Optimization of Miscanthus Harvesting and Handling as an Energy Crop: BioFeed Model Application

Shastri, Yogendra; Hansen, Alan C.; Rodríguez, L. F.; Ting, K. C.

doi:10.13031/2013.35925

Cited by 33 publications

(40 citation statements)

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“…Further, there have been studies which take into consideration the different types of biomass like switch-grass [17], cotton-stalk [18] and miscanthus [19] for the production of energy products. Most of these types of biomass are agricultural products and offer high seasonality due to limited periods of harvesting.…”

Section: Literature Surveymentioning

confidence: 99%

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Integrated strategic and tactical optimization of animal-waste sourced biopower supply chains

Kumar

Lopez

Sanchez

et al. 2015

2015 International Conference on Industrial Engineering and Systems Management (IESM)

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Section: Literature Surveymentioning

confidence: 99%

“…These problems have been studied mainly for bioethanol production by several types of biomass. The studies have been made on miscanthus [19], wood residues [23] and cotton stock [18]. The studies have been missing on supply chains with animal waste which are very different at operation and tactical levels.…”

Section: Literature Surveymentioning

confidence: 99%

Integrated strategic and tactical optimization of animal-waste sourced biopower supply chains

Kumar

Lopez

Sanchez

et al. 2015

2015 International Conference on Industrial Engineering and Systems Management (IESM)

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“…Engineering research has focused significantly on improving technology, operations, and system design for feedstock production [11][12][13][14][15][16][17][18]. This research is extremely important to identify better technologies, system bottlenecks, and operating practices.…”

Section: Introductionmentioning

confidence: 99%

“…The important decision-making steps for each class are modeled using a set of rules, which includes economic as well as social aspects of decision making. BioFeed model has been used to model and optimize crop production operations by farmers [11,12]. The regulatory aspects are also factored into the decision-making process.…”

Section: Introductionmentioning

confidence: 99%

Agent-Based Analysis of Biomass Feedstock Production Dynamics

et al. 2011

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The success of the bioenergy sector based on lignocellulosic feedstock will require a sustainable and resilient transition from the current agricultural system focused on food crops to one also producing energy crops. The dynamics of this transition are not well understood. It will be driven significantly by the collective participation, behavior, and interaction of various stakeholders such as farmers within the production system. The objective of this work is to study the system dynamics through the development and application of an agent-based model using the theory of complex adaptive systems. Farmers and biorefinery, two key stakeholders in the system, are modeled as independent agents. The decision making of each agent as well as its interaction with other agents is modeled using a set of rules reflecting the economic, social, and personal attributes of the agent. These rules and model parameters are adapted from literature. Regulatory mechanisms such as Biomass Crop Assistance Program are embedded in the decision-making process. The model is then used to simulate the production of Miscanthus as an energy crop in Illinois. Particular focus has been given on understanding the dynamics of Miscanthus adaptation as an agricultural crop and its impact on biorefinery capacity and contractual agreements. Results showed that only 60% of the maximum regional production capacity could be reached, and it took up to 15 years to establish that capacity. A 25% reduction in the land opportunity cost led to a 63% increase in the steadystate productivity. Sensitivity analysis showed that higher initial conversion of land by farmers to grow energy crop led to faster growth in regional productivity.

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“…Shastri et al [16], that optimises farm equipment selection, transportation vehicles and biomass harvesting and delivery schedules, given pre-selected farms, processing facilities and biomass flows. More recently, Lin et al [17] integrated the two models.…”

mentioning

confidence: 99%

BVCM: A comprehensive and flexible toolkit for whole system biomass value chain analysis and optimisation – Mathematical formulation

Samsatli

Shah

2015

Applied Energy

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Optimization of Miscanthus Harvesting and Handling as an Energy Crop: BioFeed Model Application

Cited by 33 publications

References 0 publications

Integrated strategic and tactical optimization of animal-waste sourced biopower supply chains

Integrated strategic and tactical optimization of animal-waste sourced biopower supply chains

Agent-Based Analysis of Biomass Feedstock Production Dynamics

BVCM: A comprehensive and flexible toolkit for whole system biomass value chain analysis and optimisation – Mathematical formulation

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