eprintid: 16613 rev_number: 22 userid: 984 dir: disk0/00/01/66/13 datestamp: 2013-01-31 21:15:25 lastmod: 2018-01-31 06:15:04 status_changed: 2013-01-31 21:15:25 type: thesis_degree metadata_visibility: show contact_email: briana.niblick@gmail.com item_issues_count: 0 eprint_status: archive creators_name: Niblick, Briana creators_email: brn14@pitt.edu creators_id: BRN14 title: Integrating Spatial Implications into Solving Life-Cycle Challenges of Biofuels and Industrial Symbiosis ispublished: unpub divisions: sch_eng_civilenvironmental full_text_status: public keywords: industrial symbiosis; geographic information systems (GIS); life cycle assessment; biofuels abstract: Biofuels have demonstrated great promise for global energy production. In the United States, the Renewable Fuel Standard (RFS2) of the Energy Independence and Security Act of 2007 (EISA) calls for the production of 15.2 billion gallons of renewable fuels per year by 2013, 1.28 billion gallons of which need to be biomass-based diesel. Increased biofuel production can help meet rising energy demands, however most biofuel production processes are land- and nutrient-intensive, and must be managed throughout the life cycle to ensure sustainability. The goal of this dissertation was to evaluate industrial symbiosis as a sustainable approach to U.S. biofuel and energy production by creating a framework using GIS that integrates the spatial implications of land and nutrient supply. Defined by the synergistic collaboration of industries enabled by geographic proximity, industrial symbiosis is a key element in resource conservation, as it uses traditionally defined waste outputs as resource inputs. Four systems were examined in this dissertation: a coupled wastewater-power plant system, a sunflower biodiesel production system using urban marginal land, a national biodiesel production system using contaminated waste sites, and an algal biodiesel production system using wastewater and waste CO2. Results from the wastewater-power plant system indicated that secondary-treated wastewater can provide cooling water to power plants, however traditional metrics and tools used to evaluate sustainability are inadequate for such complexity. Spatial assessment is needed to efficiently design transportation and conveyance within the system. Two land-identification frameworks were created using GIS to identify regional and national “waste” lands, or marginal lands, and to evaluate these lands for sunflower, soybean, and algal biodiesel production. A nutrient-availability framework was also created to identify synergistic opportunities for algal biodiesel production. While regional production of sunflower biodiesel generated trivial contributions to the RFS2, marginal sites at the national level could meet 7 to 19% of the RFS2, depending on the distribution of feedstocks. Algal biodiesel produced using waste CO2 and wastewater could meet 0.3% to 17% of the RFS2, depending on the nutrient concentration of the wastewater. These ranges highlight spatial variability of results and emphasize the benefit of GIS in life-cycle sustainability studies. date: 2013-01-31 date_type: published pages: 154 institution: University of Pittsburgh refereed: TRUE etdcommittee_type: committee_chair etdcommittee_type: committee_member etdcommittee_type: committee_member etdcommittee_type: committee_member etdcommittee_name: Landis, Amy etdcommittee_name: Bilec, Melissa etdcommittee_name: Vidic, Radisav etdcommittee_name: Harbert, William etdcommittee_email: amy.landis@asu.edu etdcommittee_email: mbilec@pitt.edu etdcommittee_email: vidic@pitt.edu etdcommittee_email: harbert@pitt.edu etdcommittee_id: etdcommittee_id: MBILEC etdcommittee_id: VIDIC etdcommittee_id: HARBERT etd_defense_date: 2012-11-16 etd_approval_date: 2013-01-31 etd_submission_date: 2012-11-28 etd_release_date: 2013-01-31 etd_access_restriction: 5_year etd_patent_pending: FALSE thesis_type: dissertation degree: PhD citation: Niblick, Briana (2013) Integrating Spatial Implications into Solving Life-Cycle Challenges of Biofuels and Industrial Symbiosis. Doctoral Dissertation, University of Pittsburgh. (Unpublished) document_url: http://d-scholarship-dev.library.pitt.edu/16613/1/NiblickB_ETD2012.pdf