Daniel A. Vallero Explained

Daniel A. Vallero
Birth Date:September 5, 1953
Birth Place:East St. Louis, Illinois, United States
Fields:Biosystems engineering
Environmental science
Engineering ethics
Workplaces:Duke University
U.S. Environmental Protection Agency
U.S. House of Representatives Staff
Alma Mater:Southern Illinois University at Edwardsville (B.A.; MS in City & Regional Planning)
University of Kansas (MS in Civil & Environmental Engineering)
Duke University (Ph.D. in Civil & Environmental Engineering)

Daniel A. Vallero is an American environmental author[1] [2] and scientist. He was born in East St. Louis, Illinois and grew up in Collinsville, Illinois. He received a bachelor's degree and a master's degree in city and regional planning from Southern Illinois University-Edwardsville. He also earned a masters in civil and environmental engineering (environmental health sciences) from the University of Kansas and a PhD in civil and environmental engineering from Duke University with a thesis on "“Dicarboximide Fungicide Flux to the Lower Troposphere from an Aquic Hapludult Soil”[3] [4]

Career

Vallero is recognized internationally for advancing the state of environmental science and engineering, as an author, educator, engineer and scientific researcher. He has appeared on news and other shows, recently discussing plastic recycling on NBC's Today Show (http://www.today.com/video/today/51620316) and on MSNBC, and current state of ethics in research at universities.[5] He began his professional career in the Kansas City regional office of the U.S. Environmental Protection Agency in 1976 and has worked in numerous other scientific venues since then.[6] He directed the Science, Technology and Human Values Program at Duke University from 1997 to 2005. Beginning in 2005, he has been adjunct Professor of Engineering Ethics at Duke University, with a joint appointment in the Department of Civil and Environmental Engineering, and the Trinity School of Arts and Sciences. He held appointments also at the University of Missouri-Kansas City, North Carolina Central University, and as science staff member on Energy and Power Subcommittee of the United States House of Representatives. In his books and other writings, Vallero has taken the systems view of science and engineering as they relate to life at every scale from molecular to planetary. As such he has bridged biomedical engineering with environmental engineering. He stresses the need to incorporate the social sciences into every engineering and design project. As a leader in engineering ethics, he has served the National Academy of Engineering as a member of the Online Ethics Committee and the Executive Board of the National Institute of Engineering Ethics. Vallero has also advised Sigma Xi, universities and other institutions on science and research ethics and the responsible conduct of research (RCR).

Vallero is editor for the Institution of Chemical Engineers' journal, Process Safety and Environmental Protection, as well as the MDPI journal, Sustainability. He is also the environmental engineering subject editor of the McGraw-Hill Encyclopedia of Science & Technology and the McGraw-Hill Yearbook of Science & Technology.

Works

Vallero is a pioneer of green engineering and the application of life cycle analysis to engineering design. He was among the first to question the sustainability and ethics of using corn as a source of ethanol fuel. His reasoning was that current farming practice's dependence on fossil fuels needed to grow (including fertilizer and pesticides), harvest and ferment the corn is highly inefficient thermodynamically. The use of corn for fuel is especially problematic, since only the seed are used, not to mention the misuse of an important part of the global food supply.[7] Vallero argued that other crops are much more sustainable, especially those that make use of the whole plant, including cellulosic material, like switchgrass (Panicum virgatum).

More recently, he has argued that a systematic approach and life cycle view be taken for climate-related actions, especially the need for scientifically credible risk assessments to inform the rapid expansion in the production of electric vehicles (EVs). As such, extraction and processing of rare earth elements and metals, especially copper, cobalt, and lithium will be met with large environmental risks that must be factored into large-scale decisions during the transition away from fossil fuels. For example, the environmental and social devastation that is presently occurring in the Republic of the Congo to extract cobalt must be part of any risk-benefit analysis, along with other environmental justice (EJ) and ethical factors. in addition, Vallero argues that there are major challenges ahead on the disposal and recycling of EV batteries, which calls for a sound application of Design for the Environment (DfE) methods, especially disassembly, decontamination, and reuse. Up to now, developing countries have received a disparate burden of the disposal of electronic waste (E-waste).

In the book, "DUST: The inside Story of its Role in the September 11th Aftermath," [8] the late American scientist Paul Lioy credited Vallero with leading the way to sampling of hazardous air pollutants in and around Ground Zero following the 9/11 attacks on the World Trade Center. Lioy collaborated with Vallero in establishing a protocol for characterizing exposure in risk assessments following such emergencies. Lioy and Vallero coined the term “5 R’s” to delineate how exposure assessment varies during the five stages following a disaster: 1. Rescue; 2. Recovery; 3. Reentry; 4. Restoration; and 5. Rehabitation.[9]

With architect, Chris Brasier, Vallero coined the term "synthovation," as a new design process for green engineering and green architecture.[10] A combination of synthesis and innovation, sustainable design does not consider innovation to be an interruption (feedback loop) to the design process as in traditional "concept to completion" design. Rather, innovations are to be expected and integrated. Differing from the traditional step-wise process, synthovation is a spiral, dynamic, and continuously moving process toward completion of the design and throughout the life of the project, including end-of life recycling and design for disassembly, a component of design for environment (DfE), with innovations added along the way that will increase the sustainability of the project over its entire life cycle.

In her book, "Hormone Deception",[11] Lindsey Berkson credits Vallero as among the first to apply exposure science to endocrine disruptors.

Books

External links

Notes and References

  1. Web site: Shop and Discover Books, Journals, Articles and more. www.elsevier.com. 12 May 2023.
  2. Web site: Frontmatter - Sustainable Design - Wiley Online Library. 12 May 2023.
  3. Web site: Daniel Vallero. Duke Civil and Environmental Engineering. 12 May 2023.
  4. Web site: Curriculum vitae at Duke. 12 May 2023.
  5. https://www.usnews.com/education/best-graduate-schools/top-engineering-schools/articles/2012/05/31/ethics-courses-trending-at-graduate-engineering-schools?page=2 U.S. News & World Report
  6. Web site: Researcher page at EPA. 12 May 2023.
  7. D. Vallero and C. Brasier (2008). Teaching green engineering: The case of ethanol life cycle analysis. Bulletin ofScience, Technology & Society. 28 (3): 236-243.
  8. P.J. Lioy (2010). DUST: The Inside Story of Its Role in the September 11th Aftermath (Foreword By Tom Kean). Lanham, MD: Rowman and Littlefield. .
  9. D. Vallero and P. Lioy (2012). The 5-R’s: Reliable Post-Disaster Exposure Assessment. Leadership and Management and Engineering. 12 (4): 247-253. (October 2012).
  10. D. Vallero and C. Brasier (2008), Sustainable Design: The Science of Sustainability and Green Engineering. John Wiley and Sons, Inc., Hoboken, NJ, .
  11. L. Berkson (2010), Hormone Deception. CreateSpace Independent Publishing Platform; 1 edition,
  12. Web site: 20 Best Environmental Science Books of All Time. BookAuthority. 12 May 2023.
  13. https://www.ebscohost.com/assets-ebooks/title-lists/eBook_Choice_Outstanding_Academic_Titles_(OAT).xls eBook Choice Outstanding Academic Titles
  14. Web site: Sustainable design: the science of sustainability and green engineering . WorldCat.org . 12 May 2023.
  15. Web site: Waste : a handbook for management . WorldCat.org . 12 May 2023.
  16. Web site: Environmental biotechnology : a biosystems approach . WorldCat.org . 12 May 2023.
  17. Web site: Biomedical ethics for engineers : ethics and decision making in biomedical and biosystem engineering | WorldCat.org. www.worldcat.org. 12 May 2023.
  18. Web site: Socially responsible engineering : justice in risk management . WorldCat.org . 12 May 2023.
  19. http://www.worldcat.org/oclc/061456533 WorldCat
  20. Web site: Environmental contaminants : assessment and control . WorldCat.org . 12 May 2023.