eprintid: 38214
rev_number: 7
userid: 3938
dir: disk0/00/03/82/14
datestamp: 2020-02-24 16:55:52
lastmod: 2020-02-24 18:13:40
status_changed: 2020-02-24 16:55:52
type: conference_item
metadata_visibility: show
eprint_status: archive
creators_name: Beckman, Eric
creators_name: Bilec, Melissa
creators_name: Khanna, Vikas
creators_name: Veser, Gotz
creators_name: Liu, Peng
creators_name: Wildermuth, Amy
creators_name: Galperin, Joshua
creators_email: beckman@pitt.edu
creators_email: mbilec@pitt.edu
creators_email: khannav@pitt.edu
creators_email: gveser@pitt.edu
creators_email: pengliu@pitt.edu
creators_email: amy.wildermuth@pitt.edu
creators_email: joshua.galperin@pitt.edu
creators_id: beckman
creators_id: mbilec
creators_id: khannav
creators_id: gveser
creators_id: pengliu
creators_id: wildrmth
creators_id: jug52
creators_orcid: 0000-0002-9958-3589
title: Attacking the Global Plastics Waste Problem
ispublished: unpub
divisions: sch_as_chemistry
divisions: sch_law_law
divisions: sch_eng_chemicalandpetroleum
divisions: sch_eng_civilenvironmental
full_text_status: public
pres_type: poster
abstract: "Plastic waste is a growing problem on a global scale, with the annual global production of synthetic polymers (now >500 million tons per year) predicted to triple by 2050.  At present, large volumes of polymeric waste migrate directly into the environment, and  less than 2% of polymeric waste is collected and reused in high-value applications.  A key obstacle to effective recycling is the vast number of formulations—each tailored to address a particular type of application—which is key to commercial success of polymers but creates a near-impossible separation problem during mechanical recycling and renders current approaches to chemical recycling inefficient.

We are proposing to address this problem by creating a convergent academic center focused on the circular economy of synthetic polymers. This center will tightly integrate the science and engineering of plastics recycling (via a novel approach to chemical recycling of polyolefins using liquid metal catalysts and the a priori design of recyclable thermoset plastics) into the framework of life cycle and techno-economic analyses, and law and governance assessments.  Towards this goal, the center will convene faculty from the Swanson School of Engineering, the Dietrich School or Arts & Sciences, and the Law School, with the required complementary expertise. 

Efforts in year one will be focused on nucleating the collaborative efforts and producing initial results, which then will form the basis for convening a workshop at the start of year 2. This workshop will be used to scale up the effort by connecting to other US academics, industrial partners, and NSF and DOE program managers, in order to position ourselves for large center grants (e.g. NSF ERC, DOE EFRC), and create interest among potential industry sponsors (in particular members of the Alliance to End Global Plastic waste) to join and support this effort."
date: 2020
event_title: Pitt Momentum Fund 2020
event_location: University of Pittsburgh, Pittsburgh, Pa
event_type: other
refereed: FALSE
centers: cen_other_sponsresearch_PMF
id_number: 10.18117/ja8j-jj28
citation:   Beckman, Eric and Bilec, Melissa and Khanna, Vikas and Veser, Gotz and Liu, Peng and Wildermuth, Amy and Galperin, Joshua  (2020) Attacking the Global Plastics Waste Problem.  In: Pitt Momentum Fund 2020, University of Pittsburgh, Pittsburgh, Pa.    (Unpublished)  
document_url: http://d-scholarship-dev.library.pitt.edu/38214/1/BeckmanE-PMFScaling-2020ShowcaseSlide.pdf