The application of life cycle assessments to the evaluation of the environmental benefits of industrial symbioses: research progress and challenges

It is challenging to measure the environmental impact of concrete with the absence of a consensus on a standardized methodology for life cycle assessment (LCA). Consequently, the values communicated in the literature for “green” concrete alternatives vary widely between 84 and 612 kg eq CO2/m3. This does not provide enough evidence regarding the acclaimed environmental benefits compared to ordinary Portland cement concrete knowing that the average for the latter was concluded in this study to be around 370 kg eq CO2/m3. Thus, the purpose of this study was to survey the literature on concrete LCAs in an attempt to identify the potential sources of discrepancies and propose a potential solution. This was done through examining 146 papers systematically and attributing the sources of error to the four stages of an LCA: scope definition, inventory data, impact assessment and results interpretations. The main findings showed that there are 13 main sources of discrepancies in a concrete LCA that contribute to the incompatibility between the results. These sources varied between (i) user-based choices such as depending on a cradle-to-gate scope, selecting a basic volume-based functional unit and ignoring the impact allocation and (ii) intrinsic uncertainty in some of the elements, such as the means of transportation, the expected service life and fluctuations in market prices. The former affects the reliability of a study, and hence, a concrete LCA methodology should not allow for any of the uncertainties. On the other hand, the latter affects the degree of uncertainty of the final outcome, and hence, we recommended conducting scenario analyses and communicating the aggregated uncertainty through the selected indicators.

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A Review of Environmental Life Cycle Assessments of Diets: Plant-Based Solutions Are Truly Sustainable, Even in the Form of Fast Foods

Sustainability ◽

10.3390/su13179926 ◽

2021 ◽

Vol 13 (17) ◽

pp. 9926

Author(s):

Anna Kustar ◽

Dalia Patino-Echeverri

Keyword(s):

Land Use ◽

Life Cycle ◽

Greenhouse Gas Emissions ◽

Greenhouse Gas ◽

Water Use ◽

Dietary Guidelines ◽

Environmental Benefits ◽

Life Cycle Assessments ◽

Gas Emissions ◽

Vegetarian Diets

This paper’s purpose is to shed light on the current understanding of the environmental benefits of vegetarian and vegan diets, considering the inclusion of a significant share of processed foods, such as plant-based burgers. We review recent Environmental Life Cycle Assessments of the three main diet types, omnivore, vegetarian, and vegan, and then assesses the environmental impacts of adding two commercial brands of plant-based burgers to vegetarian and vegan diets. The recent literature confirms that compared to omnivore diets adhering to the same dietary guidelines, vegan diets reduce land-use impacts by 50–86%, water use by 22–70%, and greenhouse gas emissions by 21–70%, while vegetarian diets achieve reductions of 27–84% in land use, 15–69% in water use, and 24–56% in greenhouse emissions. The environmental benefits of vegan and vegetarian diets are not affected by the consumption of highly processed plant-based burgers. Consumers reduce land use, water use, and greenhouse gas emissions between 87% and 96% by choosing a Beyond or Impossible burger instead of a regular beef patty. These results are robust to the uncertainties associated with a variety of beef production systems; there is no indication that a situation or condition may make beef burgers more environmentally friendly than these two plant-based alternatives, or that the addition of plant-based meats to vegan and vegetarian diets may reduce their environmental benefits.

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Towards prospective life cycle sustainability analysis: exploring complementarities between social and environmental life cycle assessments for the case of Luxembourg’s energy system

Matériaux & Techniques ◽

10.1051/mattech/2014043 ◽

2014 ◽

Vol 102 (6-7) ◽

pp. 605 ◽

Cited By ~ 10

Author(s):

B. Rugani ◽

E. Benetto ◽

E. Igos ◽

G. Quinti ◽

A. Declich ◽

...

Keyword(s):

Life Cycle ◽

Energy System ◽

Life Cycle Assessments ◽

Sustainability Analysis

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Modelling Sustainable Industrial Symbiosis

Energies ◽

10.3390/en14041172 ◽

2021 ◽

Vol 14 (4) ◽

pp. 1172

Author(s):

Hafiz Haq ◽

Petri Välisuo ◽

Seppo Niemi

Keyword(s):

Life Cycle ◽

Waste Management ◽

Environmental Performance ◽

Life Cycle Cost ◽

Economic Assessment ◽

Environmental Benefits ◽

Industrial Symbiosis ◽

Comprehensive Model ◽

Network Connections

Industrial symbiosis networks conventionally provide economic and environmental benefits to participating industries. However, most studies have failed to quantify waste management solutions and identify network connections in addition to methodological variation of assessments. This study provides a comprehensive model to conduct sustainable study of industrial symbiosis, which includes identification of network connections, life cycle assessment of materials, economic assessment, and environmental performance using standard guidelines from the literature. Additionally, a case study of industrial symbiosis network from Sodankylä region of Finland is implemented. Results projected an estimated life cycle cost of €115.20 million. The symbiotic environment would save €6.42 million in waste management cost to the business participants in addition to the projected environmental impact of 0.95 million tonne of CO2, 339.80 tonne of CH4, and 18.20 tonne of N2O. The potential of further cost saving with presented optimal assessment in the current architecture is forecast at €0.63 million every year.

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