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1. Impact of biomass ash content on biocomposite properties

Author

Xianhui Zhao, Oluwafemi Oyedeji, Erin Webb, Sanjita Wasti, Samarthya Bhagia, Holly Hinton, Kai Li, Keonhee Kim, Ying Wang, Hongli Zhu, Uday Vaidya, Nicole Labbé, Halil Tekinalp, Nidia C. Gallego, Yunqiao Pu, Arthur J. Ragauskas, and Soydan Ozcan

Subjects
Natural fiber, Ash, Polymer PLA, Biocomposite, Mechanical property, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Owing to its low cost and sustainable nature, lignocellulosic biomass has been utilized for reinforcing polymers, but it is crucial to understand the impact of high-ash concentrations in biomass on composite strength and processing. Biomass is not only desirable for biofuel production but could also have a strong market, if high-ash biomass is acceptable, for biocomposites. In this work, natural fibers (switchgrass and corn stover) were used to reinforce polylactic acid (PLA) to produce biocomposites. Natural fibers were pretreated to obtain fibers that contain different percentages of ash. The mechanical properties (such as Young's modulus, tensile strength, failure strain, storage modulus) of corn stover/PLA composites remained largely unaffected by the ash concentration of the biomass fibers, despite the large range of ash contents (2.2–11.9 wt%). However, the tensile strengths of switchgrass/PLA composites were slightly negatively affected by the ash concentration of the switchgrass fibers (0.7–2.1 wt%). Both the switchgrass/PLA and the corn stover/PLA composites exhibited a high-enough tensile strength (49–57 MPa) and suitable complex viscosity (2.0−7.0 kPa·s at the frequency of 3.2 rad/s). They are expected to be 3D-printable through an extrusion-based additive manufacturing process.

Published
2022
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2. Beyond Pristine Metal–Organic Frameworks: Preparation of Hollow MOFs and Their Composites for Catalysis, Sensing, and Adsorption Removal Applications

Author

Xiaoqian Zha, Xianhui Zhao, Erin Webb, Shifa Ullah Khan, and Yang Wang

Subjects
hollow metal–organic framework, catalysis, sensing, adsorption, Organic chemistry, QD241-441
Abstract

Metal–organic frameworks (MOFs) have been broadly applied to numerous domains with a substantial surface area, tunable pore size, and multiple unsaturated metal sites. Recently, hollow MOFs have greatly attracted the scientific community due to their internal cavities and gradient pore structures. Hollow MOFs have a higher tunability, faster mass-transfer rates, and more accessible active sites when compared to traditional, solid MOFs. Hollow MOFs are also considered to be candidates for some functional material carriers. For example, composite materials such as hollow MOFs and metal nanoparticles, metal oxides, and enzymes have been prepared. These composite materials integrate the characteristics of hollow MOFs with functional materials and are broadly used in many aspects. This review describes the preparation strategies of hollow MOFs and their composites as well as their applications in organic catalysis, electrochemical sensing, and adsorption separation. Finally, we hope that this review provides meaningful knowledge about hollow-MOF composites and their derivatives and offers many valuable references to develop hollow-MOF-based applied materials.

Published
2022
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3. Fostering a Culture of Care for a Student Ready Institution

Author

Lisa Perry and Erin Webb

Abstract

The ever-changing landscape of higher education presents enrollment management (EM) professionals with challenges related to workload, staff morale, conflicting values, staff turnover, and student satisfaction. As higher education confronts the reality of today's enrollment climate, it is time to consider how organizational cultures impact staff well-being and, by extension, the quality of service provided to students. This article provides a comprehensive exploration of the transformative journey undertaken by the University of California, Merced's enrollment management (EM) team to reshape its organizational culture, emphasizing the importance of aligning norms and values with a student-ready mindset. Building upon a previous article titled "The Relationship Between One-Stop Support and New Student Enrollment" (Perry 2023) (EJ1401404), the authors discuss practical concepts, leveraged by one institution, for developing an enrollment management centralized service model that focuses on meeting the needs of current students while fostering a sense of belonging for staff.

Published
2024

4. Climate risk management for the U.S. cellulosic biofuels supply chain

Author

Matthew Langholtz, Erin Webb, Benjamin L. Preston, Anthony Turhollow, Norman Breuer, Laurence Eaton, Anthony W. King, Shahabaddine Sokhansanj, Sujithkumar Surendran Nair, and Mark Downing

Subjects
Bioenergy, Climate change, Climate extremes, Risk management, Adaptation, Meteorology. Climatology, QC851-999
Abstract

As U.S. energy policy turns to bioenergy, and second-generation biofuels in particular, to foster energy security and environmental benefits, consideration should be given to the implications of climate risk for the incipient bioenergy industry. As a case-in-point, we review evidence from the 2012 U.S. drought, underscoring the risk of extreme weather events to the agricultural sector in general, and the bioenergy supply chain in particular, including reductions in feedstock production and higher prices for agricultural commodities and biofuels. We also use a risk management framework developed by the Intergovernmental Panel on Climate Change to review current understanding regarding climate-related hazards, exposure, and vulnerability of the bioenergy supply chain with a particular emphasis on the growing importance of lignocellulosic feedstocks to future bioenergy development. A number of climate-related hazards are projected to become more severe in future decades, and future growth of bioenergy feedstocks is likely to occur disproportionately in regions preferentially exposed to such hazards. However, strategies and opportunities are available across the supply chain to enhance coping and adaptive capacity in response to this risk. In particular, the implications of climate change will be influenced by the expansion of cellulosic feedstocks, particularly perennial grasses and woody biomass. In addition, advancements in feedstock development, logistics, and extension provide opportunities to support the sustainable development of a robust U.S. bioenergy industry as part of a holistic energy and environmental policy. However, given the nascent state of the cellulosic biofuels industry, careful attention should be given to managing climate risk over both short- and long-time scales.

Published
2014
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5. Development of the IBSAL-SimMOpt Method for the Optimization of Quality in a Corn Stover Supply Chain

Author

Hernan Chavez, Krystel K. Castillo-Villar, and Erin Webb

Subjects
renewable energy, bioenergy, biofuels, biomass, supply chain network design, logistics, discrete-event simulation, optimization, simulation-based optimization, Technology
Abstract

Variability on the physical characteristics of feedstock has a relevant effect on the reactor’s reliability and operating cost. Most of the models developed to optimize biomass supply chains have failed to quantify the effect of biomass quality and preprocessing operations required to meet biomass specifications on overall cost and performance. The Integrated Biomass Supply Analysis and Logistics (IBSAL) model estimates the harvesting, collection, transportation, and storage cost while considering the stochastic behavior of the field-to-biorefinery supply chain. This paper proposes an IBSAL-SimMOpt (Simulation-based Multi-Objective Optimization) method for optimizing the biomass quality and costs associated with the efforts needed to meet conversion technology specifications. The method is developed in two phases. For the first phase, a SimMOpt tool that interacts with the extended IBSAL is developed. For the second phase, the baseline IBSAL model is extended so that the cost for meeting and/or penalization for failing in meeting specifications are considered. The IBSAL-SimMOpt method is designed to optimize quality characteristics of biomass, cost related to activities intended to improve the quality of feedstock, and the penalization cost. A case study based on 1916 farms in Ontario, Canada is considered for testing the proposed method. Analysis of the results demonstrates that this method is able to find a high-quality set of non-dominated solutions.

Published
2017
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6. Quantifying the Impact of Feedstock Quality on the Design of Bioenergy Supply Chain Networks

Author

Krystel K. Castillo-Villar, Hertwin Minor-Popocatl, and Erin Webb

Subjects
quality costing, optimization, logging residues, bioenergy, bioethanol, supply chain network design, logistics, biomass, Technology
Abstract

Logging residues, which refer to the unused portions of trees cut during logging, are important sources of biomass for the emerging biofuel industry and are critical feedstocks for the first-type biofuel facilities (e.g., corn-ethanol facilities). Logging residues are under-utilized sources of biomass for energetic purposes. To support the scaling-up of the bioenergy industry, it is essential to design cost-effective biofuel supply chains that not only minimize costs, but also consider the biomass quality characteristics. The biomass quality is heavily dependent upon the moisture and the ash contents. Ignoring the biomass quality characteristics and its intrinsic costs may yield substantial economic losses that will only be discovered after operations at a biorefinery have begun. This paper proposes a novel bioenergy supply chain network design model that minimizes operational costs and includes the biomass quality-related costs. The proposed model is unique in the sense that it supports decisions where quality is not unrealistically assumed to be perfect. The effectiveness of the proposed methodology is proven by assessing a case study in the state of Tennessee, USA. The results demonstrate that the ash and moisture contents of logging residues affect the performance of the supply chain (in monetary terms). Higher-than-target moisture and ash contents incur in additional quality-related costs. The quality-related costs in the optimal solution (with final ash content of 1% and final moisture of 50%) account for 27% of overall supply chain cost. Based on the numeral experimentation, the total supply chain cost increased 7%, on average, for each additional percent in the final ash content.

Published
2016
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9. Advances in metal–organic framework-based hydrogel materials: preparation, properties and applications

Author

Wang Sun, Xianhui Zhao, Erin Webb, Gang Xu, Weijie Zhang, and Yang Wang

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

This review provides the engineering strategies, systematic classification and representative applications of MOF-based hydrogels, and future prospects have also been presented in detail.

Published
2023
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10. Bioinspired design toward nanocellulose-based materials

Author

Xianhui Zhao, Samarthya Bhagia, Diego Gomez-Maldonado, Xiaomin Tang, Sanjita Wasti, Shun Lu, Shuyang Zhang, Mahesh Parit, Mitchell L. Rencheck, Matthew Korey, Huixin Jiang, Jiadeng Zhu, Xianzhi Meng, Meghan E. Lamm, Katie Copenhaver, Maria S. Peresin, Lu Wang, Halil Tekinalp, Guang Yang, Vipin Kumar, Gang Chen, Kashif Nawaz, X. Chelsea Chen, Uday Vaidya, Arthur J. Ragauskas, Erin Webb, Douglas J. Gardner, Ping He, Ximin He, Kai Li, and Soydan Ozcan

Subjects
Mechanics of Materials, Mechanical Engineering, General Materials Science, Condensed Matter Physics
Published
2023
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11. What have European countries done to prevent the spread of COVID-19? Lessons from the COVID-19 Health system response monitor

Author

Selina Rajan, Martin McKee, Cristina Hernández-Quevedo, Marina Karanikolos, Erica Richardson, Erin Webb, and Jonathan Cylus

Subjects
SARS-CoV-2, Health Policy, COVID-19, Humans, Public Policy, Public Health, Pandemics
Abstract

Although some European countries imposed measures that successfully slowed the transmission of Covid-19 during the first year of the pandemic, others struggled, either because they acted slowly or implemented measures ineffectively. In this paper we consider the European experience with public health measures designed to prevent transmission of COVID-19. Based on literature and country responses described in the COVID-19 Health System Response Monitor from March 2020 to December 2020, we consider some critical aspects of public health policy responses. These include the importance of public health capacity that can scale up surveillance and outbreak control, including effective testing and contract tracing, of clear messaging based on an understanding of human behaviour, policies that address the undesirable consequences of necessary measures, such as support for those isolating or unable to earn, and the ability to implement at pace and scale a major vaccine rollout. We conclude that for countries to be successful at preventing COVID-19 transmission, there is a need for a clear strategy with explicit goals and a whole systems approach to implementation.

Published
2022
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12. Providing health services effectively during the first wave of COVID-19: A cross-country comparison on planning services, managing cases, and maintaining essential services

Author

Dimitra Panteli, Erin Webb, Gemma Williams, G. Scarpetti, Sarah Reed, and Cristina Hernández-Quevedo

Subjects
Coronavirus disease 2019 (COVID-19), Service delivery framework, Prioritization of care, Ambulatory Care Facilities, Care provision, Article, 03 medical and health sciences, Health services, 0302 clinical medicine, Pandemic, Health care, Humans, Operations management, 030212 general & internal medicine, Pandemics, Cross country, Surge Capacity, business.industry, 030503 health policy & services, Health Policy, COVID-19, Health Services, Service delivery, Government Programs, Essential services, 0305 other medical science, business
Abstract

The COVID-19 pandemic triggered abrupt challenges for health care providers, requiring them to simultaneously plan for and manage a rise of COVID-19 cases while maintaining essential health services. Since March 2020, the COVID-19 Health System Response Monitor, a joint initiative of the European Observatory on Health Systems and Policies, the WHO Regional Office for Europe, and the European Commission, has documented country responses to COVID-19 using a structured template which includes a section on provision of care. Using the information available on the platform, this paper analyzes how countries planned services for potential surge capacity, designed patient flows ensuring separation between COVID-19 and non-COVID-19 patients, and maintained routine services in both hospital and ambulatory settings. Despite very real differences in the organization of health and care services, there were many similarities in country responses. These include transitioning the management of COVID-19 mild cases from hospitals to outpatient settings, increasing the use of remote consultations, and cancelling or postponing non-urgent services during the height of the first wave. In the immediate future, countries will have to continue balancing care for COVID-19 and non-COVID-19 patients to minimize adverse health outcomes, ideally with supporting guidelines and COVID-19-specific care zones. Looking forward, policymakers will have to consider whether strategies adopted during the COVID-19 pandemic will become permanent features of care provision.

Published
2022
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13. A reversal of fortune: Comparison of health system responses to COVID-19 in the Visegrad group during the early phases of the pandemic

Author

Viktoria Szerencses, Martin Smatana, Lucie Bryndová, Iwona Kowalska-Bobko, Peter Gaal, Anna Sagan, Erin Webb, and Anne Spranger

Subjects
Government, Coronavirus disease 2019 (COVID-19), Health Policy, COVID-19, Bed capacity, Article, law.invention, Transmission (mechanics), law, Political science, Development economics, Pandemic, Workforce, Humans, Support system, Pandemics, Health policy, Czech Republic
Abstract

This paper analyses the health policy response to the COVID-19 pandemic in the four Visegrad countries – Czechia, Hungary, Poland, and Slovakia – in spring and summer 2020. The four countries implemented harsh transmission prevention measures at the beginning of the pandemic and managed to effectively avoid the first wave of infections during spring. Likewise, all four relaxed most of these measures during the summer and experienced uncontrolled growth of cases since September 2020. Along the way, there has been an erosion of public support for the government measures. This was mainly due to economic considerations taking precedent but also likely due to diminished trust in the government. All four countries have been overly reliant on their relatively high bed capacity, which they managed to further increase at the cost of elective treatments, but this could not always be supported with sufficient health workforce capacity. Finally, none of the four countries developed effective find, test, trace, isolate and support systems over the summer despite having relaxed most of the transmission protection measures since late spring. This left the countries ill-prepared for the rise in the number of COVID-19 infections they have been experiencing since autumn 2020.

Published
2022
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16. The Structure and Financing of Health Care Systems Affected How Providers Coped With COVID‐19

Author

Wilm Quentin, Sherry Glied, Erin Webb, and Ruth Waitzberg

Subjects
medicine.medical_specialty, Coronavirus disease 2019 (COVID-19), media_common.quotation_subject, Control (management), Reimbursement Mechanisms, Revenue loss, 03 medical and health sciences, 0302 clinical medicine, Germany, Health care, Pandemic, medicine, Humans, In patient, 030212 general & internal medicine, Israel, Pandemics, health care economics and organizations, media_common, Finance, Insurance, Health, SARS-CoV-2, business.industry, 030503 health policy & services, Health Policy, Public health, Public Health, Environmental and Occupational Health, COVID-19, Payment, United States, England, Perspective, Business, 0305 other medical science, Delivery of Health Care, Perspectives
Abstract

Policy Points We compared the structure of health care systems and the financial effects of the COVID-19 pandemic on health care providers in the United States, England, Germany, and Israel: systems incorporating both public and private insurers and providers. The negative financial effects on health care providers have been more severe in the United States than elsewhere, owing to the prevalence of activity-based payment systems, limited direct governmental control over available provider capacity, and the structure of governmental financial relief. In a pandemic, activity-based payment reverses the conventional financial positions of payers and providers and may prevent providers from prioritizing public health because of the desire to avoid revenue loss caused by declines in patient visits.

Published
2021
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20. Economic impact of yield and composition variation in bioenergy crops: <scp> Populus trichocarpa </scp>

Author

Erin Webb, Gerald A. Tuskan, Wellington Muchero, Crissa Doeppke, Robin Clark, Mary J. Biddy, Andrew Bartling, Brian H. Davison, Jin-Gui Chen, Renee M. Happs, Anne E. Harman-Ware, and Mark F. Davis

Subjects
Populus trichocarpa, Variation (linguistics), Agronomy, biology, Renewable Energy, Sustainability and the Environment, Bioenergy, Biofuel, Yield (finance), Environmental science, Bioengineering, Composition (visual arts), Economic impact analysis, biology.organism_classification
Published
2020
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21. High-Strength Polylactic Acid (PLA) Biocomposites Reinforced by Epoxy-Modified Pine Fibers

Author

Erin Webb, Gregory S. Larsen, Ryan S. Ginder, Mehdi Tajvidi, Douglas J. Gardner, Soydan Ozcan, Xianhui Zhao, Lu Wang, Kai Li, Yu Wang, Halil Tekinalp, and Daniel Rasmussen

Subjects
Materials science, Renewable Energy, Sustainability and the Environment, General Chemical Engineering, Stiffness, 02 engineering and technology, General Chemistry, Epoxy, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Polylactic acid, chemistry, visual_art, Ultimate tensile strength, visual_art.visual_art_medium, medicine, Environmental Chemistry, Composite material, medicine.symptom, Biocomposite, 0210 nano-technology, Natural fiber
Abstract

The stiffness and tensile strength of biopolymers (e.g., polylactic acid (PLA)) are less than desirable for load-bearing applications in their neat form. The use of natural fibers as reinforcements...

Published
2020
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22. Characterizing Variability in Lignocellulosic Biomass: A Review

Author

Allison E. Ray, Elizabeth Bose, Bryon S. Donohoe, Erin Webb, Deepti Tanjore, Troy A. Semelsberger, Juan H. Leal, Ning Sun, Amber N. Hoover, Chenlin Li, Kastli D. Schaller, Oluwafemi Oyedeji, Jipeng Yan, Yining Zeng, and C. Luke Williams

Subjects
Renewable Energy, Sustainability and the Environment, General Chemical Engineering, Lignocellulosic biomass, Biomass, 02 engineering and technology, General Chemistry, Raw material, 010402 general chemistry, 021001 nanoscience & nanotechnology, Pulp and paper industry, 01 natural sciences, Commercialization, 0104 chemical sciences, Operational reliability, Biofuel, Environmental Chemistry, Environmental science, 0210 nano-technology
Abstract

Feedstock variability is a significant barrier to the scale-up and commercialization of lignocellulosic biofuel technologies. Variability in feedstock characteristics and behavior creates numerous ...

Published
2020
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24. Understanding the Impact of Lignocellulosic Biomass Variability on the Size Reduction Process: A Review

Author

Jun Qu, Oluwafemi Oyedeji, Erin Webb, and Philip A. Gitman

Subjects
Renewable Energy, Sustainability and the Environment, business.industry, General Chemical Engineering, Size reduction, Biomass, Lignocellulosic biomass, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Scientific method, Environmental Chemistry, Environmental science, 0210 nano-technology, Process engineering, business
Abstract

The importance of size reduction to the commercial deployment of biomass utilization technologies cannot be overemphasized. Size reduction is necessary to create good flowing, easily digestible lig...

Published
2020
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25. Epoxy as Filler or Matrix for Polymer Composites

Author

Xianhui Zhao, Shun Lu, Wei Li, Shuyang Zhang, Kai Li, Kashif Nawaz, Peter Wang, Guang Yang, Arthur Ragauskas, Soydan Ozcan, and Erin Webb

Abstract

Epoxy is a widely used polymer because of its ease of processing, high adhesiveness, and high chemical resistance. Epoxy-based composites are commonly used in aerospace, automotive, and marine applications. The epoxy type, function, curing agent, and curing process are discussed in this chapter. Epoxy is used as either a filler or polymer matrix in composite applications. As a filler, the epoxy modification on the fiber is discussed. As a polymer matrix, the epoxy is reinforced by natural and synthetic fibers. The manufacturing process and the fabricated epoxy-based composites’ performance (e.g., mechanical and thermal properties) are investigated. The advantages and disadvantages of epoxy’s function are discussed and summarized. Epoxy modification is an effective approach to improve the composites’ performance.

Published
2022

27. A cross-country comparison on providing health services effectively during the first wave of COVID-19

Author

Gemma Williams, S. Reed, Erin Webb, Cristina Hernández-Quevedo, G. Scarpetti, and Dimitra Panteli

Subjects
Communicable disease, Coronavirus disease 2019 (COVID-19), Surge Capacity, business.industry, Public Health, Environmental and Occupational Health, medicine.disease, Care provision, Health services, Order (exchange), Pandemic, Health care, medicine, Business, Medical emergency
Abstract

At the onset of the COVID-19 pandemic, health care providers had to abruptly change their way of providing care in order to simultaneously plan for and manage a rise of COVID-19 cases while maintaining essential health services. Even the most well-resourced health systems faced pressures from new challenges brought on by COVID-19, and every country had to make difficult choices about how to maintain access to essential care while treating a novel communicable disease. Using the information available on the HSRM platform from the early phases of the pandemic, we analyze how countries planned services for potential surge capacity, designed patient flows ensuring separation between COVID-19 and non-COVID-19 patients, and maintained routine services in both hospital and outpatient settings. Many country responses displayed striking similarities despite very real differences in the organization of health and care services. These include transitioning the management of COVID-19 mild cases from hospitals to outpatient settings, increasing the use of remote consultations, and cancelling or postponing non-urgent services during the height of the first wave. In the immediate future, countries will have to continue balancing care for COVID-19 and non-COVID-19 patients to minimize adverse health outcomes, ideally with supporting guidelines and COVID-19-specific care zones. Many countries expect to operate at lower capacity for routinely provided care, which will impact patient access and waiting times. Looking forward, policymakers will have to consider whether strategies adopted during the COVID-19 pandemic will become permanent features of care provision.

Published
2021
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28. Transformations in the landscape of primary health care during Covid-19: themes from the European region

Author

Govin Permanand, Erin Webb, Melitta Jakab, Ewout van Ginneken, Nigel Edwards, Stephanie Kumpunen, and Evgeny Zheleznyakov

Subjects
Government, medicine.medical_specialty, business.industry, Health Policy, Public health, pandemic, education, COVID-19, Public relations, Triage, behavioral disciplines and activities, Article, Outreach, Government Programs, primary health care, Preparedness, Workforce, Pandemic, medicine, Humans, health system, Medical prescription, business, Delivery of Health Care, Pandemics
Abstract

The COVID-19 pandemic has dramatically impacted primary health care (PHC) across Europe. Since March 2020, the COVID-19 Health System Response Monitor (HSRM) has documented country-level responses using a structured template distributed to country experts. We extracted all PHC-relevant data from the HSRM and iteratively developed an analysis framework examining the models of PHC delivery employed by PHC providers in response to the pandemic, as well as the government enablers supporting these models. Despite the heterogenous PHC structures and capacities across European countries, we identified three prevalent models of PHC delivery employed: (1) multi-disciplinary primary care teams coordinating with public health to deliver the emergency response and essential services; (2) PHC providers defining and identifying vulnerable populations for medical and social outreach; and (3) PHC providers employing digital solutions for remote triage, consultation, monitoring and prescriptions to avoid unnecessary contact. These were supported by government enablers such as increasing workforce numbers, managing demand through public-facing risk communications, and prioritising pandemic response efforts linked to vulnerable populations and digital solutions. We discuss the importance of PHC systems maintaining and building on these models of PHC delivery to strengthen preparedness for future outbreaks and better respond to the contemporary health challenges.

Published
2021

29. Poplar as Biofiber Reinforcement in Composites for Large-Scale 3D Printing

Author

Darby Ker, Halil Tekinalp, Bowie Benson, Xianhui Zhao, Yu Wang, Soydan Ozcan, Xianzhi Meng, Kai Li, Yunqiao Pu, Arthur J. Ragauskas, James Anderson, Erin Webb, and Douglas J. Gardner

Subjects
business.industry, Scale (chemistry), Supply chain, Biochemistry (medical), Biomedical Engineering, Biomass, 3D printing, General Chemistry, Revenue stream, Biomaterials, Economic viability, Biofuel, Environmental science, Composite material, business, Reinforcement
Abstract

The economic viability of the biofuel industry could be improved by adding a high-value revenue stream for biomass supply chains: bioderived composites for the rapidly expanding large-scale additive manufacturing industry (i.e., 3D printing). Using fibrillated fibers derived from biomass (e.g.

Published
2019
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30. The 2017 reform to improve financial sustainability of national health insurance in Estonia: Analysis and first lessons on broadening the revenue base

Author

Triin Habicht, Jarno Habicht, Ewout van Ginneken, Marge Reinap, Erin Webb, and Kaija Kasekamp

Subjects
Estonia, education.field_of_study, Government, Population ageing, National Health Programs, Economic policy, Health Policy, Population, Taxes, Payroll, Universal Health Insurance, Transfer payment, Health Care Reform, Sustainability, Payroll tax, Healthcare Financing, Humans, Revenue, Business, education
Abstract

In 2017, the Estonian government addressed the longstanding challenge of financial sustainability of the health system by expanding its revenue base. As a relatively low-spending country on health, Estonia relies predominantly on payroll contributions from the working population, which exposes the system to economic shocks and population ageing. In an effort to reduce these vulnerabilities, Estonia will gradually introduce a government transfer on behalf of pensioners, although long-term sustainability of the health system could still prove challenging as the overall health spending as a percentage of GDP is not expected to substantially increase. Estonia has rolled out the reform according to plan, but it has led to debate about the need to achieve universal population coverage (currently at about 95%). Moreover, the Estonian experience also holds important lessons for other countries looking to reform their health system. For example, policymakers should recognize that reforms require extensive preparation using consistent messaging over a long period of time, also to prevent prioritising short term and popular fixes over structural reforms. Additionally, collaboration between the health and financial ministries throughout the reform increases the buy-in for the reform and likelihood of adoption. Furthermore, health professionals play a significant role in advocacy, and seeking support from this group can smooth the path towards health system reform.

Published
2019
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31. Tackling the COVID-19 pandemic: Initial responses in 2020 in selected social health insurance countries in Europe

Author

Sarah Mantwill, Sophie Gerkens, Coralie Gandré, Andrea E. Schmidt, Erin Webb, Sherry Merkur, Judith D. de Jong, Zeynep Or, Anita Haindl, Wilm Quentin, Pia Vracko, Peter P. Groenewegen, Madelon Kroneman, Juliane Winkelmann, Tit Albreht, Cristina Hernández-Quevedo, Health Services Research, and RS: CAPHRI - R2 - Creating Value-Based Health Care

Subjects
Governance, Economic growth, Insurance, Health, Health Policy, Corporate governance, Social health insurance, COVID-19, Crisis management, Decentralisation, Decentralization, Social Security, Resilience (organizational), Europe, Pluralism (political theory), Ambulatory care, Humans, Business, Social determinants of health, Pandemics, Health policy
Abstract

Countries with social health insurance (SHI) systems display some common defining characteristics - pluralism of actors and strong medical associations - that, in dealing with crisis times, may allow for common learnings. This paper analyses health system responses during the COVID-19 pandemic in eight countries representative of SHI systems in Europe (Austria, Belgium, France, Germany, Luxembourg, the Netherlands, Slovenia and Switzerland). Data collection and analysis builds on the methodology and content in the COVID-19 Health System Response Monitor (HSRM) up to November 2020. We find that SHI funds were, in general, neither foreseen as major stakeholders in crisis management, nor were they represented in crisis management teams. Further, responsibilities in some countries shifted from SHI funds to federal governments. The overall organisation and governance of SHI systems shaped how countries responded to the challenges of the pandemic. For instance, coordinated ambulatory care often helped avoid overburdening hospitals. Decentralisation among local authorities may however represent challenges with the coordination of policies, i.e. coordination costs. At the same time, bottom-up self-organisation of ambulatory care providers is supported by decentralised structures. Providers also increasingly used teleconsultations, which may remain part of standard practice. It is recommended to involve SHI funds actively in crisis management and in preparing for future crisis to increase health system resilience.

Published
2021

32. European countries' responses in ensuring sufficient physical infrastructure and workforce capacity during the first COVID-19 wave

Author

Juliane Winkelmann, Erin Webb, Dimitra Panteli, Cristina Hernández-Quevedo, Gemma Williams, and Claudia B. Maier

Subjects
Economic growth, medicine.medical_specialty, Surge Capacity, business.industry, Health Policy, Public health, Health Personnel, Medical equipment, COVID-19, Procurement, Health care, Pandemic, Workforce, medicine, Humans, Business, Personal protective equipment, Pandemics
Abstract

The COVID-19 pandemic has placed unprecedented pressure on health systems' capacities. These capacities include physical infrastructure, such as bed capacities and medical equipment, and healthcare professionals. Based on information extracted from the COVID-19 Health System Reform Monitor, this paper analyses the strategies that 45 countries in Europe have taken to secure sufficient health care infrastructure and workforce capacities to tackle the crisis, focusing on the hospital sector. While pre-crisis capacities differed across countries, some strategies to boost surge capacity were very similar. All countries designated COVID-19 units and expanded hospital and ICU capacities. Additional staff were mobilised and the existing health workforce was redeployed to respond to the surge in demand for care. While procurement of personal protective equipment at the international and national levels proved difficult at the beginning due to global shortages, countries found innovative solutions to increase internal production and enacted temporary measures to mitigate shortages. The pandemic has shown that coordination mechanisms informed by real-time monitoring of available health care resources are a prerequisite for adaptive surge capacity in public health crises, and that closer cooperation between countries is essential to build resilient responses to COVID-19.

Published
2021

33. A comparison of 2020 health policy responses to the COVID-19 pandemic in Canada, Ireland, the United Kingdom and the United States of America

Author

Sarah Barry, Sara Burke, Erin Webb, Lynn Unruh, Rikke Siersbaek, Mathew Alexander, Andriy Koval, Greg Marchildon, Selina Rajan, Gemma Williams, Sherry Merkur, Steve Thomas, and Sara Allin

Subjects
medicine.medical_specialty, Government, Economic growth, Canada, 030503 health policy & services, Corporate governance, Public health, Health Policy, COVID-19, United Kingdom, United States, 03 medical and health sciences, Politics, 0302 clinical medicine, Political science, Pandemic, Workforce, medicine, Humans, 030212 general & internal medicine, 0305 other medical science, Personal protective equipment, Ireland, Pandemics, Health policy
Abstract

This paper compares health policy responses to COVID-19 in Canada, Ireland, the United Kingdom and United States of America (US) from January to November 2020, with the aim of facilitating cross-country learning. Evidence is taken from the COVID-19 Health System Response Monitor, a joint initiative of the European Observatory on Health Systems and Policies, the WHO Regional Office for Europe, and the European Commission, which has documented country responses to COVID-19 using a structured template completed by country experts. We show all countries faced common challenges during the pandemic, including difficulties in scaling-up testing capacity, implementing timely and appropriate containment measures amid much uncertainty and overcoming shortages of health and social care workers, personal protective equipment and other medical technologies. Country responses to address these issues were similar in many ways, but dissimilar in others, reflecting differences in health system organization and financing, political leadership and governance structures. In the US, lack of universal health coverage have created barriers to accessing care, while political pushback against scientific leadership has likely undermined the crisis response. Our findings highlight the importance of consistent messaging and alignment between health experts and political leadership to increase the level of compliance with public health measures, alongside the need to invest in health infrastructure and training and retaining an adequate domestic health workforce. Building on innovations in care delivery seen during the pandemic, including increased use of digital technology, can also help inform development of more resilient health systems longer-term.

Published
2021

34. Gaps in Coverage and Access in the European Union

Author

Willy Palm, Ewout van Ginneken, Suszy Lessof, G. Scarpetti, Erin Webb, Luigi Siciliani, and Cristina Hernández-Quevedo

Subjects
Population, Health Services Accessibility, 03 medical and health sciences, 0302 clinical medicine, Statutory law, Universal Health Insurance, media_common.cataloged_instance, Humans, 030212 general & internal medicine, European Union, European union, education, media_common, Reproductive health, Service (business), education.field_of_study, Refugees, Public economics, business.industry, 030503 health policy & services, Health Policy, Terms of service, Policy, Conceptual framework, Cost sharing, Business, Health Expenditures, 0305 other medical science
Abstract

This study identifies gaps in universal health coverage in the European Union, using a questionnaire sent to the Health Systems and Policy Monitor network of the European Observatory on Health Systems and Policies. The questionnaire was based on a conceptual framework with four access dimensions: population coverage, service coverage, cost coverage, and service access. With respect to population coverage, groups often excluded from statutory coverage include asylum seekers and irregular residents. Some countries exclude certain social-professional groups (e.g. civil servants) from statutory coverage but cover these groups under alternative schemes. In terms of service coverage, excluded or restricted services include optical treatments, dental care, physiotherapy, reproductive health services, and psychotherapy. Early access to new and expensive pharmaceuticals is a concern, especially for rare diseases and cancers. As to cost coverage, some countries introduced protective measures for vulnerable patients in the form of exemptions or ceilings from user chargers, especially for deprived groups or patients with accumulation of out-of-pocket spending. For service access, common issues are low perceived quality and long waiting times, which are exacerbated for rural residents who also face barriers from physical distance. Some groups may lack physical or mental ability to properly formulate their request for care. Currently, available indicators fail to capture the underlying causes of gaps in coverage and access.

Published
2020

35. The 2020 reform of the employment status of Hungarian health workers: Will it eliminate informal payments and separate the public and private sectors from each other?

Author

Viktoria Szerencses, Zita Velkey, Peter Gaal, and Erin Webb

Subjects
Employment, Economic growth, Parliament, media_common.quotation_subject, Health Personnel, Control (management), 03 medical and health sciences, 0302 clinical medicine, Pandemic, Health care, Humans, 030212 general & internal medicine, Salary, Health Workforce, Pandemics, media_common, Hungary, business.industry, SARS-CoV-2, 030503 health policy & services, Health Policy, COVID-19, Private sector, Workforce, Private Sector, Business, 0305 other medical science, Public finance
Abstract

Hungary, like many countries, features a complex mix of the public and private sector in the financing and provision of health care services. At the same time, the health system also faces challenges related to shortages of health professionals, low public financing, and informal payments. With the added pressure from the COVID-19 pandemic, Hungarian policymakers acted rapidly to pass a sweeping regulation aimed at these issues. Over two days, the Hungarian parliament introduced and unanimously approved a new regulation, Act C of 2020 on the Employment Status of Health Workers, that replaces the existing public employment relationship between health professionals, public providers and their controlling authorities. The Act, passed on 6 October 2020, brings the employment of health workers under strict central control by introducing a new employment status similar to that of the armed forces. The Act also provides doctors with an unprecedented 120% salary increase and criminalizes informal payments. The reception has been overwhelmingly negative, with thousands of health professionals indicating that they would not sign the new contracts, and the policy also contains serious technical and feasibility concerns. Although the first statistics show that only about 3-5% of the active workforce did not sign the contract by 1 March 2021, the implementation of the reform still faces serious challenges.

Published
2020

36. Improved Advanced Biomass Logistics Utilizing Woody and other Feedstocks in the Northeast and Pacific Northwest (Final Report)

Author

Justin P Heavey, Karl Hallen, Yuxi Wang, Robin Clark, Christopher D. Wood, Austin Himes, Scott Bergey, Bruce Summers, Rich Shuen, Art Stipanovic, Ted Koch, Rachel Emerson, Carlos Gantz, Mark H. Eisenbies, Megan Sheddan, Mahmood Ebadian, Zolboo Bold-Erdene, Rick Stonex, Erin Webb, Jingxin Wang, Timothy A. Volk, Jamie L. Schuler, Daniel DeSouza, Thomas E. Amidon, Obste Therasme, Damon Hartley, and Brian J. Stanton

Subjects
Agroforestry, Biomass, Environmental science
Published
2020
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37. Gaps in coverage and access in the European Union

Author

E van Ginneken, Willy Palm, Cristina Hernández-Quevedo, Luigi Siciliani, Suszy Lessof, G. Scarpetti, and Erin Webb

Subjects
Economic growth, Political science, Public Health, Environmental and Occupational Health, media_common.cataloged_instance, Frail elderly, European union, media_common
Abstract

Background At the request of the European Commission, the Observatory on Health Systems and Policies and the HSPM network have undertaken a study to explore gaps in universal health coverage in the European Union and increase the level of granularity in terms of areas or groups where accessibility is sub-optimal. Methods To explore these gaps more systematically a survey was developed based on the so-called cube model that comprises different dimensions determining health coverage, including population coverage, service coverage and cost coverage. In addition, access can also be hampered by other factors, which relate more to the physical availability of care, a person's ability to obtain necessary care or the attitude of the provider. The survey was sent to country contacts from the Health Systems and Policy Monitor network. Results Within the diversity of country cases found in the survey, the most significant barriers for accessing health care still seem to be associated with social and income status, rather than specific medical conditions. However, groups like mentally ill, homeless, frail elderly, undocumented migrants are more likely to face multiple layers of exclusion and complex barriers to access. Conclusions Health system interventions can close access gaps for these vulnerable groups and address inequities in access to care. Through detailed coverage design countries can indeed determine the extent to which financial hardship and catastrophic out-of-pocket spending can be prevented. Furthermore, scope exists to improve current data collection practice.

Published
2020
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38. Integrated Strategies to Enable Lower-Cost Biofuels

Author

Allison E. Ray, Ryan Davis, David Thompson, Lesley J. Snowden-Swan, Patrick Lamers, Rachel Emerson, Ling Tao, Quang Nguyen, Griffel Lloyd M, James R. Collett, Abhijit Dutta, Shruti K. Mishra, Leslie Ovard, Jason K. Hansen, Damon Hartley, Shyam K. Nair, Jeffrey A. Lacey, Kevin L. Kenney, Magdalena Ramirez-Corredores, Vicki S. Thompson, Mohammad S. Roni, Jennifer B. Dunn, Amber N. Hoover, Patrick Bonebright, Michael D. Kass, Cristina Negri, Jaya Tummuluru, John Quinn, Lynn M. Wendt, Tyler L. Westover, Eric C. D. Tan, Avantika Singh, Mary J. Biddy, Susuanne Jones, Luke William, Erin Webb, Matthew Langholtz, William A. Smith, and Neal A. Yancey

Subjects
Biofuel, Environmental science, Lower cost, Environmental economics
Published
2020
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39. Recycling of natural fiber composites: Challenges and opportunities

Author

Douglas J. Gardner, William H. Peter, Halil Tekinalp, Erin Webb, Mehdi Tajvidi, Arthur J. Ragauskas, Matthew Korey, Katie Copenhaver, Lu Wang, Xianhui Zhao, Meghan E. Lamm, Soydan Ozcan, Sanjita Wasti, Kai Li, Vidya Kishore, Samarthya Bhagia, Oluwafemi Oyedeji, and Hongli Zhu

Subjects
chemistry.chemical_classification, Economics and Econometrics, Materials science, Glass fiber, Young's modulus, Polymer, Durability, symbols.namesake, Synthetic fiber, chemistry, Ultimate tensile strength, symbols, Composite material, Material properties, Waste Management and Disposal, Natural fiber
Abstract

Natural fibers have been widely used for reinforcing polymers attributed to their sustainable nature, excellent stiffness to weight ratio, biodegradability, and low cost compared with synthetic fibers like carbon or glass fibers. Thermoplastic composites offer an advantage of recyclability after their service life, but challenges and opportunities remain in the recycling of natural fiber reinforced polymer composites (NFRPCs). This article summarized the effects of reprocessing/recycling on the material properties of NFRPCs. The material properties considered include mechanical performance, thermal properties, hygroscopic behavior, viscoelasticity, degradation, and durability. NFRPCs can generally be recycled approximately 4–6 times until their thermomechanical properties change. After recycling 7 times, the tensile strength of NFRPCs can decrease by 17%, and the tensile modulus can decrease by 28%. The mitigation approaches to overcome degradation of material properties of NFRPCs such as adding functional additives and virgin plastics are also discussed. The main challenges in these approaches such as degradation and incompatibility are discussed, and an effort is made to provide a rationale for reprocessing/recyclability assessment. Future applications of NFRPCs such as additive manufacturing and automotive part use are discussed.

Published
2022
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40. Impact of Parcel Size, Field Shape, Crop Yield, Storage Location, and Collection Equipment on the Performance of Single-Pass Cut-and-Chip Harvest System in Commercial Shrub Willow Fields

Author

Magen Shedden, Erin Webb, Mark H. Eisenbies, Karl Hallen, Justin P Heavey, Shahab Sokhansanj, Timothy A. Volk, and Mahmood Ebadian

Subjects
Willow, biology, Renewable Energy, Sustainability and the Environment, ved/biology, 020209 energy, Crop yield, Yield (finance), ved/biology.organism_classification_rank.species, 04 agricultural and veterinary sciences, 02 engineering and technology, Agricultural engineering, biology.organism_classification, Shrub, Field (computer science), Field capacity, 040103 agronomy & agriculture, 0202 electrical engineering, electronic engineering, information engineering, 0401 agriculture, forestry, and fisheries, Environmental science, Performance indicator, Scenario analysis, Agronomy and Crop Science, Energy (miscellaneous)
Abstract

In this study, an integrated system of harvesting, collecting, and transporting willow biomass crop to a storage site was modeled and evaluated using the IBSAL simulation model. A scenario analysis was used to quantify the impacts of five major input parameters on the performance of the integrated system. These parameters include parcel size, field shape, willow yield, distance to the storage site, and type of the collection equipment. Multiple performance indicators were identified to quantify the impacts on the system such as size of the equipment fleet, effective material and field capacity of the harvester, operating costs, and waiting times. The input data were collected from 36 commercial, short-rotation, shrub willow fields in northern New York State. The simulation results indicated that crop yield and type of collection equipment have the highest impact on operating costs and the equipment fleet size. As the size of equipment fleet increases in the system, variability in the system performance tends to increase. Field shape has the least impact on the overall system performance compared to the other four input parameters. The simulation results suggest that a combination of performance indicators need to be considered to evaluate the overall performance of the dynamic and complex system of harvesting, collection and transportation in commercial willow fields. The developed IBSAL model and scenario analysis approach can assist in planning this system based on the characteristics of field, crop, and logistical equipment to reach a high system performance.

Published
2018
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41. A novel risk analysis methodology to evaluate the economic performance of a biorefinery and to quantify the economic incentives for participating biomass producers

Author

Erin Webb, Hisham Zerriffi, Mahmood Ebadian, Yu Wang, Anthony To-Ming Lau, and Shahab Sokhansanj

Subjects
Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Biomass, Bioengineering, 02 engineering and technology, 010501 environmental sciences, Environmental economics, Investment (macroeconomics), Biorefinery, 01 natural sciences, Renewable energy, Incentive, Risk analysis (business), Return on investment, 0202 electrical engineering, electronic engineering, information engineering, Market price, Business, 0105 earth and related environmental sciences
Published
2018
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42. On the challenges facing the handling of solid biomass feedstocks

Author

Richard J. Farnish, Erin Webb, Gary Liu, Dusan Ilic, and Kenneth Williams

Subjects
Renewable Energy, Sustainability and the Environment, business.industry, Computer science, 020209 energy, Bioengineering, 02 engineering and technology, Raw material, Renewable energy, 020401 chemical engineering, Bioenergy, Biomass feedstock, 0202 electrical engineering, electronic engineering, information engineering, 0204 chemical engineering, business, Process engineering
Abstract

With a major global emphasis on the management of waste, alternative resources and a shift to environmentally sustainable technologies, demand for large volumes of heterogeneous solid biomass feedstocks for energy or chemical use is expected to rise significantly. In transforming a sporadic supply of a low-value, highly variable product, to continuous and controlled high through-put systems, a thorough understanding of the feedstock properties will increase in importance. Appropriate characterisation tests are necessary to define technical specification and selection criteria for handling equipment and to appraise the requirement and location for additional processes or pre-treatment to be integrated into the handling chain. Such tests may also influence the material characteristics to be used in the conversion process. This paper discusses the main feedstock attributes associated with a number of handling chain phases and the approach to obtain them. The framework for a holistic approach to the characterisation and design of biomass feedstock handling systems for further development and practical implementation is also proposed.

Published
2018
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43. Economic analysis of drying microalgae Chlorella in a conveyor belt dryer with recycled heat from a power plant

Author

C. Jim Lim, Shahab Sokhansanj, Hasti Hosseinizand, and Erin Webb

Subjects
Engineering, Waste management, Power station, business.industry, 020209 energy, Energy Engineering and Power Technology, Conveyor belt, 02 engineering and technology, 010501 environmental sciences, 7. Clean energy, 01 natural sciences, 6. Clean water, Industrial and Manufacturing Engineering, Waste heat recovery unit, Natural gas, Waste heat, Heat recovery ventilation, Heat exchanger, 0202 electrical engineering, electronic engineering, information engineering, business, Water content, 0105 earth and related environmental sciences
Abstract

The objective of this research is to estimate the cost of drying microalgae chlorella in a conveyor belt dryer using waste heat from an industrial source. The recycling system consists of a run around thermal fluid between two tube heat exchangers. The dryer is mathematically modeled and the mass transport coefficient is obtained from empirical thin-layer kinetic data. The dryer and heat recovery system are designed for the production of 1000 kg/h dried microalgae at a moisture content of 10% (wet basis, w.b.). The input moisture content can range from 35 to 75% (wet basis). Depending upon the applied Hand factor, the total cost to dry microalgae from 55% to 10% ranges from $46.13 to $109.64 per ton of dried product. Using natural gas assumed at $6.27/GJ, the drying cost increases to $83.47 per ton (using hand factor equal to 1). The drying cost using a commercial spray dryer is $109.05 per ton of dried product (using hand factor equal to 1). The paper discusses the sensitivity of drying costs to initial moisture content as well. The results show that integrating waste heat recovery with conveyor belt dryer decreases the drying costs of chlorella drying in comparison to two other drying methods.

Published
2017
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44. Impact of the biorefinery size on the logistics of corn stover supply – A scenario analysis

Author

Anthony To-Ming Lau, Erin Webb, Shahab Sokhansanj, Mahmood Ebadian, and Yu Wang

Subjects
Engineering, business.industry, 020209 energy, Mechanical Engineering, Yield (finance), Environmental engineering, Biomass, 02 engineering and technology, Building and Construction, 010501 environmental sciences, Management, Monitoring, Policy and Law, Biorefinery, 01 natural sciences, Agricultural science, Inventory level, General Energy, Corn stover, 0202 electrical engineering, electronic engineering, information engineering, Capital cost, Scenario analysis, Tonne, business, 0105 earth and related environmental sciences
Abstract

In this paper, three scenarios are considered to quantify the impact of the biorefinery size on the required biomass logistical resources. The biorefinery scenarios include small scale (175 dt/day)-SS, medium scale (520 dt/day)-MS and large scale (860 dt/day)-LS. These scenarios are compared against the following logistical resources (1) harvest area and contracted fields, (2) logistics equipment fleet and the workforce to run this fleet and (3) intermediate storage sites and their biomass inventory levels. To this end, the IBSAL-MC simulation model is applied to a corn stover logistics system in Southwestern Ontario. The obtained results show (1) the harvest area and the number of contracted fields increase by 65% and 78% from the SS scenario to the MS and LS scenarios, respectively, (2) the average biomass delivered costs are estimated to be $82.09, $87.49 and $93.75/dry tonne in the SS, MS and LS scenarios. The increase in the capital costs to develop a dedicated logistics equipment fleet are estimated to be far greater than the increase in the delivered costs as the size of the biorefinery increases. The upfront capital costs are estimated to be $6.72, 21.83 and 35.51 million in these scenarios. To run the logistics equipment fleet efficiently, 37, 136 and 235 well-trained operators are required in the SS, MS ad LS scenarios, respectively, and (3) the inventory level and the land requirement for storage in the MS and LS scenarios are estimated to be 225% and 425% greater than those of the SS scenario. The sensitivity analysis indicates that the logistical resources are highly sensitive to corn yield and farm participation rate. Overall, this study shows the importance of considering the size of the required logistical resources and the associated level of logistical complexity in evaluating the economic viability of a biorefinery project.

Published
2017
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45. Spatial Analysis of Stover Moisture Content During Harvest Season in the U.S

Author

Shahab Sokhansanj, Oluwafemi Oyedeji, and Erin Webb

Subjects
Crop residue, Moisture, 020209 energy, Biomedical Engineering, Soil Science, Biomass, Humidity, Forestry, 02 engineering and technology, Equilibrium moisture content, Corn stover, Agronomy, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Agronomy and Crop Science, Water content, Stover, Food Science
Abstract

The moisture content of a maturing crop varies as the harvest season progresses. For crop residues such as corn stover, moisture content at the time of harvest can be as high as 75% (wet mass basis) to less than 20% depending on the geographic location (climate conditions) and stage of harvest. Biomass moisture content is critical for baling and extended storage. It is therefore essential to have an estimate of the quantities of corn stover available as wet or dry for various parts of the U.S. To this end, we analyzed hourly weather data (temperature, humidity, and rainfall) from the Typical Meteorological Year v.3 (TMY3) dataset developed by the National Renewable Energy Laboratory. A recently published set of equations for calculating the moisture content of stover as a function of hourly temperature, humidity, and rainfall were used. The annual start and end of corn grain harvest along with annual grain production (in bushels) for each state were extracted from USDA National Agricultural Statistics Service reports. Using these datasets and moisture sorption equations, the percentage of corn stover tonnage with moisture content less than 20%, between 20% and 40%, or greater than 40% was estimated from the length of time that the biomass was in these moisture content ranges. These calculations were carried out for several locations within each of the states for which TMY data were available. It was concluded that about 37.2% of corn stover is dry (40% moisture content) nationwide. The remaining 27.0% of corn stover is between 20% and 40% moisture content. Keywords: Corn stover, Equilibrium moisture content, Field drying, Moisture content, Stover harvest, Typical Meteorological Year data.

Published
2017
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47. Estimating the required logistical resources to support the development of a sustainable corn stover bioeconomy in the <scp>USA</scp>

Author

Shahab Sokhansanj, Erin Webb, and Mahmood Ebadian

Subjects
Truck, Renewable Energy, Sustainability and the Environment, Harvest season, business.industry, 020209 energy, Total economic value, Bioengineering, 02 engineering and technology, Biotechnology, Agricultural science, Corn stover, Cellulosic ethanol, Net income, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Resource assessment, business, Social significance
Abstract

In this study, the logistical resources required to develop a bioeconomy based on corn stover in the USA are quantified, including field equipment, storage sites, transportation and handling equipment, workforce, corn growers, and corn lands. These resources are essential to mobilize large quantities of corn stover from corn fields to biorefineries. The logistical resources are estimated over the lifetime of the biorefineries. Seventeen corn-growing states are considered for the logistical resource assessment. Over 6.8 billion gallons of cellulosic ethanol can be produced annually from 108 million dry tons of corn stover in these states. The maximum number of required field equipment (i.e., choppers, balers, collectors, loaders, and tractors) is estimated to be 194 110 units with a total economic value of about $26 billion. In addition, 40 780 trucks and flatbed trailers would be required to transport bales from corn fields and storage sites to biorefineries with a total economic value of $4.0 billion. About 88 899 corn growers need to be contracted with an annual net income of over $2.1 billion. About 1903 storage sites would be required to hold 53.1 million dry tons of inventory after the harvest season. These storage sites would take up about 35 320.2 acres and 4077 loaders with an economic value of $0.4 billion would handle this inventory. The total required workforce to run the logistics operations is estimated to be 50 567. The magnitude of the estimated logistical resources demonstrates the economic and social significance of the corn stover bioeconomy in rural areas in the USA. © 2016 Society of Chemical Industry and John Wiley & Sons, Ltd

Published
2016
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48. Evaluating industrial drying of cellulosic feedstock for bioenergy: a systems approach

Author

Shahab Sokhansanj and Erin Webb

Subjects
Waste management, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Biomass, Bioengineering, 02 engineering and technology, 010501 environmental sciences, Wood drying, Raw material, Humidity ratio, 01 natural sciences, Renewable energy, Agronomy, Bioenergy, Cellulosic ethanol, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Biomass fuels, business, 0105 earth and related environmental sciences
Published
2016
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49. Bio-treatment of poplar via amino acid for interface control in biocomposites

Author

Soydan Ozcan, Halil Tekinalp, Alan Richard, Kai Li, Xianhui Zhao, Yu Wang, and Erin Webb

Subjects
Materials science, Rheometry, Mechanical Engineering, fungi, Lysine, Thermal decomposition, Composite number, technology, industry, and agriculture, food and beverages, Modulus, 02 engineering and technology, Dynamic mechanical analysis, 010402 general chemistry, 021001 nanoscience & nanotechnology, complex mixtures, 01 natural sciences, Industrial and Manufacturing Engineering, 0104 chemical sciences, Crystallinity, Mechanics of Materials, Ultimate tensile strength, Ceramics and Composites, bacteria, Composite material, 0210 nano-technology
Abstract

Advanced biocomposites reinforced by abundant biomass-derived fillers can add a revenue stream to enhance the economic viability of biofuel production chains and the energy efficiency of the composite industry. However, the low stiffness of biopolymers limits their use in structural applications. Poplar fibers (mesh size: l -lysine). As a benefit of the amino acid treatment, the tensile Young's moduli of the lysine/poplar/PLA composites increased by up to 68% with the addition of a small amount of lysine, compared with neat PLA. At the same time, the tensile strength, failure strain, and Young's modulus of the poplar/PLA composites all increased after adding only 0.1 wt % of lysine. It has been observed that the lysine content has a significant effect on the decomposition temperature, complex viscosity, storage modulus, crystallization temperature, and crystallinity of composites. The fracture surfaces of the composites with an optimum lysine content had fewer voids and were more compact compared with composites without any lysine. The pores on the surfaces of poplar fibers became more available for the penetration of PLA molecules as a result of lysine addition. Therefore, this study presents a facile method for reinforcing biocomposites with extremely low-cost and environmentally friendly biofillers.

Published
2020
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50. Simulation Modeling for Reliable Biomass Supply Chain Design Under Operational Disruptions

Author

Michael R. Hilliard, Erin Webb, Robin Clark, and Bhavna Sharma

Subjects
Economics and Econometrics, 020209 energy, Supply chain, Biomass, Lignocellulosic biomass, Energy Engineering and Power Technology, lcsh:A, 02 engineering and technology, Raw material, Tonnage, operational disruptions, Bioenergy, 0202 electrical engineering, electronic engineering, information engineering, Process engineering, biorefinery, Downtime, pre-processing, biomass, business.industry, Renewable Energy, Sustainability and the Environment, Biorefinery, simulation, Fuel Technology, depots, Environmental science, lcsh:General Works, business
Abstract

Lignocellulosic biomass derived fuels and chemicals are a promising and sustainable supplement for petroleum-based products. Currently, the lignocellulosic biofuel industry relies on a conventional system where feedstock is harvested, baled, stored locally, and then delivered in a low-density format to the biorefinery. However, the conventional supply chain system causes operational disruptions at the biorefinery mainly due to seasonal availability, handling problems, and quality variability in biomass feedstock. Operational disruptions decrease facility uptime, production efficiencies, and increase maintenance costs. For a low-value high-volume product where margins are very tight, system disruptions are especially problematic. In this work we evaluate an advanced system strategy in which a network of biomass processing centers (depots) are utilized for storing and preprocessing biomass into stable, dense, and uniform material to reduce feedstock supply disruptions, and facility downtime in order to boost economic returns to the bioenergy industry. A database centric discrete event supply chain simulation model was developed, and the impact of operational disruptions on supply chain cost, inventory and production levels, farm metrics and facility metrics were evaluated. Three scenarios were evaluated for a 7-year time-period: (1) bale-delivery scenario with biorefinery uptime varying from 20 to 85%; (2) pellet-delivery scenario with depot uptime varying from 20 to 85% and biorefinery uptime at 85%; and (3) pellet-delivery scenario with depot and biorefinery uptime at 85%. In scenarios 1 and 2, tonnage discarded at the field edge could be reduced by increasing uptime at facility, contracting fewer farms at the beginning and subsequently increasing contracts as facility uptime increases, or determining alternative corn stover markets. Harvest cost was the biggest contributor to the average delivered costs and inventory levels were dependent on facility uptimes. We found a cascading effect of failure propagating through the system from depot to biorefinery. Therefore, mitigating risk at a facility level is not enough and conducting a system-level reliability simulation incorporating failure dependencies among subsystems is critical.

Published
2018
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