Jinglan Hong scite author profile

Background, aim, and scope Uncertainty information is essential for the proper use of life cycle assessment (LCA) and environmental assessments in decision making. So far, parameter uncertainty propagation has mainly been studied using Monte Carlo techniques that are relatively computationally heavy to conduct, especially for the comparison of multiple scenarios, often limiting its use to research or to inventory only. Furthermore, Monte Carlo simulations do not automatically assess the sensitivity and contribution to overall uncertainty of individual parameters. The present paper aims to develop and apply to both inventory and impact assessment an explicit and transparent analytical approach to uncertainty. This approach applies Taylor series expansions to the uncertainty propagation of lognormally distributed parameters. Materials and methods We first apply the Taylor series expansion method to analyze the uncertainty propagation of a single scenario, in which case the squared geometric standard deviation of the final output is determined as a function of the model sensitivity to each input parameter and the squared geometric standard deviation of each parameter. We then extend this approach to the comparison of two or more LCA scenarios. Since in LCA it is crucial to account for both common inventory processes and common impact assessment characterization factors among the different scenarios, we further develop the approach to address this dependency. We provide a method to easily determine a range and a best estimate of (a) the squared geometric standard deviation on the ratio of the two scenario scores, "A/B", and (b) the degree of confidence in the prediction that the impact of scenario A is lower than B (i.e., the probability that A/B<1). The approach is tested on an automobile case study and resulting probability distributions of climate change impacts are compared to classical Monte Carlo distributions. Results The probability distributions obtained with the Taylor series expansion lead to results similar to the classical Monte Carlo distributions, while being substantially simpler; the Taylor series method tends to underestimate the 2.5% confidence limit by 1-11% and the 97.5% limit by less than 5%. The analytical Taylor series expansion easily provides the explicit contributions of each parameter to the overall uncertainty. For the steel front end panel, the factor contributing most to the climate change score uncertainty is the gasoline consumption (>75%). For the aluminum panel, the electricity and aluminum primary production, as well as the light oil consumption, are the dominant contributors to the uncertainty. The developed Responsible Editor: Andreas Ciroth Electronic supplementary material The online version of this article (

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Pollutants generated by cement production in China, their impacts, and the potential for environmental improvement

Chen

Hong

2015

Journal of Cleaner Production

171

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Life-cycle environmental and economic assessment of sewage sludge treatment in China

Chen

Hong

2014

Journal of Cleaner Production

195

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PET bottles recycling in China: An LCA coupled with LCC case study of blanket production made of waste PET bottles

Zhang

Shen

et al. 2020

Journal of Environmental Management

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Environmental impact assessment of corn straw utilization in China

Hong

Ren

Hong

et al. 2016

Journal of Cleaner Production

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Jinglan Hong

Environmental and economic life cycle assessment for sewage sludge treatment processes in Japan

Life cycle assessment of four municipal solid waste management scenarios in China

Life-cycle environmental and economic assessment of medical waste treatment

Analytical uncertainty propagation in life cycle inventory and impact assessment: application to an automobile front panel

Pollutants generated by cement production in China, their impacts, and the potential for environmental improvement

Life-cycle environmental and economic assessment of sewage sludge treatment in China

PET bottles recycling in China: An LCA coupled with LCC case study of blanket production made of waste PET bottles

Environmental impact assessment of corn straw utilization in China

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