EBOOK - Handbook of Bioenergy Supply Chain - Models and Applications (Sandra D. Eksioglu & Steffen Rebennack & Panos M. Pardalos)

The chapter by Kaut et al. proposes a stochastic optimization modelling framework. This modelling framework is mindful of supply and demand uncertainties which are often observed in the bioenergy supply chain.
The chapter by Cinar et al. presents a two-stage stochastic model which captures uncertainty of costs and biomass supply on a supply chain design problem. A few chapters focus of single objective optimization models. Chapters by Palander et al., Zhang and Osmani present multi-objective optimization models.
These models optimize costs and delivery time in the supply chain; and costs and land use. The chapter by Morales-Rincón et al. discusses a GIS-based method to locate bioenergy production facilities. Amundson et al. present a framework which integrates process optimization, supply chain optimization and discrete event simulation capabilities.
Their goal is to provide a comprehensive and multidisciplinary tool for bioenergy supply chain design. The tool incorporates risk models in order to capture various uncertainties of this supply chain. Bai and Ouyang provide a comprehensive review of the impacts of bioenergy production on the transportation systems and infrastructure.

The chapter by Cinar et al. reviews and classifies the literature on biomass co-firing. Grebner et al. discuss some physical and economic methods for assessing woody biomass availability for bioenergy production. Thomas et al. provide an environmental life-cycle assessment of biofuel production; and Granda-Marulanda et al. provide a life-cycle cost assessment of biofuel production using syngas.
To summarize, this handbook brings together recent advances on a number of topics which are important for the development and long-term sustainability of this industry.
The handbook presents a number of models that can be used to optimize the supply chain performance of different types of biomass, such as, forest products and residues, energy crops, etc.; and different types of bioenergy, such as, cellulosic ethanol, biodiesel, electricity, etc. The case studies present problems faced by the industry in Southeast USA (such as, Alabama and Mississippi), or Western USA (such as, California) or Europe (such as, Norway and France).

Biomass to Energy Supply Chain Network Design: An Overview
of Models, Solution Approaches and Applications................ 1
Şebnem Yılmaz Balaman and Hasan Selim
BLOMST—An Optimization Model for the Bioenergy
Supply Chain.......................................... 37
Michal Kaut, Ruud Egging, Truls Flatberg and Kristin Tolstad Uggen
Optimal Allocation of Lignocellulosic Biomass Feedstocks
for Biofuel Production: A Case Study of California............... 67
Chien-Wei Chen and Yongxi Huang
Collaborative Railway Transportation Strategy to Increasing Imports
of Russian Wood for the Finnish Forest Energy Industry.......... 85
Teijo Palander, Jukka Malinen and Kalle Kärhä
Gis-Based Methodology for Optimum Location of Biomass
Extraction Plants and Power Plants Using Both Logistic
Criteria and Agricultural Suitability Criteria................... 113
L. Morales-Rincón, A. Martínez, F.B. Avila-Díaz, J.R. Acero,
E.F. Castillo-Monroy and Ariel Uribe-Rodríguez
Supply Chain Network Model for Biodiesel Production via
Wastewaters from Paper and Pulp Companies.................. 143
Sushil R. Poudel, Mohammad Marufuzzaman, Sandra Duni Ekşioǧlu,
Marta AmirSadeghi and Todd French
Decision Support Models for Integrated Design of Bioenergy
Supply Chains.......................................... 163
Joseph Amundson, Sumesh Sukumara, Jeffrey Seay
and Fazleena Badurdeen
Evaluating Supply Chain Design Models for the Integration
of Biomass Co-firing in Existing Coal Plants Under Uncertainty..... 191
Didem Cinar, Panos M. Pardalos and Steffen Rebennack
Economic and Land-Use Optimization of Lignocellulosic-Based
Bioethanol Supply Chains Under Stochastic Environment.......... 219
Jun Zhang and Atif Osmani
Biofuel Supply Chain Design and the Impacts on Transportation
Systems and Infrastructure................................ 253
Yun Bai and Yanfeng Ouyang
Biofuel Lifecycle Energy and Environmental Impacts:
The Challenges of Co-product Allocation...................... 267
Valerie M. Thomas, Dong Gu Choi and Dexin Luo
Life-Cycle Assessment of Bio-Fuel Production Using Syngas
from Biomass .......................................... 279
Nelson Andrés Granda-Marulanda, Mingzhou Jin and Fei Yu
Physical and Economic Aspects to Assessing Woody Biomass
Availability for Bioenergy Production and Related
Supply Constraints...................................... 299
Donald L. Grebner, Robert K. Grala, Omkar Joshi
and Gustavo Perez-Verdin
The Role of Biofuels in Achieving a National Energy
Independence Plan....................................... 323

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The chapter by Kaut et al. proposes a stochastic optimization modelling framework. This modelling framework is mindful of supply and demand uncertainties which are often observed in the bioenergy supply chain.
The chapter by Cinar et al. presents a two-stage stochastic model which captures uncertainty of costs and biomass supply on a supply chain design problem. A few chapters focus of single objective optimization models. Chapters by Palander et al., Zhang and Osmani present multi-objective optimization models.
These models optimize costs and delivery time in the supply chain; and costs and land use. The chapter by Morales-Rincón et al. discusses a GIS-based method to locate bioenergy production facilities. Amundson et al. present a framework which integrates process optimization, supply chain optimization and discrete event simulation capabilities.
Their goal is to provide a comprehensive and multidisciplinary tool for bioenergy supply chain design. The tool incorporates risk models in order to capture various uncertainties of this supply chain. Bai and Ouyang provide a comprehensive review of the impacts of bioenergy production on the transportation systems and infrastructure.

The chapter by Cinar et al. reviews and classifies the literature on biomass co-firing. Grebner et al. discuss some physical and economic methods for assessing woody biomass availability for bioenergy production. Thomas et al. provide an environmental life-cycle assessment of biofuel production; and Granda-Marulanda et al. provide a life-cycle cost assessment of biofuel production using syngas.
To summarize, this handbook brings together recent advances on a number of topics which are important for the development and long-term sustainability of this industry.
The handbook presents a number of models that can be used to optimize the supply chain performance of different types of biomass, such as, forest products and residues, energy crops, etc.; and different types of bioenergy, such as, cellulosic ethanol, biodiesel, electricity, etc. The case studies present problems faced by the industry in Southeast USA (such as, Alabama and Mississippi), or Western USA (such as, California) or Europe (such as, Norway and France).

Biomass to Energy Supply Chain Network Design: An Overview
of Models, Solution Approaches and Applications................ 1
Şebnem Yılmaz Balaman and Hasan Selim
BLOMST—An Optimization Model for the Bioenergy
Supply Chain.......................................... 37
Michal Kaut, Ruud Egging, Truls Flatberg and Kristin Tolstad Uggen
Optimal Allocation of Lignocellulosic Biomass Feedstocks
for Biofuel Production: A Case Study of California............... 67
Chien-Wei Chen and Yongxi Huang
Collaborative Railway Transportation Strategy to Increasing Imports
of Russian Wood for the Finnish Forest Energy Industry.......... 85
Teijo Palander, Jukka Malinen and Kalle Kärhä
Gis-Based Methodology for Optimum Location of Biomass
Extraction Plants and Power Plants Using Both Logistic
Criteria and Agricultural Suitability Criteria................... 113
L. Morales-Rincón, A. Martínez, F.B. Avila-Díaz, J.R. Acero,
E.F. Castillo-Monroy and Ariel Uribe-Rodríguez
Supply Chain Network Model for Biodiesel Production via
Wastewaters from Paper and Pulp Companies.................. 143
Sushil R. Poudel, Mohammad Marufuzzaman, Sandra Duni Ekşioǧlu,
Marta AmirSadeghi and Todd French
Decision Support Models for Integrated Design of Bioenergy
Supply Chains.......................................... 163
Joseph Amundson, Sumesh Sukumara, Jeffrey Seay
and Fazleena Badurdeen
Evaluating Supply Chain Design Models for the Integration
of Biomass Co-firing in Existing Coal Plants Under Uncertainty..... 191
Didem Cinar, Panos M. Pardalos and Steffen Rebennack
Economic and Land-Use Optimization of Lignocellulosic-Based
Bioethanol Supply Chains Under Stochastic Environment.......... 219
Jun Zhang and Atif Osmani
Biofuel Supply Chain Design and the Impacts on Transportation
Systems and Infrastructure................................ 253
Yun Bai and Yanfeng Ouyang
Biofuel Lifecycle Energy and Environmental Impacts:
The Challenges of Co-product Allocation...................... 267
Valerie M. Thomas, Dong Gu Choi and Dexin Luo
Life-Cycle Assessment of Bio-Fuel Production Using Syngas
from Biomass .......................................... 279
Nelson Andrés Granda-Marulanda, Mingzhou Jin and Fei Yu
Physical and Economic Aspects to Assessing Woody Biomass
Availability for Bioenergy Production and Related
Supply Constraints...................................... 299
Donald L. Grebner, Robert K. Grala, Omkar Joshi
and Gustavo Perez-Verdin
The Role of Biofuels in Achieving a National Energy
Independence Plan....................................... 323

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Chuyên mục: C. Bài giảng C. Bài giảng chuyên ngành Nhiệt Lạnh (Heat and Refrigeration) C. Bài giảng kỹ thuật