Andi Mehmeti scite author profile

A common sustainability issue, arising in production systems, is the efficient use of resources for providing goods or services. With the increased interest in a hydrogen (H 2 ) economy, the life-cycle environmental performance of H 2 production has special significance for assisting in identifying opportunities to improve environmental performance and to guide challenging decisions and select between technology paths. Life cycle impact assessment methods are rapidly evolving to analyze multiple environmental impacts of the production of products or processes. This study marks the first step in developing process-based streamlined life cycle analysis (LCA) of several H 2 production pathways combining life cycle impacts at the midpoint (17 problem-oriented) and endpoint (3 damage-oriented) levels using the state-of-the-art impact assessment method ReCiPe 2016. Steam reforming of natural gas, coal gasification, water electrolysis via proton exchange membrane fuel cell (PEM), solid oxide electrolyzer cell (SOEC), biomass gasification and reforming, and dark fermentation of lignocellulosic biomass were analyzed. An innovative aspect is developed in this study is an analysis of water consumption associated with H 2 production pathways by life-cycle stage to provide a better understanding of the life cycle water-related impacts on human health and natural environment. For water-related scope, Water scarcity footprint (WSF) quantified using Available WAter REmaining (AWARE) method was applied as a stand-alone indicator. The paper discusses the strengths and weaknesses of each production pathway, identify the drivers of environmental impact, quantify midpoint environmental impact and its influence on the endpoint environmental performance. The findings of this study could serve as a useful theoretical reference and practical basis to decision-makers of potential environmental impacts of H 2 production systems.

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Life cycle assessment of molten carbonate fuel cells: State of the art and strategies for the future

Mehmeti

Santoni

Pietra

et al. 2016

Journal of Power Sources

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Eco-efficiency of agricultural water systems: Methodological approach and assessment at meso-level scale

Todorović

Mehmeti

Scardigno

2016

Journal of Environmental Management

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Life cycle-based evaluation of environmental impacts and external costs of treated wastewater reuse for irrigation: A case study in southern Italy

Canaj¹,

Mehmeti

Morrone³

et al. 2021

Journal of Cleaner Production

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Life cycle sustainability of solid oxide fuel cells: From methodological aspects to system implications

Mehmeti

McPhail

Pumiglia

et al. 2016

Journal of Power Sources

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LCA of tomato greenhouse production using spatially differentiated life cycle impact assessment indicators: an Albanian case study

Canaj

Mehmeti

Cantore

et al. 2019

Environ Sci Pollut Res

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Assessing the eco-efficiency improvements of Sinistra Ofanto irrigation scheme

Mehmeti

Todorović

Scardigno

2016

Journal of Cleaner Production

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Can Precise Irrigation Support the Sustainability of Protected Cultivation? A Life-Cycle Assessment and Life-Cycle Cost Analysis

Canaj¹,

Parente

D’Imperio

et al. 2021

Water

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To address sustainability challenges, agricultural advances in Mediterranean horticultural systems will necessitate a paradigmatic shift toward smart technologies, the impacts of which from a life cycle perspective have to be explored. Using life cycle thinking approaches, this study evaluated the synergistic environmental and economic performance of precise irrigation in greenhouse Zucchini production following a cradle-to-farm gate perspective. A cloud-based decision support system and a sensor-based irrigation management system (both referred to as “smart irrigation” approaches) were analyzed and compared to the farmer’s experience-based irrigation. The potential environmental indicators were quantified using life cycle assessment (LCA) with the ReCiPe 2016 method. For the economic analysis, life cycle costing (LCC) was applied, accounting not only for private product costs but also for so-called “hidden” or “external” environmental costs by monetizing LCA results. Smart irrigation practices exhibited similar performance, consuming on average 38.2% less irrigation water and energy, thus generating environmental benefits ranging from 0.17% to 62%. Single score results indicated that life cycle environmental benefits are up to 13% per ton of product. The cost-benefit analysis results showed that even though the implementation of smart irrigation imposes upfront investment costs, these costs are offset by the benefits to water and energy conservation associated with these practices. The reduction of investment costs and higher water costs in future, and lower internal rate of return can further enhance the profitability of smart irrigation strategies. The overall results of this study highlight that smart and innovative irrigation practices can enhance water-energy efficiency, gaining an economic advantage while also reducing the environmental burdens of greenhouse cultivation in a Mediterranean context.

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Andi Mehmeti

Life Cycle Assessment and Water Footprint of Hydrogen Production Methods: From Conventional to Emerging Technologies

Life cycle assessment of molten carbonate fuel cells: State of the art and strategies for the future

Eco-efficiency of agricultural water systems: Methodological approach and assessment at meso-level scale

Life cycle-based evaluation of environmental impacts and external costs of treated wastewater reuse for irrigation: A case study in southern Italy

Life cycle sustainability of solid oxide fuel cells: From methodological aspects to system implications

LCA of tomato greenhouse production using spatially differentiated life cycle impact assessment indicators: an Albanian case study

Assessing the eco-efficiency improvements of Sinistra Ofanto irrigation scheme

Can Precise Irrigation Support the Sustainability of Protected Cultivation? A Life-Cycle Assessment and Life-Cycle Cost Analysis

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