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Integrated Forest Biorefinery Network Design Under Uncertainty

Integrated Forest Biorefinery Network Design Under Uncertainty
Author: Mohamed Belgasem Elaradi
Publisher:
Total Pages: 0
Release: 2020
Genre:
ISBN:
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The Canadian Pulp and Pulp (P&P) industry has been recently confronted by shrinking markets and tighter profit margins. Transforming P&P mills into Integrated Forest Biorefineries (IFBR) is a prominent solution to save the struggling industry and allow diversification towards the promising bioproducts markets. The implementation of such a strategy is a complex process that faces many sources of uncertainty. Therefore, the industry is in need for a planning tool that facilitates the IFBR network design by taking the uncertain market conditions into consideration. First, we propose a mixed integer programming model to optimize the investment plan in addition to other tactical decisions over a long term planning horizon. We test the model using a realistic case study for Canadian P&P companies, where we perform a set of sensitivity analysis tests in terms of bioproduct demand and energy prices. Our results showcase the potential of the IFBR to help the P&P industry and highlight the substantial impact of the bioproduct demand on its profitability. Second, we develop a Multi-stage Stochastic Programming model which explicitly incorporates the demand uncertainty. We also develop a simulation platform to validate the model and compare its performance with alternative decision models. We assess the value of incorporating demand uncertainty in the planning process and we also elaborate on the value of flexibility in terms of adjusting the investment plan in response to changes in market trends. Our results demonstrate the significant value of explicitly incorporating the uncertainty in IFBR network design as well as flexibility in the investment plan.

Integrated Biorefineries

Integrated Biorefineries
Author: Paul R. Stuart
Publisher: CRC Press
Total Pages: 877
Release: 2012-12-10
Genre: Science
ISBN: 1439803463
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Integrated Biorefineries: Design, Analysis, and Optimization examines how to create a competitive edge in biorefinery innovation through integration into existing processes and infrastructure. Leading experts from around the world working in design, synthesis, and optimization of integrated biorefineries present the various aspects of this complex process, capturing the state of the art in the advancing bioeconomy. The book defines an integrated biorefinery as a processing facility that transforms biomass into value-added products—from biofuels and biochemicals to food and pharmaceuticals. The chapters cover biorefinery product and process design, supply chains, process analysis, feedstocks, technologies, and policy and environmental analysis. They focus on second-generation feedstocks, including forestry resources, energy crops, agricultural residues, oils, and various waste materials. With the growing interest in sustainability in general and in renewable resources in industrial facilities, biorefineries are likely to play increasingly significant roles and have greater economic, environmental, and societal impact. This book fills an information gap by presenting cutting-edge advances that can effectively guide engineers and decision makers in the synthesis, selection, design, analysis, and optimization of biorefineries.

Integrated Biorefineries

Integrated Biorefineries
Author: Paul R. Stuart
Publisher: CRC Press
Total Pages: 873
Release: 2012-12-10
Genre: Science
ISBN: 1439803471
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Integrated Biorefineries: Design, Analysis, and Optimization examines how to create a competitive edge in biorefinery innovation through integration into existing processes and infrastructure. Leading experts from around the world working in design, synthesis, and optimization of integrated biorefineries present the various aspects of this complex

Handbook of Bioenergy

Handbook of Bioenergy
Author: Sandra D. Eksioglu
Publisher: Springer
Total Pages: 346
Release: 2015-08-11
Genre: Technology & Engineering
ISBN: 3319200925
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This handbook brings together recent advances in the areas of supply chain optimization, supply chain management, and life-cycle cost analysis of bioenergy. These topics are important for the development and long-term sustainability of the bioenergy industry. The increasing interest in bioenergy has been motivated by its potential to become a key future energy source. The opportunities and challenges that this industry has been facing have been the motivation for a number of optimization-related works on bioenergy. Practitioners and academicians agree that the two major barriers of further investments in this industry are biomass supply uncertainty and costs. The goal of this handbook is to present several cutting-edge developments and tools to help the industry overcome these supply chain and economic challenges. Case studies highlighting the problems faced by investors in the US and Europe illustrate the impact of certain tools in making bioenergy an economically viable energy option.

Integrated Forest Biorefineries

Integrated Forest Biorefineries
Author: Lew Christopher
Publisher: Royal Society of Chemistry
Total Pages: 323
Release: 2013
Genre: Business & Economics
ISBN: 184973321X
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This book documents the recent accomplishments of integrated forest biorefineries and their future in the pulp, paper, and fiber-processing industries.

Biomass to Biofuel Supply Chain Design and Planning under Uncertainty

Biomass to Biofuel Supply Chain Design and Planning under Uncertainty
Author: Mir Saman Pishvaee
Publisher: Academic Press
Total Pages: 284
Release: 2020-11-25
Genre: Science
ISBN: 0128209003
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Biomass to Biofuel Supply Chain Design and Planning under Uncertainty: Concepts and Quantitative Methods explores the design and optimization of biomass-to-biofuel supply chains for commercial-scale implementation of biofuel projects by considering the problems and challenges encountered in real supply chains. By offering a fresh approach and discussing a wide range of quantitative methods, the book enables researchers and practitioners to develop hybrid methods that integrate the advantages and features of two or more methods in one decision-making framework for the efficient optimization of biofuel supply chains, especially for complex supply chain models. Combining supply chain management and modeling techniques in a single volume, the book is beneficial for graduate students who no longer need to consult subject-specific books alongside mathematical modeling textbooks. The book consists of two main parts. The first part describes the key components of biofuel supply chains, including biomass production, harvesting, collection, storage, preprocessing, conversion, transportation, and distribution. It also provides a comprehensive review of the concepts, problems, and opportunities associated with biofuel supply chains, such as types and properties of the feedstocks and fuel products, decision-making levels, sustainability concepts, uncertainty analysis and risk management, as well as integration of biomass supply chain with other supply chains. The second part focuses on modeling and optimization of biomass-to-biofuel supply chains under uncertainty, using different quantitative methods to determine optimal design. Proposes a general multi-level framework for the optimal design and operation of biomass-to-biofuel supply chains through quantitative analysis and modeling, including different biomass and waste biomass feedstock, production pathways, technology options, transportation modes, and final products Explores how modeling and optimization tools can be utilized to address sustainability issues in biofuel supply chains by simultaneously assessing and identifying sustainable solutions Presents several case studies with different regional constraints to evaluate the practical applicability of different optimization methods and compares their performance in real-world situations Includes General Algebraic Modeling System (GAMS) codes for solving biomass supply chain optimization problems discussed in different chapters

Sustainable Bioenergy Production

Sustainable Bioenergy Production
Author: Lijun Wang
Publisher: CRC Press
Total Pages: 586
Release: 2014-04-18
Genre: Nature
ISBN: 1466505524
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Given the environmental concerns and declining availability of fossil fuels, as well as the growing population worldwide, it is essential to move toward a sustainable bioenergy-based economy. However, it is also imperative to address sustainability in the bioenergy industry in order to avoid depleting necessary biomass resources. Sustainable Bioenergy Production provides comprehensive knowledge and skills for the analysis and design of sustainable biomass production, bioenergy processing, and biorefinery systems for professionals in the bioenergy field. Focusing on topics vital to the sustainability of the bioenergy industry, this book is divided into four sections: Fundamentals of Engineering Analysis and Design of Bioenergy Production Systems, Sustainable Biomass Production and Supply Logistics, Sustainable Bioenergy Processing, and Sustainable Biorefinery Systems. Section I covers the fundamentals of genetic engineering, novel breeding, and cropping technologies applied in the development of energy crops. It discusses modern computational tools used in the design and analysis of bioenergy production systems and the life-cycle assessment for evaluating the environmental sustainability of biomass production and bioenergy processing technologies. Section II focuses on the technical and economic feasibility and environmental sustainability of various biomass feedstocks and emerging technologies to improve feedstock sustainability. Section III addresses the technical and economic feasibility and environmental sustainability of different bioenergy processing technologies and emerging technologies to improve the sustainability of each bioenergy process. Section IV discusses the design and analysis of biorefineries and different biorefinery systems, including lignocellulosic feedstock, whole-crop, and green biorefinery.

Integrated Network Design for Forest Bioenergy Value Chain - Decisions Support System for the Transformation of the Canadian Forest Industry

Integrated Network Design for Forest Bioenergy Value Chain - Decisions Support System for the Transformation of the Canadian Forest Industry
Author: Foroogh Abasian
Publisher:
Total Pages: 94
Release: 2018
Genre:
ISBN:
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Bioenergy plants are expected to play an important role in green energy production from forestry biomass. To incorporate bioenergy plant in the forest supply chain, the industry requires new investments as well as new value chain design and management. On the other side, the uncertainties associated with demand and price of new products in the market may add risks to such large investment in current forest supply chain. Hence, the main objective of this thesis is to analyze and to propose new design of the forest bioenergy network in both a deterministic and a stochastic context. The first part of the thesis has proposed four optimization models for strategic, tactical and operational planning levels of the supply chain. The models have included several collaborative actions between all involved stakeholders of the supply chain. They have been integrated in a new educational tool called hierarchical transportation game. In the second part of the thesis, we have integrated the developed optimization models to propose an integrated value chain design and value chain management optimization model. This model has been used to analyze a forest bioenergy network in Newfoundland. Newfoundland forest supply chain comprising four major stakeholders was considered as our case study. The profitability of adding a new bioenergy plant as well as new terminals in several potential locations have been evaluated. Finally, in a third part of the thesis we have proposed the bioenergy network taking into account uncertainty on demand and price of all final products of a new value chain. Several potential bioprocesses with different technologies have been evaluated for our case study. To provide a risk-averse solution, we have proposed two risk management models. The results from the three parts of the thesis have demonstrated the impact of integrated planning, bioenergy plants and collaboration on improvement of forest value chain. In general, the work in this thesis can support an efficient transformation of the forest supply chain considering investment risks. The optimization models and approaches proposed in this thesis are novel and practical for the forest bioenergy network design problem.