interaction with aquatic vegetation canopies or muddy seabed\, these processes are often modeled after applying simplifications that can affect both the rate of dissipation and the characteristics of surface waves resulting in potential inaccuracies in wave forecasting. Here\, we present results of two phase-resolving numerical models that were developed to improve our understanding of mud- and vegetation-induced surface wave dynamics. First\, a frequency-domain model is developed to simulate wave interaction with viscoelastic muds. The results indicate that compared to a widely-used model for viscous mud\, viscoelastic mud can cause stronger or weaker dissipation depending on wave frequency affecting both bulk measures and the shape of the spectrum. Furthermore\, a time-domain model is developed to simulate the interactions between waves and flexible vegetation. The model applies no limitation on vegetation rigidity\, hence is capable of simulating extreme stem deflections as observed in seagrasses. Model validation and variations in frequency-dependent vegetative drag force will be discussed. \n  \nBio: Dr. Navid Tahvildari is an assistant professor in the Department of Civil and Environmental Engineering at Old Dominion University. Dr. Tahvildari received his Ph.D. in civil engineering with coastal and ocean engineering focus from Texas A&M University in 2011. Prior to joining ODU\, he was a postdoctoral scholar at the Environmental Fluid Mechanics Laboratory at Stanford University. His research interests include analytical and computational modeling of oceanic surface and internal waves\, wave processes in natural and nature-based features\, and the vulnerability of coastal infrastructure to flooding.
URL:https://ccee.engr.it/event/ewc-seminar-2017-11-17/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20171110T125000
DTEND;TZID=America/New_York:20171110T134000
DTSTAMP:20260426T101430
CREATED:20170831T232041Z
LAST-MODIFIED:20171030T133700Z
UID:10000653-1510318200-1510321200@ccee.engr.it
SUMMARY:EWC Seminar
DESCRIPTION:
URL:https://ccee.engr.it/event/ewc-seminar-2017-11-10/2017-11-10/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20171103T125000
DTEND;TZID=America/New_York:20171103T134000
DTSTAMP:20260426T101430
CREATED:20170831T232041Z
LAST-MODIFIED:20171030T133857Z
UID:10000650-1509713400-1509716400@ccee.engr.it
SUMMARY:EWC Seminar 11/03 : Kevin Finneran
DESCRIPTION:Our EWC seminar on this Friday\, Nov 3\, will feature Dr. Kevin Finneran from Clemson University.  He will discuss “What do you want me to do with this electron acceptor?”  An abstract is included below.  Please join us in Mann 304 from 12:50-1:40pm. \nThe volatility of foreign and domestic petroleum markets has prompted initiatives for the development of alternative liquid energy carriers which have the capacity to accommodate our current transportation infrastructure. Butanol\, which has an energy density similar to that of gasoline and can be produced through the fermentation of carbohydrates by solventogenic Clostridia\, has been investigated as a supplement or direct replacement to gasoline. However\, most butanol fermentations rely on glucose as a feedstock which is in direct competition with our food supply\, and this requires the exploration of alternative fermentable substrates. \nThis study investigated the use of chemical and electrochemical fermentation modifications as “drop-in” strategies to stimulate bacterial solventogenesis (butanol) and the consumption of xylose\, which is the second most abundant sugar contained within lignocellulosic biomass\, but is generally considered a much lower value substrate because of poor utilization and lower product yields. Monoculture\, solventogenic Clostridia and mixed (non-Clostridia) consortia were challenged with electron shuttling compounds and/or a terminal electron acceptor in the form of ferric iron or solid-state graphite electrodes. Results from this study indicated that electron shuttling to ferrihydrite stimulates concomitant increases in metabolite production and xylose consumption for both pure and mixed culture fermentations in which xylose was utilized as the sole fermentable substrate. Mediatorless electrochemical stimulation of solventogenesis and xylose consumption was developed in fermentations challenged with an economical (i.e. lab made)\, solid-state graphite electrode system. Data presented within this study indicate that extracellular electron transport to terminal electron acceptors has a global\, supplementary effect on fermentative bacterial metabolism.  In addition\, data have demonstrated that xylose plus ferric iron added to environmental media selects for fermentative biomass\, rather than Fe(III)-reducing biomass.
URL:https://ccee.engr.it/event/ewc-seminar-2017-11-03/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20171027T125000
DTEND;TZID=America/New_York:20171027T134000
DTSTAMP:20260426T101430
CREATED:20170831T232041Z
LAST-MODIFIED:20171024T194217Z
UID:10000649-1509108600-1509111600@ccee.engr.it
SUMMARY:EWC Seminar 10/27 : Brian Stoner
DESCRIPTION:Our EWC seminar on this Friday\, Oct 27\, will feature Dr. Brian Stoner\, who is a research professor at Duke.  He will discuss “The Sanitation Technology Cluster: Partnerships to address complex global challenges in WaSH.”  A bio is included below.  Please join us in Mann 304 from 12:50-1:40pm. \nBio: Brian R. Stoner\, Ph.D. is Director of Duke’s Center for WaSH-AID\, Research Professor in Electrical and Computer Engineering and visiting Distinguished Fellow in Global Health Technologies from RTI International.  Brian is a materials scientist with expertise in the synthesis\, processing\, and characterization of materials using electrical\, electrochemical and plasma techniques. At Duke University\, he leads multidisciplinary programs in Global Health Technologies with an emphasis on integrating expertise across engineering\, social science\, economics and policy to address complex global challenges. He holds 23 U.S. patents related to novel microelectronic materials and systems\, and has authored or co-authored two book chapters and more than 150 scientific publications.
URL:https://ccee.engr.it/event/ewc-seminar-2017-10-27/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20171020T125000
DTEND;TZID=America/New_York:20171020T134000
DTSTAMP:20260426T101430
CREATED:20170831T232041Z
LAST-MODIFIED:20171016T124922Z
UID:10000648-1508503800-1508506800@ccee.engr.it
SUMMARY:EWC Seminar 10/20: Sivamaran Balachandran
DESCRIPTION:Our regular EWC seminar on this Friday\, Oct 13\, will feature Dr. Sivaraman Balachandran from the University of Cincinnati. He will discuss “Spatiotemporal Variability of PM2.5 in Cincinnati\, OH: From Measurements to Modeling to Exposure.” An abstract and bio are included below. Please join us in Mann 304 from 12:50-1:40pm. \nAbstract: Several studies are currently being conducted to better understand spatial and temporal variation of PM2.5 in the Cincinnati metro area. First\, we are conducting temporal interpolation modeling of Cincinnati’s central air quality monitoring data for use in epidemiologic studies. Results will be utilized by Cincinnati Children’s Health Medical Center in time-series epidemiologic studies. Second\, we have been looking at better understanding the importance of local-scale emissions versus meteorological variability in impacting spatial differences in pollution concentrations. We are analyzing several years (2008 – 2015) of hourly PM2.5 and meteorological data at seven continuous PM2.5 monitors\, over a four-county region\, operated by the Southwest Ohio Air Quality Agency (SWOAQA). Our goal is to understand spatial variability at an hourly-scales\, with a particular focus on transportation patterns\, which can aid in better estimating exposure in activity-based models. Finally\, we have been conducting several field campaigns at the SWOAQA Near-Roadway (NR) Monitoring Site. The goal of this research work has been to characterize the composition of fine particulate matter air pollution (PM2.5)\, noise and PM2.5 metals content resulting from near-road transportation courses under varying traffic states at fine temporal scales. The results will provide insight into better understanding of near real-time composition of several important constituents of fine particulate matter\, namely\, metals and black carbon. \nBio: Dr. Sivaraman Balachandran is an Assistant Professor of Environmental Engineering at the University of Cincinnati. His area of research is air pollution\, specifically source apportionment of fine particulate matter. Dr. Balachandran is currently researching spatiotemporal trends in air pollution in Cincinnati\, OH\, USA using regulatory monitor data\, portable real-time monitors and modeling techniques. In addition\, Dr. Balachandran is working on using data analytics to better understand human activity patterns and how they can inform estimates of exposure to air pollution. Dr. Balachandran teaching interests include both undergraduate classes in Environmental Engineering and specialized courses related to air pollution. Dr. Balachandran received his PhD in Environmental Engineering from the Georgia Institute of Technology in 2013. Prior to his PhD\, he worked for the Washington State Department of Transportation and the Seattle Department of Transportation focusing on highway safety and neighborhood traffic calming. Dr. Balachandran also has co-authored 14 peer reviewed publications\, 8 conference presentations and one book chapter. Dr. Balachandran is currently working with two PhD students as well as an undergraduate research assistant. He has also worked with two Master’s students and one undergraduate student through the Women in Science and Engineering (WISE) program at UC in the summer of 2015.
URL:https://ccee.engr.it/event/ewc-seminar-2017-10-20/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20171013T125000
DTEND;TZID=America/New_York:20171013T134000
DTSTAMP:20260426T101430
CREATED:20170831T232041Z
LAST-MODIFIED:20171009T163930Z
UID:10000647-1507899000-1507902000@ccee.engr.it
SUMMARY:EWC Seminar 10/13 : Jacqueline MacDonald Gibson
DESCRIPTION:Our EWC seminar on this Friday\, Oct 13\, will feature Dr. Jacqueline MacDonald Gibson\, who is an associate professor in the Gillings School of Public Health at UNC.  She will discuss “Racial Disparities in Access to Municipal Water Service: Water Quality\, Health Impacts\, and Costs.”  An abstract and bio are included below.  Please join us in Mann 304 from 12:50-1:40pm.\n\nAbstract: Over the last 100 years\, installation of community water systems substantially decreased US waterborne diseases. However\, throughout the South\, some communities were excluded from these systems as a result of racial segregation\, and some of the resulting disparities persist.  The magnitude of exclusion risks\, water quality in affected areas\, health implications\, and costs of connecting to nearby municipal water utilities are not well understood. This presentation will summarize four years of research to characterize the locations of affected communities\, their drinking water quality\, potential health risks\, and costs of and barriers to extending municipal water service in Wake County\, NC’s second-largest county by population and location of the state capital.  The research has included analysis of tax parcel and census data\, water quality testing\, population intervention modeling using hospital emergency department data\, development of preliminary engineering plans for extending municipal water pipes\, and open-ended interviews.  Overall\, our analysis has documented significant and persistent exclusion from municipal water service with associated negative health consequences.  Odds of exclusion from municipal water service increase by 4% for every 10% increase in a census block’s African American population proportion.  Water testing in 57 affected homes found 49% tested positive for total coliform bacteria.  Additional testing found lead above the health-based action level (15 ppb) in first-draw samples from 8 of 29 homes.  Our population intervention model estimated that 21% (95% CI 14-31%) of 110 annual emergency department visits for acute gastrointestinal illness among approximately 3\,800 affected county residents are attributable to exclusion from municipal water service. Cost is a major barrier to extending water service\, with per-household costs of approximately $20\,000 and disagreements over who should bear those costs.  Overall\, our research suggests the need for interventions to improve water quality and protect health in these communities.\n\nBio: Dr. Jacqueline MacDonald Gibson is Associate Professor in the Department of Environmental Sciences and Engineering within the Gillings School of Global Public Health at the University of North Carolina–Chapel Hill.  For 2017–2018\, she also is serving as a University Scholar (a competitively awarded appointment) at RTI International.
URL:https://ccee.engr.it/event/ewc-seminar-2017-10-13/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20170929T125000
DTEND;TZID=America/New_York:20170929T134000
DTSTAMP:20260426T101430
CREATED:20170831T232041Z
LAST-MODIFIED:20170925T150556Z
UID:10000646-1506689400-1506692400@ccee.engr.it
SUMMARY:EWC Seminar 09/29 : Catherine Zhang
DESCRIPTION:Our EWC seminar on this Friday\, Sep 29\, will feature Dr. Catherine Zhang\, who is a postdoctoral teaching scholar at BTEC. She will discuss “Energy-Water-Environment Nexus: Synergy between Environmental Engineering and Biomanufacturing.” An abstract and bio are included below. Please join us in Mann 304 from 12:50-1:40pm. \nAbstract: This presentation will focus on how to address the energy-water-environmental nexus by linking environmental engineering and the biomanufacturing industry. Advancements in biomanufacturing technologies\, such as fermentation and bioprospecting\, can be applied to environmental engineering. Meanwhile\, environmentally friendly biomanufacturing systems are essential for the sustainable production of bioproducts required for maintaining healthy communities. Examples such as biohydrogen production from biomass and LCA for emerging biomanufacturing systems will be discussed. \nBiohydrogen is a promising clean energy carrier\, but three key challenges for large-scale biohydrogen production are to increase\, 1) the hydrogen production rate\, 2) the hydrogen molar yield\, and 3) the extent of substrate utilization. A co-culture fermentation system for C. beijerinckii and G. metallireducens with extracellular electron shuttles called anthrahydroquinone-2\,6-disulfonate (AH2QDS) was developed and evaluated for improved biohydrogen production\, and then applied to ferment complex substrates from hydrolysates of lignocellulosic biomass as well as to utilize alternative extracellular electron shuttles (EES). The observed improvements in utilizing lignocellulosic hydrolysates and particularly on utilization of xylose support the feasibility of applying this co-culture system to biohydrogen production from lignocellulosic hydrolysates\, especially xylose-rich ones. In addition\, the replacement of AH2QDS by alternative EES\, especially humic acids\, makes the co-culture fermentation more economical and flexible. \nIn biomanufacturing\, there has been a rapid transition from traditional cleanable processes to disposable processes to achieve more flexibility\, lower costs\, and less risk of contamination. However\, the life-cycle assessment (LCA) of these systems are mainly provided by vendors and based on mammalian cell-line facilities within the United States. An educational version of open source LCA tools using Solid Waste Optimization Life-cycle Framework (SWOLF) is being developed and will be incorporated into biomanufacturing courses for biopharmaceutical industry professionals\, which will improve the awareness of sustainability in biomanufacturing industry. \nBio: Xinyu “Catherine” Zhang received her PhD degree in Environmental Engineering from the University of Illinois at Urbana-Champaign. She is currently a Postdoctoral Teaching Scholar at Biomanufacturing Training & Educational Center (BTEC) at North Carolina State University. Her research focus is on biofuel/biochemical production via fermentation technologies\, sustainability in biomanufacturing industry\, and new techniques for engineering education.
URL:https://ccee.engr.it/event/ewc-seminar-2017-09-29/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20170915T125000
DTEND;TZID=America/New_York:20170915T134000
DTSTAMP:20260426T101430
CREATED:20170831T232041Z
LAST-MODIFIED:20170911T131525Z
UID:10000645-1505479800-1505482800@ccee.engr.it
SUMMARY:EWC Seminar 09/15 : Stephanie Bolyard
DESCRIPTION:Our EWC seminar on this Friday\, Sep 15\, will feature Dr. Stephanie Bolyard from the Environmental Research and Education Foundation.  She will discuss “Application of Landfill Treatment Approaches for the Stabilization of Municipal Solid Waste”  An abstract and bio are included below.  Please join us in Mann 304 from 12:50-1:40pm. \nAbstract: The bioreactor landfill is an important component of current sustainable waste management practices.  However\, after the landfill has been operated for a period of time and the anaerobically biodegradable organic compounds are removed\, the leachate may contain inorganic contaminants and refractory organic by-products that threaten the environment and human health. \nThis research compared the effectiveness of three landfill treatment approaches aimed at removing releasable carbon and nitrogen after anaerobic landfilling. The three landfill treatment approaches included (1) flushing with clean water\, (2) leachate recirculation with ex-situ treatment\, and (3) leachate recirculation with ex-situ treatment and in-situ aeration. The latter scenario is referred to as Stabilization through Treatment\, Aeration\, and Bioreactor Leaching (STABL) which is an approach that combines flushing\, aeration\, and external chemical oxidation of chemical oxygen demand to further stabilize the waste in a landfill. \nThis research provided information regarding the extent of waste decomposition possible under three different treatment scenarios. Results showed that treatment beyond the bioreactor landfill can further stabilize solids as well as reduce leachate contaminants. Despite the extent of stabilization there were components still remaining (including material that would produce methane) and additional costs for achieving these completion states are significant. \nBio: Stephanie C. Bolyard is the Research and Scholarships Program Manager for the Environmental Research and Education Foundation. Stephanie has a Ph.D. and M.S. in Environmental Engineering from the University of Central Florida (UCF)\, as well as a BS in Chemistry from the University of Florida. Stephanie worked for Brown and Caldwell and the Florida Department of Environmental Protection prior to starting her graduate studies. Collectively\, she has eight years of academic and professional experience in various fields\, including domestic wastewater permitting\, environmental compliance and solid waste management. She has presented her research nationally and internationally and has receive numerous awards and honors for her research\, academic\, and leadership accomplishments.
URL:https://ccee.engr.it/event/ewc-seminar-2017-09-15/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20170914T120000
DTEND;TZID=America/New_York:20170914T131500
DTSTAMP:20260426T101430
CREATED:20170909T005512Z
LAST-MODIFIED:20170912T131235Z
UID:10000526-1505390400-1505394900@ccee.engr.it
SUMMARY:Construction Engineering Roundtable
DESCRIPTION:Join distinguished NCSU Construction Engineering Alumni for a roundtable discussion about a future career as a construction engineer\, professional licensing as a construction engineer\, types of design work performed by construction engineers\, and other issues.
URL:https://ccee.engr.it/event/construction-engineering-roundtable/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20170901T125000
DTEND;TZID=America/New_York:20170901T134000
DTSTAMP:20260426T101430
CREATED:20170831T232041Z
LAST-MODIFIED:20170831T232242Z
UID:10000644-1504270200-1504273200@ccee.engr.it
SUMMARY:EWC Seminar 09/01 : Thomas Easley
DESCRIPTION:Our EWC seminar on this Friday\, Sep 1\, will feature Dr. Thomas Easley\, the Director of Community for Diversity in the College of Natural Resources.  He will discuss “Diversity and Environmental Justice?”  An abstract is included below.  Please join us in Mann 304 from 12:50-1:40pm. \nAbstract: In order to engage in environmental justice\, its very important that one understands diversity. The many facets of diversity\, when explored\, can help one view society through many lenses which also can result in developing new understanding. Furthermore\, the environment can also have many meanings and different communities may view and use the environment differently.   With new understandings\, an individual can enhance their capacity to interact cross culturally\, hopefully minimize damage to the environment and prevent committing personal or emotional injury to people.
URL:https://ccee.engr.it/event/ewc-seminar/
LOCATION:Mann 304\, Mann Hall\, Raleigh\, NC\, United States
CATEGORIES:Appear On Homepage,Seminars
GEO:35.7852401;-78.6692049
X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Mann 304 Mann Hall Raleigh NC United States;X-APPLE-RADIUS=500;X-TITLE=Mann Hall:geo:-78.6692049,35.7852401
END:VEVENT
END:VCALENDAR