Biofuels, Land, and Water: A Systems Approach to Sustainability

Gopalakrishnan, Gayathri; Negri, M. Cristina; Wang, Michael; Wu, May; Snyder, Seth W.; LaFreniere, L. M.

doi:10.1021/es900801u

Cited by 105 publications

(77 citation statements)

References 39 publications

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“…The three types of bioethanol production in this study, that is, ethanol derived from sugarcane, corn, and corn stover, refer to the most representative biomass resources for sucrose-containing materials, starch materials, and lignocellulosic biomass. Therefore, based on the results of this study, a new viewpoint, that is, process hazard assessment, can be implemented into bioethanol production in addition to economic aspects, LCIA, resource availability, and use of land and water discussed by other researchers [14][15][16]. In this context, the specific category of environmental impacts related with nutrients used in biomass cultivation, such as nitrogen, phosphorus, and potassium, is also important and their input/output balances and cycles among involved carriers such as animal and plant should be carefully considered [44].…”

Section: Green Bioethanol Process Designmentioning

confidence: 92%

“…The environmental impact, mainly expressed as greenhouse gases emissions, has also been evaluated for bioethanol production from various feedstock, including corn in the USA [6][7][8][9], sugarcane in Brazil [10,11] and corn stover [12,13]. Additionally, the issues of biomass availability [14] and water and land use [15,16] have also been studied.…”

Section: Introductionmentioning

confidence: 99%

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Safety, health, and environmental assessment of bioethanol production from sugarcane, corn, and corn stover

Banimostafa

Nguyễn

Kikuchi

et al. 2012

Green Processing and Synthesis

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Biofuels as renewable resources are one of the options to meet the challenges of fossil fuel resource depletion and atmospheric pollution. Several studies have focused on the technical, economic, and environmental footprint of biofuels, particularly bioethanol production. However, there has been little effort to incorporate the environmental, health, and safety (EHS) hazards in an inclusive sustainability assessment of bioethanol production alternatives. This study focuses on these sustainability aspects for bioethanol production by employing the EHS and the inherent safety index (ISI) methods. The multicriteria assessment also includes the cumulative energy demand as a widely used lifecycle impact assessment indicator. Sugarcane, corn, and corn stover are considered as biomass resources, and the typical process conditions are used for the base case evaluation. Sensitivity analysis is used to investigate the impact of process conditions, composition of feed, and method settings on the final outcome. The results indicate that both the ISI and the EHS methods present similar overall rankings with sugarcane-derived and corn stover-derived processes as the most and the least hazardous, respectively. However, dissimilarities occur in the evaluation of the process sections, highlighting different hazardous aspects. Finally, including the lifecycle impact assessment in a bicriteria assessment indicates the sugarcane-derived process as clearly superior followed by the corn-derived and the corn stover-derived processes.

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Section: Green Bioethanol Process Designmentioning

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Safety, health, and environmental assessment of bioethanol production from sugarcane, corn, and corn stover

Banimostafa

Nguyễn

Kikuchi

et al. 2012

Green Processing and Synthesis

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show abstract

“…This can help alleviate climate change both in the near-term by reducing atmospheric carbon and in the long-term by displacing fossil fuels, especially if the biomass is converted to biofuels or bioenergy under a comprehensive strategy to reduce fossil carbon emissions (Pacala and Socolow 2004). Thus, short-rotation woody crops can provide multiple ecosystem services including carbon regulating services and fuel/energy provisioning services to enhance overall sustainability in the process of addressing climate change (Gopalakrishnan et al 2009). …”

Section: Introductionmentioning

confidence: 99%

Developing Woody Crops for the Enhancement of Ecosystem Services under Changing Climates in the North Central United States

Zalesny¹,

Headlee²

2015

Journal of Forest and Environmental Science

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Short rotation woody crops belonging to the genera Populus L., Salix L., Pinus L., and Eucalyptus L'Hér. have provided broad economic and ecological benefits throughout the world, including afforestation and reforestation along urban to rural gradients. Within the genus Populus, cottonwoods, poplars, aspens, and their hybrids (hereafter referred to as poplars) have been shown to exhibit favorable genotype × environment interactions, especially in the face of changing climates. Similar growth responses have been reported for Pinus, especially with white pine (Pinus strobus L.) in the North Central United States. This has led to current research priorities focused on ecosystem services for both genera. The Millennium Ecosystem Assessment (2005) defines cultural, supporting, provisioning, and regulating ecosystem services. The overarching objective of this paper was to synthesize information about the potential of poplars to provide multiple ecosystem services when grown at sites with varying soil and climate conditions across landscape gradients from urban to rural areas. Specific objectives included: 1) providing background of the United States Forest Service and its Research and Development branch, 2) integrating knowledge of current poplar breeding and development with biomass provisioning and carbon regulating ecosystem services as they relate to changing climates in the North Central United States, and 3) providing a case study illustrating this integration through comparisons of poplar with white pine. Our results were evaluated in the context of climate change mitigation, with specific focus on selection of favorable genotypes for sequestering atmospheric carbon and reducing fossil fuel carbon emissions.

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“…Many studies are focused on large-scale biofuel production aware of its environmental and social impacts (3)(4)(5)(6).…”

Section: Introductionmentioning

confidence: 99%

Environmental life cycle assessment of rapeseed straight vegetable oil as self-supply agricultural biofuel

et al. 2013

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Biofuels are nowadays considered a questionable environmental alternative to fossil fuels. In that context, this work analyses the environmental impacts when introducing rapeseed on the traditional and current wheat and barley agricultural rotation by means of a comparative life cycle assessment (LCA). The introduction of rapeseed, the correctness of its conversion to obtain straight vegetable oil and its use as selfconsumption biofuel in tractors are evaluated. Life cycle assessment is used in this work to evaluate the impacts of different considered scenarios. A sensitivity analysis has also been conducted. The results presented show a modest environmental improvement (diminishment of 6 out of the 10 analyzed environmental impacts) when introducing rapeseed to local crop rotations and its partial conversion to oil to be used as fuel in existing diesel engines. Additionally, the ratio between the energy obtained and the total energy input shows moderate positive results when comparing the latter case with the current one. Results from this study can be used to support research and decision making to assess the convenience of introducing alternative fuels in agricultural exploitations.

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Biofuels, Land, and Water: A Systems Approach to Sustainability

Cited by 105 publications

References 39 publications

Safety, health, and environmental assessment of bioethanol production from sugarcane, corn, and corn stover

Safety, health, and environmental assessment of bioethanol production from sugarcane, corn, and corn stover

Developing Woody Crops for the Enhancement of Ecosystem Services under Changing Climates in the North Central United States

Environmental life cycle assessment of rapeseed straight vegetable oil as self-supply agricultural biofuel

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