Systematic analysis of comparative studies between additive and conventional manufacturing focusing on the environmental performance of logistics operations

Pilz, Thaisa Lana; Nunes, Bruna Marques Barreto; Maceno, Marcell Mariano Corrêa; Cleto, Marcelo Gechele; Seleme, Robson

doi:10.1590/0104-530x5289-20

Cited by 6 publications

(6 citation statements)

References 64 publications

(102 reference statements)

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“…Figure 6 displays the SLR methods. A systematic literature review was the most common methodology adopted [43][44][45][46][47][48][49][50][51][52][53][54], followed by narrative literature reviews [55][56][57][58][59][60], critical reviews [61][62][63], and, finally, meta-analyses [64,65] and state-of-the-art reviews [66,67]. Interestingly, even though the systematic review is the most popular review approach, all systematic reviews were concentrated in the last seven years (i.e., 2016 to 2022), showing an increasing trend towards more rigour in the academic review of the subject.…”

Section: Overview Of Studies Selected For Tertiary Reviewmentioning

confidence: 99%

“…From a comparative analysis of additive and conventional manufacturing, Pilz et al [50] conclude that additive manufacturing reduces the distances and quantity of products transported, thus reducing energy consumption and CO 2 emissions. However, Pilz et al [50] draw attention to the need for more studies in decentralised supply chains, particularly those based on the life-cycle assessment (LCA) approach, for a more comprehensive understanding of the environmental impacts of additive manufacturing. Moreover, concerning technologies that indirectly impact transportation, Salvucci et al [63] identify carbon capture and storage as a strategy.…”

Section: Technological Innovationsmentioning

confidence: 99%

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Carbon Emissions in Transportation: A Synthesis Framework

Ferrer

Thomé

2023

Sustainability

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With the growing concern worldwide regarding greenhouse gas (GHG) emissions and their impacts on human health and the environment, transportation has become a central theme in their mitigation, responsible for 15% of anthropogenic GHG, 23% of global energy-related, and 8.7 Gt CO2-eq emissions. This study’s objective was to comprehensively review the current state of carbon mitigation in the transportation sector. This was conducted through a systematic literature review based on the multi-level perspective of socio-technical transition theory and structural contingency theory. In total, 30 review papers covering 3561 original articles were selected for full-text examination. The main findings were related to the fact that in order to build resilience against climate change, transportation services must adapt to the current scenario and act quickly to avert future changes. Enablers, barriers, benefits, disadvantages, and metrics in carbon emission reduction were identified. A comprehensive framework and a dynamic co-word analysis emphasised the interrelationships among the dimensions of sustainability transition in transportation. Important trade-offs among the transition dimensions are context-dependent and should be adapted to different countries and transport modes to succeed. The study sheds light on the need to investigate mitigation’s often-neglected consequences and disadvantages.

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Section: Overview Of Studies Selected For Tertiary Reviewmentioning

confidence: 99%

Section: Technological Innovationsmentioning

confidence: 99%

Carbon Emissions in Transportation: A Synthesis Framework

Ferrer

Thomé

2023

Sustainability

View full text Add to dashboard Cite

show abstract

“…As illustrated in Figure 5, the systematic literature review was the most common methodology adopted [26,27,29,30,31,33,35,38,40,41,42,43], followed by narrative literature reviews [20,23,24,34,37,39,44], critical reviews [21,28,32], and, finally, meta-analyses [19,22] and state-of-the-art reviews [25,36]. Interestingly, even though the systematic review is the most popular review approach, all systematic reviews were concentrated in the last seven years (i.e., 2016 to 2022), showing an increasing trend towards more rigour in the academic review of the subject.…”

Section: Overview Of Studies Selected For Tertiary Reviewmentioning

confidence: 99%

“…On a comparative analysis of additive and conventional manufacturing, Pilz et al [38] conclude that additive manufacturing reduces the distances and quantity of products transported, thus reducing energy consumption and CO2 emissions. However, Pilz et al [38] draw attention to the need for more studies in decentralised supply chains, particularly those based on the life cycle assessment (LCA) approach, for a more comprehensive understanding of the environmental impacts of additive manufacturing. Also, concerning technologies that indirectly impact transportation, Salvucci et al [32] identify carbon capture and storage as a strategy.…”

Section: Technological Innovationsmentioning

confidence: 99%

Carbon Emissions in Transportation: A Synthesis Framework

Ferrer¹,

Thomé²

2023

Preprint

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With a worldwide growing concern for greenhouse gas (GHG) emissions and their impact on human health and the environment, transportation has become a central theme in mitigation, responsible for 14% of human GHG emissions. To build endurance to climate change, transportation services must adapt to the current scenario and act quickly to avert future changes. Deeply rooted changes in socio-technical systems will be necessary to achieve significant CO2 reduction and secure the well-being of future generations. This study's objective is to comprehensively review the current state of carbon mitigation in the transportation sector. This is done through a systematic literature review engrained in the socio-technical transition theory and the structural theory of contingency. Twenty-six review papers covering 2,983 original articles are selected for full-text examination concerning carbon emissions in transportation. Enablers, barriers, benefits, disadvantages and metrics in carbon emissions reduction are identified, and a comprehensive framework is built. Results provide a view of the current sustainability scenario in transportation and allow a better understanding of the factors influencing carbon emission initiatives in transportation and its outcomes.

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“…• AM facilitates shorter delivery channels and shorter supply chains (Gebler et al, 2014;Ford and Despeisse, 2016;Freeman and McMahon, 2020). This increases logistic sustainability of parts or products made by AM (Pilz et al, 2020) as almost every kind of transport is accompanied by CO 2 emissions. • In contrast to conventional manufacturing techniques like milling or casting only as much raw material as needed is used and less material waste is produced (Gebler et al, 2014;Ford and Despeisse, 2016;Sauerwein et al, 2019).…”

Section: Sdg : Sustainable Cities and Communitiesmentioning

confidence: 99%

Putting 3D printing to good use—Additive Manufacturing and the Sustainable Development Goals

2023

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Additive Manufacturing (AM), often referred to as 3D printing, is expected to have a high impact on the manufacturing industry as well as on society. The inherent characteristics of AM make it possible to help solve global challenges, which can be explored in reference to the 17 Sustainable Development Goals (SDGs) of the United Nations. This is the first paper that examines the connection of AM and the 17 SDGs through a literature review. In this work, it is outlined which SDGs have a high, moderate or low potential to be fostered by AM. The SDGs are introduced and corresponding studies relevant to the respective SDG are presented. It is found that six out of 17 SDGs have high potential to be promoted by AM. These are SDG 1 (No poverty), SDG 3 (Good Health and Wellbeing), SDG 4 (Quality Education), SDG 9 (Industry, Innovation, and Infrastructure), SDG 12 (Responsible Consumption and Production), and SDG 14 (Life below Water). Furthermore, two SDGs have been identified that have moderate potential to be cultivated by AM. These are SDG 7 (Affordable and Clean Energy) and SDG 10 (Reduced Inequalities).

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Systematic analysis of comparative studies between additive and conventional manufacturing focusing on the environmental performance of logistics operations

Cited by 6 publications

References 64 publications

Carbon Emissions in Transportation: A Synthesis Framework

Carbon Emissions in Transportation: A Synthesis Framework

Carbon Emissions in Transportation: A Synthesis Framework

Putting 3D printing to good use—Additive Manufacturing and the Sustainable Development Goals

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