Life cycle assessment of biomass production: Development of a methodology to improve the environmental indicators and testing with fiber sorghum energy crop

Abstract Purpose Currently, almost all cyanide-free gold leaching processes are still in the development stage. Proactively investigating their environmental impacts prior to commercialization is of utmost importance. In this study, a detailed refractory gold concentrate process simulation with mass and energy balance was built for state-of-the-art technology with (i) pressure oxidation followed by cyanidation and, compared to alternative cyanide-free technology, with (ii) pressure oxidation followed by halogen leaching. Subsequently, the simulated mass balance was used as life cycle inventory data in order to evaluate the environmental impacts of the predominant cyanidation process and a cyanide-free alternative. Methods The environmental indicators for each scenario are based on the mass balance produced with HSC Sim steady-state simulation. The simulated mass balances were evaluated to identify the challenges in used technologies. The HSC Sim software is compatible with the GaBi LCA software, where LCI data from HSC-Sim is directly exported to. The simulation produces a consistent life cycle inventory (LCI). In GaBi LCA software, the environmental indicators of global warming potential (GWP), acidification potential (AP), terrestrial eutrophication potential (EP), and water depletion (Water) are estimated. Results and discussion The life cycle assessment revealed that the GWP for cyanidation was 10.1 t CO2-e/kg Au, whereas the halogen process indicated a slightly higher GWP of 12.6 t CO2-e/kg Au. The difference is partially explained by the fact that the footprint is calculated against produced units of Au; total recovery by the halogen leaching route for gold was only 87.3%, whereas the cyanidation route could extract as much as 98.5% of gold. The addition of a second gold recovery unit to extract gold also from the washing water in the halogen process increased gold recovery up to 98.5%, decreasing the GWP of the halogen process to 11.5 t CO2-e/kg Au. However, both evaluated halogen processing scenarios indicated a slightly higher global warming potential when compared to the dominating cyanidation technology. Conclusions The estimated environmental impacts predict that the development-stage cyanide-free process still has some challenges compared to cyanidation; as in the investigated scenarios, the environmental impacts were generally higher for halogen leaching. Further process improvements, for example in the form of decreased moisture in the feed for halide leaching, and the adaptation of in situ gold recovery practices in chloride leaching may give the cyanide-free processing options a competitive edge.

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Life cycle assessment of a hot-pressing machine to manufacture particleboards: hotspots, environmental indicators, and solutions

The International Journal of Life Cycle Assessment ◽

10.1007/s11367-020-01755-3 ◽

2020 ◽

Vol 25 (6) ◽

pp. 1059-1077

Author(s):

Diogo Aparecido Lopes Silva ◽

Alessandro Silveira Firmino ◽

Fabiane Salles Ferro ◽

André Luis Christoforo ◽

Florence Rezende Leite ◽

...

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Hot Pressing ◽

Environmental Indicators

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Life Cycle Assessment of SEWGS Technology Applied to Integrated Steel Plants

Sustainability ◽

10.3390/su11071825 ◽

2019 ◽

Vol 11 (7) ◽

pp. 1825 ◽

Cited By ~ 1

Author(s):

Letitia Petrescu ◽

Dora-Andreea Chisalita ◽

Calin-Cristian Cormos ◽

Giampaolo Manzolini ◽

Paul Cobden ◽

...

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Carbon Capture ◽

Carbon Capture And Storage ◽

Environmental Indicators ◽

Point Of View ◽

Steel Mill ◽

Iron And Steel ◽

Environmental Evaluation ◽

Liquid Absorption

The environmental evaluation of the sorption-enhanced water–gas shift (SEWGS) process to be used for the decarbonization of an integrated steel mill through life cycle assessment (LCA) is the subject of the present paper. This work is carried out within the STEPWISE H2020 project (grant agreement No. 640769). LCA calculations were based on material and energy balances derived from experimental activities, modeling activities, and literature data. Wide system boundaries containing various upstream and downstream processes as well as the main integrated steel mill are drawn for the system under study. The environmental indicators of the SEWGS process are compared to another carbon capture and storage (CCS) technology applied to the iron and steel industry (e.g., gas–liquid absorption using MEA). The reduction of greenhouse gas emissions for SEWGS technology is about 40%. For the other impact indicators, there is an increase in the SEWGS technology (in the range of 7.23% to 72.77%), which is mainly due to the sorbent production and transportation processes. Nevertheless, when compared with the post-combustion capture technology, based on gas–liquid absorption, from an environmental point of view, SEWGS performs significantly better, having impact factor values closer to the no-capture integrated steel mill.

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Life cycle assessment of biomass production in microalgae compact photobioreactors

GCB Bioenergy ◽

10.1111/gcbb.12120 ◽

2013 ◽

Vol 7 (2) ◽

pp. 184-194 ◽

Cited By ~ 20

Author(s):

Angela G. Silva ◽

Richard Carter ◽

Felipe L. M. Merss ◽

Diego O. Corrêa ◽

Jose V. C. Vargas ◽

...

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Biomass Production

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Comparative Life Cycle Assessment of Marine Insulation Materials

Journal of Marine Science and Engineering ◽

10.3390/jmse9101099 ◽

2021 ◽

Vol 9 (10) ◽

pp. 1099

Author(s):

Hayoung Jang ◽

Yoonwon Jang ◽

Byongug Jeong ◽

Nak-Kyun Cho

Keyword(s):

Global Warming ◽

Life Cycle Assessment ◽

Life Cycle ◽

Polyurethane Foam ◽

Mineral Wool ◽

Expanded Polystyrene ◽

Environmental Indicators ◽

Human Toxicity ◽

Insulation Materials ◽

Marine Vessels

This study aimed to reduce the holistic environmental impacts of insulation materials proposed for the accommodation of a marine cargo ship, and suggest the optimal option for cleaner ship production, using life cycle assessment. With a commercial bulk carrier as a case ship, three major insulations were assessed, which were wool-based material (mineral wool or glass wool), expanded polystyrene, and polyurethane foam. The analysis was scoped based on ‘from cradle to grave’, while focusing on the following five representative environmental indicators: global warming potential100years, acidification potential, eutrophication potential, ozone depletion potential, and human toxicity potential. The assessment was performed in the platform of the GaBi software. The results showed that polyurethane foam would have the greatest impacts, especially in regard to global warming, eutrophication, and human toxicity. On the other hand, expanded polystyrene and wool-based material showed better environmental performance than polyurethane foam. For example, wool-based insulation was found, in terms of GWP and HTP, to produce 2.1 × 104 kg CO2-eq and 760.1 kg DCB-eq, respectively, and expanded polystyrene had similar results with respect to GWP, AP, and EP as 2.1 × 104 kg CO2-eq, 23.3 kg SO2-eq, and 2.7 kg Phosphate-eq, respectively. In fact, the research findings point out the shortcomings of current design practices in selecting insulation materials for marine vessels, while providing meaningful insights into the importance of the selection of appropriate insulation materials for marine vessels for cleaner shipping. Therefore, it is believed that this paper will make a sound contribution to enhancing future design practice and regulatory frameworks in response to environmental issues in the marine industry.

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A Life Cycle Assessment of Biomass Production from Energy Crops in Crop Rotation Using Different Tillage System

Sustainability ◽

10.3390/su12176978 ◽

2020 ◽

Vol 12 (17) ◽

pp. 6978

Author(s):

Anna Vatsanidou ◽

Christos Kavalaris ◽

Spyros Fountas ◽

Nikolaos Katsoulas ◽

Theofanis Gemtos

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Crop Rotation ◽

Biomass Production ◽

Energy Crops ◽

Biofuel Production ◽

No Tillage ◽

Cotton Crop ◽

Tillage Practices

A three-year experiment was carried out in Central Greece to assess the use of different tillage practices (Conventional, Reduced, and No tillage) for seedbed preparation, in a double cropping per year rotation of irrigated and rainfed energy crops for biomass production for first- and second-generation biofuel production. A life cycle assessment (LCA) study was performed for the first year of crop rotation to evaluate the environmental impact of using different tillage practices, identifying the processes with greater influence on the overall environmental burden (hotspots) and demonstrating the potential environmental benefits from the land management change. LCA results revealed that fertilizer application and diesel fuel consumption, as well as their production stages, were the hot-spot processes for each treatment. In the present study, different tillage treatments compared using mass- and area-based functional unit (FU), revealing that reduced tillage, using strip tillage for spring crop and disc harrow for winter crops, and no tillage treatment had the best environmental performance, respectively. Comparison between the prevailing in the area monoculture cotton crop with the proposed double energy crop rotation adopting conservation tillage practices, using mass and energy value FU, showed that cotton crop had higher environmental impact.

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Improving Energy Efficiency of Barley Production Using Joint Data Envelopment Analysis (DEA) and Life Cycle Assessment (LCA): Evaluation of Greenhouse Gas Emissions and Optimization Approach

Sustainability ◽

10.3390/su13116082 ◽

2021 ◽

Vol 13 (11) ◽

pp. 6082

Author(s):

Zahra Payandeh ◽

Ahmad Jahanbakhshi ◽

Tarahom Mesri-Gundoshmian ◽

Sean Clark

Keyword(s):

Energy Efficiency ◽

Life Cycle Assessment ◽

Life Cycle ◽

Energy Consumption ◽

Data Envelopment Analysis ◽

Environmental Indicators ◽

Optimization Approach ◽

Data Envelopment ◽

Aquatic Ecotoxicity ◽

Environmental Emissions

Eco-efficiency has become a cornerstone in improving the environmental and economic performance of farms. The joint use of life cycle assessment (LCA) and data envelopment analysis (DEA), known as LCA + DEA methodology, is an expanding area of research in this quest. LCA estimates the environmental impacts of the products or services, while DEA evaluates their efficiency, providing targets and benchmarks for the inefficient ones. Because energy consumption and environmental quality are highly interdependent, we carried out a study to examine energy efficiency and environmental emissions associated with rain-fed barley farms in Kermanshah Province, Iran. Fifty-four rain-fed barley farms were randomly selected, and production data were collected using questionnaires and interviews. DEA and LCA were used to quantify and compare environmental indicators before and after efficiency improvements were applied to the farms. To accomplish this, efficient and inefficient farms were identified using DEA. Then environmental emissions were measured again after inefficient farms reached the efficiency limit through management improvements. The results showed that by managing resource use, both energy consumption and environmental emissions can be reduced without yield loss. The initial amount of energy consumed averaged 13,443 MJ/ha while that consumed in the optimal state was determined to be 12,509 MJ/h, resulting in a savings of 934 MJ/ha. Based on the results of DEA, reductions in nitrogen fertilizer, diesel fuel, and phosphate fertilizer offered the greatest possibilities for energy savings. Combining DEA and LCA showed that efficient resource management could reduce emissions important to abiotic depletion (fossil fuels), human toxicity, marine aquatic ecotoxicity, global warming (GWP100a), freshwater aquatic ecotoxicity, and terrestrial ecotoxicity. This study contributes toward systematically building knowledge about crop production with the joint use of LCA + DEA for eco-efficiency assessment.

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Effect of Methodological Choices on Pavement Life-Cycle Assessment

Transportation Research Record Journal of the Transportation Research Board ◽

10.1177/0361198118757194 ◽

2018 ◽

Vol 2672 (40) ◽

pp. 78-87 ◽

Cited By ~ 1

Author(s):

Rebekah Yang ◽

Imad L. Al-Qadi ◽

Hasan Ozer

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Asphalt Binder ◽

Primary Energy ◽

Environmental Indicators ◽

Sensitivity Analyses ◽

Methodological Choices ◽

Maintenance And Rehabilitation ◽

The Impact ◽

Made In

The use of life-cycle assessment (LCA) to assess the environmental impacts of pavement systems has become more prevalent in recent years. When performing an LCA study, a series of methodological choices must be defined. As these decisions can change from study to study, it is important to understand the significance or insignificance of the methodological choices relevant to pavement LCA. This paper evaluated the sensitivity of five choices commonly made in pavement LCA; cut-off criteria, end-of-life (EOL) allocation, asphalt binder allocation, traffic growth, and type of energy reported. Eight case studies and four environmental indicators, that is, global warming potential, primary energy as fuel, total primary energy, and a unitless single score, were considered in the sensitivity analyses. Varying the cut-off criteria and asphalt binder allocation only had a significant impact on the environmental indicators when the use stage of the life-cycle is excluded and only the materials and construction, maintenance and rehabilitation, and EOL stages are considered. Using different EOL allocations, traffic growths, and types of energy reported had significant effects on the overall life-cycle results. Common methodological choices made in a pavement LCA are expected to have an impact on LCA results and subsequent interpretation, with the magnitude of the impact dependent on the scope of the analysis.

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A life cycle assessment of biodiesel derived from the “niche filling” energy crop camelina in the USA

Applied Energy ◽

10.1016/j.apenergy.2011.10.025 ◽

2012 ◽

Vol 92 ◽

pp. 92-98 ◽

Cited By ~ 54

Author(s):

Brian J. Krohn ◽

Matthias Fripp

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Energy Crop ◽

The Usa

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