FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2408445505> ?p ?o ?g. }

• W2408445505 abstract "Abstract NOTE: The first page of text has been automatically extracted and included below in lieu of an abstract Main Menu Session 3251 A Program to Help University Professors Teach Green Engineering Subjects in their Courses Robert P. Hesketh, Mariano J. Savelski, C. Stewart Slater, Kathryn Hollar, Stephanie Farrell Rowan University Chemical Engineering 201 Mullica Hill Rd, Glassboro, NJ 08028-1701 Abstract The need to introduce green engineering concepts to undergraduate students has become recognized to be increasingly important by industry and the general populace. The most common method to introduce environmental engineering is through a senior/graduate level elective course on environmental engineering. We believe that green engineering should be taught in a range of courses within an engineering discipline. In 1998 the Environmental Protection Agency initiated a program in green engineering to develop a text book on green engineering; disseminate these materials and assist university professors in using these materials through national and regional workshops. The textbook is titled, “Green Engineering: Environmentally Conscious Design of Chemical Processes,” and the major authors are David Allen and David Shonnard. The textbook is designed for a senior and graduate chemical engineering course in this subject. Through a program funded by the EPA the use of this text can be incorporated throughout the curriculum. In this program we have developed teaching aides that include: MS PowerPoint presentations, lecture notes, example problems, homework problems, case studies and experiments. In this program we have tailored these tools to fit specific engineering classes such as freshmen and sophomore engineering, mass & energy balances, materials, thermodynamics and upper level chemical engineering courses. We believe that using green engineering principles at the start of the design process will lead to processes and products of a sustainable future. INTRODUCTION We believe that the methods of green engineering should be used by all engineers in their daily work. Using these methods will lead to a sustainable future for all. The need to introduce green engineering concepts to undergraduate students has become recognized to be increasingly important.1 This need is being driven in part through the US Engineering Accreditation Commission Accreditation Board for Engineering and Technology (ABET) criteria 2000. Based on this criteria chemical engineering departments must incorporate “ethics, safety and the environment” into the curricula. An additional criterion that must be satisfied is to prepare students with a broad education to understand the impact of engineering solutions in a global context. In addition, there has been a large amount of news coverage on governmental solutions to world environmental problems, but we believe that the more significant driver is the adoption by the chemical industry to move toward a sustainable future. Key chemical companies in this drive are DuPont2,3, BP4,5, Dow6,3, Merck7, GSK8, Rohm & Haas9. In addition, professional organizations have taken up issues in sustainable development such as AIChE’s CWRT center10 the American Chemical Society11 and the Chemical Industry Council Responsible Care program12. A Proceedings of the 2002 American Society for Engineering Education Annual Conference & Exposition Copyright  2002, American Society for Engineering Education Main Menu" @default.
• W2408445505 created "2016-06-24" @default.
• W2408445505 creator A5002774943 @default.
• W2408445505 creator A5014208444 @default.
• W2408445505 creator A5051279265 @default.
• W2408445505 creator A5052759981 @default.
• W2408445505 creator A5061008995 @default.
• W2408445505 date "2020-09-03" @default.
• W2408445505 modified "2023-09-28" @default.
• W2408445505 title "A Program To Help University Professors Teach Green Engineering Subjects In Their Courses" @default.
• W2408445505 cites W1502401714 @default.
• W2408445505 cites W1602868670 @default.
• W2408445505 cites W2007328251 @default.
• W2408445505 cites W2166068489 @default.
• W2408445505 cites W218241141 @default.
• W2408445505 cites W2204437908 @default.
• W2408445505 cites W2267762177 @default.
• W2408445505 cites W2613516882 @default.
• W2408445505 cites W2889229755 @default.
• W2408445505 cites W46247950 @default.
• W2408445505 cites W575279103 @default.
• W2408445505 cites W67834757 @default.
• W2408445505 cites W9079867 @default.
• W2408445505 doi "https://doi.org/10.18260/1-2--10861" @default.
• W2408445505 hasPublicationYear "2020" @default.
• W2408445505 type Work @default.
• W2408445505 sameAs 2408445505 @default.
• W2408445505 citedByCount "2" @default.
• W2408445505 countsByYear W24084455052020 @default.
• W2408445505 crossrefType "proceedings-article" @default.
• W2408445505 hasAuthorship W2408445505A5002774943 @default.
• W2408445505 hasAuthorship W2408445505A5014208444 @default.
• W2408445505 hasAuthorship W2408445505A5051279265 @default.
• W2408445505 hasAuthorship W2408445505A5052759981 @default.
• W2408445505 hasAuthorship W2408445505A5061008995 @default.
• W2408445505 hasBestOaLocation W24084455051 @default.
• W2408445505 hasConcept C108170787 @default.
• W2408445505 hasConcept C110354214 @default.
• W2408445505 hasConcept C127413603 @default.
• W2408445505 hasConcept C136764020 @default.
• W2408445505 hasConcept C144024400 @default.
• W2408445505 hasConcept C145420912 @default.
• W2408445505 hasConcept C15744967 @default.
• W2408445505 hasConcept C161191863 @default.
• W2408445505 hasConcept C19417346 @default.
• W2408445505 hasConcept C2777855551 @default.
• W2408445505 hasConcept C2779182362 @default.
• W2408445505 hasConcept C33923547 @default.
• W2408445505 hasConcept C36289849 @default.
• W2408445505 hasConcept C41008148 @default.
• W2408445505 hasConcept C47177190 @default.
• W2408445505 hasConcept C5041995 @default.
• W2408445505 hasConceptScore W2408445505C108170787 @default.
• W2408445505 hasConceptScore W2408445505C110354214 @default.
• W2408445505 hasConceptScore W2408445505C127413603 @default.
• W2408445505 hasConceptScore W2408445505C136764020 @default.
• W2408445505 hasConceptScore W2408445505C144024400 @default.
• W2408445505 hasConceptScore W2408445505C145420912 @default.
• W2408445505 hasConceptScore W2408445505C15744967 @default.
• W2408445505 hasConceptScore W2408445505C161191863 @default.
• W2408445505 hasConceptScore W2408445505C19417346 @default.
• W2408445505 hasConceptScore W2408445505C2777855551 @default.
• W2408445505 hasConceptScore W2408445505C2779182362 @default.
• W2408445505 hasConceptScore W2408445505C33923547 @default.
• W2408445505 hasConceptScore W2408445505C36289849 @default.
• W2408445505 hasConceptScore W2408445505C41008148 @default.
• W2408445505 hasConceptScore W2408445505C47177190 @default.
• W2408445505 hasConceptScore W2408445505C5041995 @default.
• W2408445505 hasLocation W24084455051 @default.
• W2408445505 hasOpenAccess W2408445505 @default.
• W2408445505 hasPrimaryLocation W24084455051 @default.
• W2408445505 hasRelatedWork W2112668038 @default.
• W2408445505 hasRelatedWork W2348742136 @default.
• W2408445505 hasRelatedWork W2362684574 @default.
• W2408445505 hasRelatedWork W2748952813 @default.
• W2408445505 hasRelatedWork W2899084033 @default.
• W2408445505 hasRelatedWork W3087157779 @default.
• W2408445505 hasRelatedWork W3110705467 @default.
• W2408445505 hasRelatedWork W4231927834 @default.
• W2408445505 hasRelatedWork W4290792893 @default.
• W2408445505 hasRelatedWork W4306770904 @default.
• W2408445505 isParatext "false" @default.
• W2408445505 isRetracted "false" @default.
• W2408445505 magId "2408445505" @default.
• W2408445505 workType "article" @default.