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García, A., E. I. Valenzuela, A. Vargoas, I. de Godos, R. Muñoz, Meng Wang, M. Vital-Jácome, and G. Quijano, (2022). Wastewater treatment potential, light penetration profile and biomass settling performance of a photo-sequencing batch reactor, Journal of Chemical Technology and Biotechnology, v. 98 (2), pp. 346-356, https://doi.org/10.1002/jctb.7249.
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Santos, Livio, A. Dahi Taleghani, and D. Elsworth, (2022). Repurposing abandoned wells for geothermal energy: Current status and future prospects, Renewable Energy, v. 194, pp. 1288-1302.
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Schwartz, B. A. and A. H. Menefee, (2022). Techno-economic analysis of coupling wind-powered green hydrogen production with geologic storage, Geological Society, London, Special Publications, v. 528 (1), doi.org/10.1144/SP528-2022-68.
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Wang, J., J. Liang, D. Ning, T. Zhang, and Meng Wang, (2022). A review of biomass immobilization in anammox and partial nitrification/anammox systems: Advances, issues, and future perspectives, Science of The Total Environment, v. 821, [152792], https://doi.org/10.1016/j.scitotenv.2021.152792.
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Mali, S. S., J. V. Patil, P. S. Shinde, G. de Miguel, S. R. Rondiya, N. Y. Dzade, and C. K. Hong, (2021). Implementing Dopant-Free Hole Transporting Layers and Metal Incorporated CsPbI2Br for Stable All-Inorganic Perovskite Solar Cells, ACS Energy Letters, v. 6, pp. 778−788.
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Wasco, R. S. and B. G. Miller, (2021 January 21). "Fermenter Syrup Characterization Project: Chemical Fractionation Testing Final Report," Prepared for The Babcock & Wilcox Company.
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Bombile, J. H., S. Shetty, M. J. Janik, and S. T. Milner, (2020). “Polaron hopping barriers and rates in semiconducting polymers”, Physical Chemistry Chemical Physics, v. 22, pp. 4032.
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Lee, E., D. S. B. L. Oliveira, L. S. B. L. Oliveira, E. Jimenez, Y. Kim, Meng Wang, S. J. Ergas, and Q. Zhang, (2020). Comparative environmental and economic life cycle assessment of high solids anaerobic co-digestion for biosolids and organic waste management, Water Research, v. 171, [115443].
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Tipirneni, P., V. Jindal, M. J. Janik, and S. T. Milner, (2020). “Tight binding models accurately predict band structures for copolymer semiconductors”, Physical Chemistry Chemical Physics, v. 22, pp. 9659-19671, DOI: 10.1039/d0cp01833c).
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Lee, E. P. Bittencourt, L. Casimir, E. Jimenez, Meng Wang, Q. Zhang, and S. J. Ergas, (2019). Biogas production from high solids anaerobic co-digestion of food waste, yard waste and waste activated sludge, Waste Management, v. 95, pp. 432-439, https://doi.org/10.1016/j.wasman.2019.06.033.
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Rondiya, S., Y. Jadhav, M. Nasane, J. Jadkar, and N. Y. Dzade, (2019). Combined Computational and Experimental Investigation of the Interface Structure and Band Alignment in CZTS/CdS Heterojunction for Solar Cell Applications, Materials, v. 12, [4040].
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Xue, J., and J. L. Goldfarb, (2018). Enhanced devolatilization during torrefaction of blended biomass streams results in additive heating values and synergistic oxidation behavior of solid fuels, Energy, v. 152, pp. 1-12, ISSN 0360-5442, https://doi.org/10.1016/j.energy.2018.03.037.
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Xue, J., T. Chellappa, S. Ceylan, and J. L. Goldfarb, (2018). Enhancing biomass + coal Co-firing scenarios via biomass torrefaction and carbonization: Case study of avocado pit biomass and Illinois No. 6 coal, Renewable Energy, v. 122, pp. 152-162, ISSN 0960-1481, https://doi.org/10.1016/j.renene.2018.01.066.
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Amini, A., V. Aponte-Morales, Meng Wang, M. Dillbeck, N. Manser, Q. Zhang, J. Cunningham, O. Lahav, and S. Ergas, (2017). Cost-effective treatment of swine wastes through the recovery of energy and nutrients. Waste Management, v. 69, pp. 508-517.
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Aslan, D. I., P. Parthasarath, J. L. Goldfarb, S. Ceylan, (2017). “Pyrolysis Reaction Models of Waste Tires: Application of Master-Plots method for Energy Conversion via Devolatilization.” Waste Management, v.68, pp. 405-411.
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Dou, G. and J. L. Goldfarb, (2017). “In situ upgrading of pyrolysis biofuels by bentonite clay with simultaneous production of heterogeneous adsorbents for water treatment,” Fuel, v. 195, pp. 273-283.
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Goldfarb, J. L., G. Dou, M. Salari, and M. W. Grinstaff, (2017). “Biomass-Based Fuels and Activated Carbon Electrode Materials: An Integrated Approach to Green Energy Systems,” ACS Sustainable Chemistry & Engineering, v. 5, pp. 3046-3054.
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Goldfarb, J. L., L. Buessing, E. Gunn, M. Lever, A. Billias, E. Casoliba, A. Schievano, and F. Adani, (2017). “Novel Integrated Biorefinery for Olive Mill Waste Management: Utilization of Secondary Waste for Water Treatment,” ACS Sustainable Chemistry & Engineering., v. 5, pp. 876-884.
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Lee, E., J. Cumberbatch, Meng Wang, and Q. Zhang, (2017). Kinetic parameter estimation model for anaerobic co-digestion with waste activated sludge and microalgae, Bioresource Technology, v. 228, pp. 9-17.
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Morrison, J. L., (2017 June 11 - 15). “Deployment of Sustainable Energy Technologies in Pennsylvania: A Unique Funding Model in the United States”, 42nd International Technical Conference on Clean Energy, Clearwater, Florida.
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Söyler, N., J. L. Goldfarb, S. Ceylan, and M. T. Saçan, (2017). “Renewable Fuels from Pyrolysis of Dunaliella tertiolecta: An Alternative Approach to Lipid Extraction and Transesterification of Microalgae,” Energy, v. 120, pp. 907-914.
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Tchapda, A. H., V. Krishnamoorthy, Y. D. Yeboah, and S. V. Pisupati, (2017). Analysis of tars formed during co-pyrolysis of coal and biomass at high temperature in carbon dioxide atmosphere, Journal of Analytical and Applied Pyrolysis, v. 128, pp. 379-396, ISSN 0165-2370, https://doi.org/10.1016/j.jaap.2017.09.011.
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Uzun, H., Z. Yildiz, J. L. Goldfarb, and S. Ceylan, (2017). “Improved Prediction of Higher Heating Value of Biomass Using an Artificial Neural Network Model Based on Proximate Analysis,” Bioresource Technology, v. 234, pp. 122-130.
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Wang, Meng, E. Lee, M. Dilbeck, M. Liebelt, Q. Zhang, and S. Ergas, (2017). Thermal pretreatment of microalgae for biomethane production: Experimental studies, kinetics, and energy analysis, Journal of Chemical Technology and Biotechnology, v. 92, pp. 399-407.
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Xue, J., G. Dou, E. Ziade, and J. L. Goldfarb, (2017). “Integrating Sustainable Biofuel and Silver Nanomaterial Production for in situ Upgrading of Cellulosic Biomass Pyrolysis,” Energy Conversion & Management, v. 142, pp. 143-252.
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Cao X., A. N. Kleit, and C. Liu (2016). “Why Invest in Wind Energy? Career Incentives and Chinese Renewable Energy Politics Energy Policy,” 99 Energy Policy, pp. 120-131.
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Işıtan, S., S. Ceylan, Y. Topcu, C. Hintz, J. Tefft*, T. Chellappa, J. Guo and J. L. Goldfarb, (2016). “Product Quality Optimization in an Integrated Biorefinery: Conversion of Pistachio Nutshell Biomass to Biofuels and Activated Biochars via Pyrolysis.” Energy Conversion & Management. 127, 576-588.
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Landry, J. R., and A. M. Bento, (2016). On the Trade-Offs of Regulating Multiple Unpriced Externalities with a Single Instrument: Evidence from Biofuel Policies.
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Patnaik, A. and J. L. Goldfarb, (2016). “Continuous Activation Energy Representation of the Arrhenius Equation for the Pyrolysis of Cellulosic Materials: Feed Corn Stover and Cocoa Shell Biomass,” with A. Patnaik. Cellulose Chemistry and Technology, v. 50, pp. 311-320.
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Upneja, A., G. Dou, C. Gopu, C. A. Johnson, A. Newman, A. Suleimenov, and J. L. Goldfarb, (2016). “Sustainable synthesis of biotemplated nanostructured ZnO for photocatalytic water treatment via hydrothermal carbonization of banana stalk.” RSC Advances, v. 6, [92813].
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Wang, Meng, E. Lee, Q. Zhang, andS. Ergas, (2016). Anaerobic co-digestion of swine manure and microalgae Chlorella sp.: experimental studies and energy analysis, BioEnergy Research, v. 9, pp. 1-12.
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Bayrakci, M., K. Calvert, and J. R. S. Brownson, (2015). An automated model for rooftop PV systems assessment in ArcGIS using LIDAR. AIMS Energy Special Issue, v. 3(3), pp. 401–420. DOI:10.3934/energy.2015.3.401
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Bento, A. M., R. Klotz, and J. R. Landry, (2015). "Are there Carbon Savings from US Biofuel Policies? The Critical Importance of Accounting for Leakage in Land and Fuel Markets," The Energy Journal, v. 36 (3), pp. 75-109.
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Brownson, J. R. S., D. Gardner, and A. Nieto, (2015). Solar Resource-Reserve Classification and Flow-Based Economic Analysis. Solar Energy, v. 116, pp. 45-55; DOI:10.1016/j.solener.2015.03.028.
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Celaya, A. M., A. T. Lade and J. L. Goldfarb, (2015). “Co-Combustion of Brewer’s Spent Grains and Illinois No. 6 Coal: Impact of blend ratio on global rates of pyrolysis and oxidation versus compound evolution.” Fuel Processing Technology, v. 129, pp. 39-51.
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Ceylan, S. and J. L. Goldfarb, (2015). “Green Tide to Green Fuels: TG-FTIR Analysis and Kinetic Study of Ulva prolifera Pyrolysis.” Energy Conversion & Management, v. 101, pp. 263- 270.
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Goldfarb, J. L., and S. Ceylan, (2015). “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,” Fuel, v. 160, pp. 297-308.
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Kumpf, K., S. A. Blumsack, G. S. Young, and J. R. S. Brownson, (2015). Portfolio Analysis of Solar Photovoltaics: Quantifying the Contributions of Locational Marginal Pricing and Power on Revenue Variability, Solar Energy, v. 119, pp. 277–285. DOI:10.1016/j.solener.2015.06.008.
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Schievano, A., F. Adani, L. Buessing, A. Botto, E. N. Casoliba, M. Rossoni, and J. L. Goldfarb, (2015). “An Integrated Biorefinery Concept for Olive Mill Waste Management: Supercritical CO2 Extraction and Energy Recovery,” Green Chemistry, v. 17, pp. 2874- 2887.
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Srikrishnan, V., G. S. Young, L. Witmer, and J. R. S. Brownson, (2015). Using Multi-Pyranometer Arrays and Neural Networks to Estimate Direct Normal Irradiance, Solar Energy, v. 119, pp. 531-542, DOE:10.1016/j.solener.2015.06.004.
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Tchapda, A. H., and S. V. Pisupati, (2015). "Characterization of an entrained flow reactor for pyrolysis of coal and biomass at higher temperatures," Fuel, v. 156, pp. 254-266
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Wang, Meng and C. Park, (2015). Investigation of anaerobic digestion of Chlorella sp. and Micractinium sp. grown in high-nitrogen wastewater and their co-digestion with waste activated sludge, Biomass and Bioenergy, v. 80, pp. 30-37.
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Xue, J., S. Ceylan and J. L. Goldfarb, (2015). “Synergism Among Biomass Building Blocks? Evolved Gas and Kinetics Analysis of Starch and Cellulose Co-Pyrolysis,” Thermochimica Acta, v. 618, pp. 36-47.
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Banai, R. E., H. Lee, N. J. Tanen, R. E. Urena, J. J. Cordell, M. W. Horn, and J. R. S. Brownson, (2014 June 8-13). Investigation of RF-sputtered tin sulfide thin films with in situ heating for photovoltaic applications. In: Proceedings of the 40th IEEE Photovoltaic Specialist Conference, Denver, CO. pp. 290-294. DOI: 10.1109/PVSC.2014.6924916.
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Banai, R. E., L. A. Burton, S. G. Choi, F. Hofherr, T. Sorgenfrei, A. Walsh, B. To, A. Cröll, and J. R. S. Brownson, (2014). Ellipsometric characterization and density-functional theory analysis of anisotropic optical properties of single-crystal α-SnS. J. Appl. Physics., 116, 013511; DOI: 10.1063/1.4886915.
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Bayrakci, M., Y. Choi, and J. R. S. Brownson, (2014). Temperature Dependent Power Modeling of Photovoltaics. Energy Procedia, v. 57, pp. 745-754; DOI:10.1016/j.egypro.2014.10.282.
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Brownson, J. R. S., and A. H. Taylor, (2014 July 7-9). Open Educational Resource Model in Solar Energy through e-Education. In: Proceedings of the 43rd American Solar Energy Society Meeting, San Francisco, CA.
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Celaya, A. M. and J. L. Goldfarb, (2014) “Models and Mechanisms to Explore the Global Oxidation Kinetics of Blends of Feed Corn Stover and Illinois No. 6 Coal.” Journal of Thermodynamics and Catalysis, v. 5, pp. 136.
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Falcone Miller, S., and B. G. Miller, (2014 November 4-6). “Combustion Performance and Ash Chemistry Effect when Cofiring Pressed Algae and Coal,” 4th IEA Clean Coal Centre Workshop on Cofiring Biomass with Coal Workshop, University Park, Pennsylvania.
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