{"id":14,"date":"2015-06-30T16:47:31","date_gmt":"2015-06-30T20:47:31","guid":{"rendered":"https:\/\/sites.bu.edu\/eme2\/?page_id=14"},"modified":"2017-09-25T16:09:15","modified_gmt":"2017-09-25T20:09:15","slug":"publications","status":"publish","type":"page","link":"https:\/\/sites.bu.edu\/eme2\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Peer-Reviewed Journal Publication<\/strong><\/p>\n

    \n
  1. Volpe, M., J.L. Goldfarb<\/strong>, L. Fiori. \u201cHydrothermal Carbonization of Opuntia ficus-indica <\/em>Cladodes: Role of Process Parameters on Hydrochar Properties.\u201d Bioresource Technology. <\/em>2017. 247, 310-318.\u00a0Volpe,Goldfarb,Fiori2017<\/a><\/li>\n
  2. Aslan, D.I., P. Parthasarath, J.L. Goldfarb<\/strong>, S. Ceylan. \u201cPyrolysis Reaction Models of Waste Tires: Application of Master-Plots method for Energy Conversion via Devolatilization.\u201d Waste Management.\u00a02017.<\/em> 68, 405-411.\u00a0Aslan et al 2017<\/a><\/li>\n
  3. Xue, J., G. Dou, E. Ziade, J.L. Goldfarb. \u201cIntegrating Sustainable Biofuel and Silver Nanomaterial Production for in situ <\/em>Upgrading of Cellulosic Biomass Pyrolysis.\u201d Energy Conversion & Management. <\/em>2017. 142, 143-152.\u00a0Xue et al 2017<\/a><\/li>\n
  4. J.L. Goldfarb,\u00a0G. Dou, M. Salari, M.W. Grinstaff. “Biomass-Based Fuels and Activated Carbon Electrode Materials: An Integrated Approach to Green Energy Systems.”\u00a0ACS Sustainable Chemistry & Engineering.\u00a0<\/em>2017. 5, 3046-3054.\u00a0Goldfarb et al 2017_ACSsustain<\/a><\/li>\n
  5. Berger, M. and J.L. Goldfarb.<\/strong> \u201cUnderstanding our Energy Footprint: Undergraduate Chemistry Laboratory Investigation of Environmental Impacts of Solid Fossil Fuel Wastes.\u201d Journal of Chemical Education.<\/em> 2017. 94, 1124-1128.\u00a0Berger and Goldfarb 2017<\/a><\/li>\n
  6. Uzun, H., Z. Yildiz, J.L.Goldfarb, S. Ceylan. \u201cImproved Prediction of Higher Heating Value of Biomass Using an Artificial Neural Network Model Based on Proximate Analysis.\u201d Bioresource Technology.\u00a0<\/em>2017. 234, 122-130.\u00a0Uzun et al 2017<\/a><\/li>\n
  7. Christenson, D.P., J.L. Goldfarb and D.L. Kriner \u201c\u201cInformation Processing and Public Support for \u2018Fracking\u2019\u201d with D.P. Christenson and D.L. Kriner. Energy Policy. <\/em>2017. 105, 407-417.\u00a0Christenson et al 2017<\/a><\/li>\n
  8. Vyas, A*. T. Chellappa, J.L. Goldfarb. \u201cDevelopment of Porosity and Reactive Surface Area of Feed Corn Stover and Pennsylvania Coal Blends During Co-Pyrolysis\u201d. Journal of Analytical and Applied Pyrolysis.\u00a0<\/em>2017. 124, 79-88.\u00a0Vyas,Chellappa,Goldfarb2017<\/a><\/li>\n
  9. Dou, G. and J.L. Goldfarb. \u201cIn situ upgrading of pyrolysis biofuels by bentonite clay with simultaneous production of heterogeneous adsorbents for water treatment\u201d Fuel.<\/em> 2017. 195, 273-283.\u00a0Dou,Goldfarb 2017<\/a><\/li>\n
  10. Goldfarb, J.L., L. Buessing, E. Gunn, M. Lever, A. Billias, E. Casoliba, A. Schievano, F. Adani. “Novel Integrated Biorefinery for Olive Mill Waste Management: Utilization of Secondary Waste for Water Treatment.”\u00a0ACS Sustainable Chemistry & Engineering.\u00a0<\/em>Goldfarb et al 2017<\/a><\/li>\n
  11. N. S\u00f6yler, J.L. Goldfarb, S. Ceylan, M.T. Sa\u00e7an. \u201cRenewable Fuels from Pyrolysis of Dunaliella<\/em>\u00a0tertiolecta<\/em>: An Alternative Approach to Lipid Extraction and Transesterification of Microalgae.\u201d Energy.\u00a0<\/em>2017. 120, 907-914.\u00a0Soyler et al 2017<\/a><\/li>\n
  12. Kriner, D.L. and J.L. Goldfarb. \u201cBuilding Public Support for Science Spending: Misinformation, Motivated Reasoning, and the Power of Correction.\u201d Science Communication.\u00a0<\/em>2017. 39, 77-100.\u00a0GoldfarbKriner2017<\/a><\/li>\n
  13. I\u015f\u0131tan, S.\u00a0S., S. Ceylan, Y. Topcu, C. Hintz, J. Tefft*, T. Chellappa, J. Guo and J.L. Goldfarb. \u201cProduct Quality Optimization in an Integrated Biorefinery: Conversion of Pistachio Nutshell Biomass to Biofuels and Activated Biochars via Pyrolysis.\u201d Energy Conversion & Management. <\/em>2016. 127, 576-588.Isitan et al 2016<\/a><\/li>\n
  14. Upneja, A.,\u00a0G. Dou, C. Gopu, C.A. Johnson, A. Newman, A. Suleimenov and J.L. Goldfarb. \u201cSustainable s ynthesis of biotemplated nanostructured ZnO for photocatalytic water treatment via hydrothermal carbonization of banana stalk\u201d RSC Advances.\u00a0<\/em>2016. 6, 92813.\u00a0Upneja et al<\/a><\/li>\n
  15. J.L. Goldfarb, M. Buessing and D.L. Kriner. \u201cPublic Support for Renewable Energy Policy: Geographic Proximity to Coal and Support for Extending the Production Tax Credit\u201d Energy Policy<\/em>. 2016. 99, 299-307.\u00a0EnergyPolicy2016<\/a><\/li>\n
  16. Vyas, A., J. Xue, and J.L. Goldfarb “Improving the Environmental and Economic Viability of U.S. Oil Shale via Waste-to-Byproduct Conversion of Semicoke to Sorbents.” Energy & Fuels.<\/em>\u00a02016. 30, 188-195.\u00a0Vyas, Xue, Goldfarb 2016<\/a><\/li>\n
  17. Xue, J., S. Ceylan, and J.L. Goldfarb. “Synergism Among Biomass Building Blocks? Evolved Gas and Kinetic Analysis of Starch and Cellulose Co-Pyrolysis.”\u00a0Thermochimica Acta.<\/em>\u00a02015: 618; 36-47.\u00a0Xue, Ceylan, Goldfarb 2015<\/a><\/li>\n
  18. Goldfarb, J.L. and S. Ceylan. “Second Generation Sustainability: Application of the Distributed Activation Energy Model to the Pyrolysis of Locally Sourced Biomass-Coal Blends for use in Co-firing Scenarios”\u00a0Fuel<\/em>. 2015: 160; 297-308.\u00a0Goldfarb and Ceylan 2015<\/a><\/li>\n
  19. Patnaik, A. and J.L. Goldfarb. \u201cContinuous Activation Energy Representation of the Arrhenius Equation for the Pyrolysis of Cellulosic Materials: Feed Corn Stover and Cocoa Shell Biomass\u201d\u00a0Cellulose Chemistry and Technology<\/em>. In Press.\u00a0Patnaik, Goldfarb 2016<\/a><\/li>\n
  20. Ceylan, S. and J.L. Goldfarb. \u201cGreen Tide to Green Fuels: TG-FTIR Analysis and Kinetic Study of Ulva prolifera<\/em>\u201d Energy Conversion & Management.<\/em> 2015: 101; 263-270.\u00a0Ceylan and Goldfarb 201<\/a><\/li>\n
  21. Schievano, A., F. Adani, L. Buessing, A. Botto, E.N. Casoliba, M. Rossoni, and J.L. Goldfarb. \u201cAn Integrated Biorefinery Concept for Olive Mill Waste Management: Supercritical CO2<\/sub> Extraction and Energy Recovery.\u201d Green Chemistry.<\/em> 2015: 17; 2874-2887.\u00a0Schievano et al 201<\/a><\/li>\n
  22. Celaya, A.M., A.T. Lade and J.L. Goldfarb. \u201cCo-Combustion of Brewer\u2019s Spent Grains and Illinois No. 6 Coal: Impact of blend ratio on global rates of pyrolysis and oxidation versus compound evolution.\u201d Fuel Processing Technology.<\/em> 2015: 129; 39-51.\u00a0Celaya,Lade,Goldfarb201<\/a><\/li>\n
  23. Celaya, A.M. and J.L. Goldfarb. \u201cModels and Mechanisms to Explore the Global Oxidation Kinetics of Blends of Feed Corn Stover and Illinois No. 6 Coal\u201d with A.M. Celaya. Journal of Thermodynamics and Catalysis. <\/em>2014: 5; 136.\u00a0Celaya and Goldfarb 201<\/a>4<\/li>\n
  24. Yangali, P., A.M. Celaya, and J.L. Goldfarb \u201cCo-Pyrolysis Reaction Rates and Activation Energies of West Virginia Coal and Cherry Pit Blends.\u201d Journal of Analytical & Applied Pyrolysis. <\/em> 108: 203-211.\u00a0Yangali,Celaya,Goldfarb 2014<\/a><\/li>\n
  25. Goldfarb, J.L. and C. Liu. \u201cImpact of Blend Ratio on the Co-firing of Torrefied Wood and Coal via Analysis of Oxidation Kinetics.\u201d Bioresource Technology<\/em>. 2013. 149: 208-215.\u00a0Goldfarb and Liu 2013<\/a><\/li>\n
  26. Goldfarb, J.L. \u201cReview of Sublimation Thermodynamics of Polycyclic Aromatic Compounds and Heterocycles.\u201d Journal of Heterocyclic Chemistry.<\/em> 50: 1243-1263.\u00a0Goldfarb 2013<\/a><\/li>\n
  27. Goldfarb, J.L., A. D\u2019Amico, C. Culin, E.M. Suuberg and I. K\u00fclaots. \u201cOxidation Kinetics of Oil Shale Semicokes: Reactivity as a Function of Pyrolysis Temperature and Shale Origin.\u201d Energy & Fuels. <\/em> 27:666-672.\u00a0Goldfarb et al 2013<\/a><\/li>\n
  28. Buessing, L. and J.L. Goldfarb \u201cEnergy Along Interstate 95: Pyrolysis Kinetics of Floridian Cabbage Palm.\u201d Journal of Analytical & Applied Pyrolysis. <\/em> 96:78-85.\u00a0Buessing,Goldfarb2012<\/a><\/li>\n
  29. Datangel, B. and J.L. Goldfarb \u201cHeavy Metals in Colorado and Chinese Oil Shale Semicoke: Disposal Issues, Impediments to Byproduct Conversion.\u201d Energy & Fuels.<\/em> 25:3522-3529.\u00a0Datangel,Goldfarb2011<\/a><\/li>\n
  30. Goldfarb, J.L. and I. K\u00fclaots \u201cMelting Points and Enthalpies of Fusion of Anthracene and its Heteroatomic Counterparts.\u201d Journal of Thermal Analysis and Calorimetry<\/em>. 2010. 102:1063-1070.\u00a0Goldfarb,Kulaots2010<\/a><\/li>\n
  31. K\u00fclaots, I., J.L. Goldfarb and E.M. Suuberg. \u201cCharacterization of Chinese, American and Estonian Oil Shale Semicokes and their Sorptive Potential.\u201d Fuel<\/em>. 2010. 89: 3300-3306.\u00a0Goldfarb,Kulaots2010Fuel<\/a><\/li>\n
  32. Goldfarb, J.L. and E.M. Suuberg. \u201cDeviations from Ideal Sublimation Vapor Pressure Behavior in Mixtures of Polycyclic Aromatic Compounds with Interacting Heteroatoms.\u201d Journal of Chemical Thermodynamics<\/em>. 2010. 42: 1009-1015.\u00a0Goldfarb,Suuberg2010-2<\/a><\/li>\n
  33. Goldfarb, J.L. and E.M. Suuberg. \u201cVapor Pressures and Sublimation Enthalpies of Seven Heteroatomic Aromatic Compounds Measured via the Knudsen Effusion Technique.\u201d Journal of Chemical Thermodynamics<\/em>. 2010. 42: 781-786.\u00a0Goldfarb,Suuberg2010JCT<\/a><\/li>\n
  34. Goldfarb, J.L. and E.M. Suuberg. \u201cRaoult\u2019s Law and its Application to Sublimation Vapor Pressures of Mixtures of Polycyclic Aromatic Hydrocarbons.\u201d Environmental Engineering Science.<\/em>\u00a02008. 25: 1429 \u20131438.\u00a0Goldfarb,Suuberg2008EES<\/a><\/li>\n
  35. Goldfarb, J.L. and E.M. Suuberg. \u201cVapor Pressures and Thermodynamics of Oxygen-Containing Polycyclic Aromatic Hydrocarbons Measured via Knudsen Effusion.\u201d Environmental Toxicology and Chemistry.<\/em>\u00a02008. 27: 1244 \u2013 1249.\u00a0Goldfarb,Suuberg Environ Tx<\/a><\/li>\n
  36. Goldfarb, J.L. and E.M. Suuberg. \u201cThe Effects of Halogen Heteroatoms on the Vapor Pressures and Thermodynamics of Polycyclic Aromatic Compounds Measured via the Knudsen Effusion Technique.\u201d Journal of Chemical Thermodynamics.<\/em>\u00a02008. 40: 460 \u2013 466.\u00a0Goldfarb,Suuberg2008JCT<\/a><\/li>\n
  37. Goldfarb, J.L. and E.M. Suuberg. \u201cVapor Pressures and Enthalpies of Sublimation of Ten Polycyclic Aromatic Hydrocarbons Determined via the Knudsen Effusion Method.\u201d Journal of Chemical and Engineering Data. 2008.<\/em>\u00a053: 670 \u2013 676.\u00a0Goldfarb,Suuberg2008<\/a><\/li>\n<\/ol>\n

     <\/p>\n

    Peer-Reviewed Conference\u00a0Papers\u00a0<\/strong><\/p>\n

      \n
    1. Goldfarb, J.L. G. Dou, J. Xue and C. Ashman. \u201cRe-engineering the Integrated Biorefinery: A Materials Approach to in situ Biofuel Upgrading.\u201d 21st<\/sup> Annual Green Chemistry & Engineering Conference. June 2017. Keynote Address.<\/em><\/li>\n
    2. Goldfarb, J.L.\u00a0<\/em>and G. Dou. “Impact of Bentonite Clay on\u00a0in situ\u00a0<\/em>Upgrading of Hydrothermal Carbonization and Pyrolysis Biofuels and Biochars for Renewable Fuel and Sustainable Material Production.” 1st International Symposium of Hydrothermal Carbonization, Queen Mary University of London. London, England. April 2017.<\/li>\n
    3. Gopu, C.\u00a0<\/em>an J.L. Goldfarb. “Integrated Municipal Solid Waste Management: Renewable Energy and Activated Carbons for Leachate Treatment.” ACS Division of Environmental Chemistry. April 2017.<\/li>\n
    4. Goldfarb, J.L.,\u00a0. <\/em>G. Dou, J. Xue. \u201cRe-Engineering the Integrated Biorefinery: A Materials Approach to in situ Biofuel Upgrading.\u201d AIChE International Congress on Sustainability Science and Engineering, Oct. 2016.<\/li>\n
    5. Dou, G<\/em>., and J.L. Goldfarb. \u201cExploiting the catalytic activity of clay minerals on in situ upgrading of pyrolysis biofuels with simultaneous production of heterogeneous adsorbents for water treatment\u201d American Chemical Society (ACS) Division of Environmental Chemistry, Aug. 2016.<\/li>\n
    6. Suleimenov, A.,<\/em> and J.L. Goldfarb. \u201cDemineralization Pathways for Oil Shale Semicoke Byproduct Conversion to a Sorbent Material.\u201d ACS Division of Energy and Fuels. Aug. 2016.<\/li>\n
    7. Goldfarb, J.L.,\u00a0<\/em>S. Emenyonu and J. Xue. “Integrated Processes for Waste Management, Energy Recovery, and the Production of Materials for Environmental Applications.”ACS Division of Environmental Chemistry, March 2016.<\/li>\n
    8. Goldfarb, J.L., E.M. Ryan,\u00a0A.Vyas, L. Barroso-Luque<\/em>. \u201cAlternatives to Waste for Alternative Fossil Fuels: Improving Oil Shale\u2019s Viability via Conversion of Semicoke to Flue Gas Adsorbents and Zeolite Precursors.\u201d 2015 TECO Green Tech Competition, Taiwan. Aug. 2015.<\/li>\n
    9. Xue, J<\/em>., E. Ziade and J.L. Goldfarb. \u201cIntegrated Biofuel and Nanomaterial Production via Pyrolysis of Silver Nitrate Impregnated Biomass.\u201d ACS\u00a0Division of Energy and Fuels. August 2015.<\/li>\n
    10. Vyas, A<\/em>. and J.L. Goldfarb. \u201cWaste-to-byproduct Conversion of Oil Shale Semicoke and Ash to Sorbent and Zeolite Precursors.\u201d ACS Division of Energy and Fuels. August 2015.<\/li>\n
    11. Goldfarb, J.L. and L. Kriner<\/em>. \u201cEnticing the American Public to Pay for Renewable Energy: The Mediating Roles of the Scientist and Environmental vs. Political Policy Goals.\u201d ACS Division of Environmental Chemistry, August 2014.<\/li>\n
    12. Ford, J.,<\/em> Berger<\/em>, J.L. Goldfarb \u201cFabrication of Activated Biochars from Avocado Pits and Their Adsorption Capacity for Oxytetracycline from Wastewater. ACS Division of Environmental Chemistry, August 2014.<\/li>\n
    13. Hintz, C.<\/em> and J.L. Goldfarb \u201cFabrication of Bio-based Activated Carbons for Removal of Aqueous Pharmaceuticals.\u201d ACS Division of Environmental Chemistry, March 2014.<\/li>\n
    14. Goldfarb, J.L. <\/em>and L. Buessing. \u201cMultiple Byproduct Pathways for Olive Mill Waste Mitigation: Pyrolysis and Combustion of Supercritical CO2<\/sub> Extracted Biomass.\u201d ACS Division of Environmental Chemistry, April 2013.<\/li>\n
    15. Celaya, A.M.<\/em> and J. L. Goldfarb. \u201cPyrolysis Kinetics of Domestic and Non-domestic Coal, Locally Sourced Biomass Waste, and Their Blends.\u201d ACS Energy & Fuels. April 2013.<\/li>\n
    16. Buessing, L.<\/em> and J.L. Goldfarb. \u201cEnergy Along I-95: Pyrolysis Kinetics of Floridian Cabbage Palm.\u201d ACS Division of Petroleum Chemistry, March 2012.<\/li>\n
    17. Celaya, A.M.<\/em>, A.T. Lade and J.L. Goldfarb. \u201cBarley, Hops and Coal: Pyrolysis Kinetics of Locally Sourced Coal-Biomass Blends.\u201d ACS Fuel Division, March 2012.<\/li>\n
    18. Goldfarb, J.L.,<\/em> Datangel and I. K\u00fclaots. \u201cOil Shale Semicoke as a Carbon Source: Sorbent Capacity, Reactivity and Entrained Compounds as Functions of Pyrolysis Temperature and Shale Origin.\u201d ACS Division of Environmental Chemistry. August 2010.<\/li>\n
    19. Goldfarb, J.L<\/em>., I. K\u00fclaots and E.M. Suuberg. \u201cCharacterization, Kinetics and Potential Utilization of Oil Shale Semicoke.\u201d ACS Fuel Division. August 2009.<\/li>\n
    20. <\/em>K\u00fclaots, I., J. Goldfarb and M. Suuberg<\/em>. \u201cProperties of Carbon from Oil Shale Semicokes.\u201d Oil Shale Symposium. June 2009.<\/li>\n
    21. K\u00fclaots, I<\/em>., J. Goldfarb and E.M. Suuberg. \u201cProperties and Potential Applications of Carbon Byproduct from Oil Shale Semicokes.\u201d Carbon. June 2009.<\/li>\n
    22. Goldfarb, J.L<\/em>. and E.M. Suuberg. \u201cApplication of Raoult\u2019s Law to Model Contaminant Mixtures of Polycyclic Aromatic Hydrocarbons.\u201d ACS Fuel Division. March 2009.<\/li>\n
    23. Goldfarb, J.L<\/em>. and E.M. Suuberg. \u201cInvestigation of the Thermodynamic Ideality of Mixtures of Polycyclic Aromatic Hydrocarbons.\u201d ACS Fuel Division. April 2008.<\/li>\n
    24. Goldfarb, J.L.<\/em> and E.M. Suuberg. \u201cVapor Pressures and Thermodynamics of Model Mixtures of Polycyclic Aromatic Compounds Compared to Raoult\u2019s Law Predictions.\u201d ACS Division of Environmental Chemistry. August 2007.<\/li>\n
    25. Goldfarb, J.L.<\/em> and E.M. Suuberg. \u201cThe Thermodynamic Effects of Adding Heteroatoms to Anthracene as Measured by the Knudsen Effusion Technique.\u201d ACS Fuel Division. August 2007.<\/li>\n
    26. Goldfarb, J.L.<\/em> and E.M. Suuberg. \u201cVapor Pressures and Enthalpies of Sublimation of Several Polycyclic Aromatic Compounds as Determined via the Knudsen Effusion Method.\u201d ACS Fuel Division. March 2007.<\/li>\n<\/ol>\n","protected":false},"excerpt":{"rendered":"

      Peer-Reviewed Journal Publication Volpe, M., J.L. Goldfarb, L. Fiori. \u201cHydrothermal Carbonization of Opuntia ficus-indica Cladodes: Role of Process Parameters on Hydrochar Properties.\u201d Bioresource Technology. 2017. 247, 310-318.\u00a0Volpe,Goldfarb,Fiori2017 Aslan, D.I., P. Parthasarath, J.L. Goldfarb, S. Ceylan. \u201cPyrolysis Reaction Models of Waste Tires: Application of Master-Plots method for Energy Conversion via Devolatilization.\u201d Waste Management.\u00a02017. 68, 405-411.\u00a0Aslan et […]<\/p>\n","protected":false},"author":7721,"featured_media":0,"parent":0,"menu_order":5,"comment_status":"closed","ping_status":"closed","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/sites.bu.edu\/eme2\/wp-json\/wp\/v2\/pages\/14"}],"collection":[{"href":"https:\/\/sites.bu.edu\/eme2\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/sites.bu.edu\/eme2\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/sites.bu.edu\/eme2\/wp-json\/wp\/v2\/users\/7721"}],"replies":[{"embeddable":true,"href":"https:\/\/sites.bu.edu\/eme2\/wp-json\/wp\/v2\/comments?post=14"}],"version-history":[{"count":29,"href":"https:\/\/sites.bu.edu\/eme2\/wp-json\/wp\/v2\/pages\/14\/revisions"}],"predecessor-version":[{"id":276,"href":"https:\/\/sites.bu.edu\/eme2\/wp-json\/wp\/v2\/pages\/14\/revisions\/276"}],"wp:attachment":[{"href":"https:\/\/sites.bu.edu\/eme2\/wp-json\/wp\/v2\/media?parent=14"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}