Trends and Innovations in Environmental Impact Assessment

A topical collection in Environments (ISSN 2076-3298).

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Collection Editor
CEris—Civil Engineering Research and Innovation for Sustainability, Department of Civil Engineering, Architecture and Georesources, Lisbon University, Av. Rovisco Pais, 1, 1049-001 Lisboa, Portugal
Interests: building energy; sustainable built environment; sustainable construction; life cycle assessment; energy life cycle; rehabilitation and sustainability
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Topical Collection Information

Dear Colleagues,

Environmental impact assessment (EIA) is one of the key processes in the preventive environmental approach and is mandatory in a wide range of countries and projects (e.g., agriculture, industry, commercial, services, infrastructures, urban projects, energy, tourism, and others). Environmental impact allows developers and decision makers to be preventive, identify the impact, define measures, and select alternatives to a full set of projects for better ecological and socio-economic integration and a support-integrated search for sustainable development. This topical collection invites research papers from various environmental impact issues to present articles emphasizing: (1) new trends, approaches, and cases of applications of environmental impact analysis; (2) project impact alternative selection; (3) defining environmental baseline (GIS and others) and environmental evolution without the project; (4) impact identification, prevision, and assessment; (5) integration of biodiversity, global warming, risk analysis, and other environmental factors; (6) feasibility analysis of environmental measures; (7) environmental public consultation and governance; (8) efficiency of environmental impact assessment processes; and (9) the link between strategical environmental assessment, environmental impact assessment, and sustainability. This environmental impact topical collection will provide an integrated view of trends and innovations in environmental impact.

Dr. Manuel Duarte Pinheiro
Collection Editor

Manuscript Submission Information

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Keywords

  • environmental impact trends
  • environmental impact assessment (EIA)
  • environment impact study (EIS)
  • impact methodology
  • impact cases innovation
  • environmental public consultation and governance
  • strategical environmental assessment (SEA)
  • sustainability

Published Papers (5 papers)

2024

Jump to: 2023

31 pages, 4631 KiB  
Article
Environmental Impact of Wind Farms
by Mladen Bošnjaković, Filip Hrkać, Marija Stoić and Ivan Hradovi
Environments 2024, 11(11), 257; https://doi.org/10.3390/environments11110257 - 16 Nov 2024
Viewed by 1384
Abstract
The aim of this article is to analyse the global environmental impact of wind farms, i.e., the effects on human health and the local ecosystem. Compared to conventional energy sources, wind turbines emit significantly fewer greenhouse gases, which helps to mitigate global warming. [...] Read more.
The aim of this article is to analyse the global environmental impact of wind farms, i.e., the effects on human health and the local ecosystem. Compared to conventional energy sources, wind turbines emit significantly fewer greenhouse gases, which helps to mitigate global warming. During the life cycle of a wind farm, 86% of CO2 emissions are generated by the extraction of raw materials and the manufacture of wind turbine components. The water consumption of wind farms is extremely low. In the operational phase, it is 4 L/MWh, and in the life cycle, one water footprint is only 670 L/MWh. However, wind farms occupy a relatively large total area of 0.345 ± 0.224 km2/MW of installed capacity on average. For this reason, wind farms will occupy more than 10% of the land area in some EU countries by 2030. The impact of wind farms on human health is mainly reflected in noise and shadow flicker, which can cause insomnia, headaches and various other problems. Ice flying off the rotor blades is not mentioned as a problem. On a positive note, the use of wind turbines instead of conventionally operated power plants helps to reduce the emission of particulate matter 2.5 microns or less in diameter (PM 2.5), which are a major problem for human health. In addition, the non-carcinogenic toxicity potential of wind turbines for humans over the entire life cycle is one of the lowest for energy plants. Wind farms can have a relatively large impact on the ecological system and biodiversity. The destruction of animal migration routes and habitats, the death of birds and bats in collisions with wind farms and the negative effects of wind farm noise on wildlife are examples of these impacts. The installation of a wind turbine at sea generates a lot of noise, which can have a significant impact on some marine animals. For this reason, planners should include noise mitigation measures when selecting the site for the future wind farm. The end of a wind turbine’s service life is not a major environmental issue. Most components of a wind turbine can be easily recycled and the biggest challenge is the rotor blades due to the composite materials used. Full article
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17 pages, 4831 KiB  
Article
Environmental Impact Assessment of Volatile Organic Compound Emissions during Trenchless Cured-in-Place Pipe Installation
by Salar Bavilinezhad, Mohammad Najafi, Vinayak Kaushal, William Elledge and Burak Kaynak
Environments 2024, 11(8), 169; https://doi.org/10.3390/environments11080169 - 7 Aug 2024
Viewed by 1226
Abstract
Cured-in-place pipe (CIPP) lining is a widely adopted method for pipeline renewal, offering advantages such as rapid installation and cost-effectiveness. However, concerns regarding the environmental impacts of volatile organic compound (VOC) emissions during the installation process have raised issues regarding the CIPP method. [...] Read more.
Cured-in-place pipe (CIPP) lining is a widely adopted method for pipeline renewal, offering advantages such as rapid installation and cost-effectiveness. However, concerns regarding the environmental impacts of volatile organic compound (VOC) emissions during the installation process have raised issues regarding the CIPP method. The literature review conducted in this paper indicated the need for stringent monitoring and management practices to mitigate adverse effects, emphasizing the importance of safe installation protocols. This paper presents the initial results of a case study focusing on VOC emissions, specifically investigating non-styrene vinyl ester resins and water curing. To capture emissions from CIPP activities, the methodology involved air sampling using various equipment, including photoionization detectors (PID), summa canisters, passive worker sampler sorbent tubes, and method 13 cartridges. The preliminary findings indicate that non-styrene vinyl ester resins resulted in VOC emissions well below the exposure limits set by OSHA and USEPA, with the highest measured concentration being 2.54 ppm. This demonstrates that non-styrene resins can significantly reduce environmental and health risks. The future phases of this project will explore different resins and curing methods to further validate these findings and develop comprehensive guidelines for safe CIPP installations. Full article
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14 pages, 943 KiB  
Review
Assessing Ecological Gains: A Review of How Arthropods, Bats and Birds Benefit from Green Roofs and Walls
by Patrícia Tiago, Ana I. Leal and Cristina Matos Silva
Environments 2024, 11(4), 76; https://doi.org/10.3390/environments11040076 - 10 Apr 2024
Cited by 2 | Viewed by 2343
Abstract
Because of the immense amount of infrastructure in cities, the introduction of vegetation into these constructions is expected to play a critical role in reducing the heat island effect, in mitigating the effects of climate change, and in supporting habitat connectivity and associated [...] Read more.
Because of the immense amount of infrastructure in cities, the introduction of vegetation into these constructions is expected to play a critical role in reducing the heat island effect, in mitigating the effects of climate change, and in supporting habitat connectivity and associated biodiversity. Although there is the perception that these solutions can improve the biodiversity of cities, their real value is still unclear. This paper focuses on two aspects of urban greening: green roofs and green walls. It provides a systematic review on biodiversity present in green roofs and walls, through an exhaustive worldwide literature analysis. Arthropods, bats, and birds were the three taxonomic groups analyzed in the papers included in our review. We observed a strong increase in the number of recent publications, thus demonstrating a growing interest in this topic. In summary, we found that green roofs/walls offered additional opportunities for plants and animals to thrive in urban environments because of habitat creation and greater spatial connectivity. In addition, the enhancement of other ecosystem services such as stormwater management and heat island mitigation was noted. By incorporating green features into urban design and planning, cities can support biodiversity while also improving the overall sustainability and livability of urban spaces. Full article
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2023

Jump to: 2024

12 pages, 543 KiB  
Article
Environmental Impact Assessment of Plastic Waste Management Scenarios in the Canadian Context
by Ophela Zhang, Mahdi Takaffoli, Myriam Ertz and Walid Addar
Environments 2023, 10(12), 213; https://doi.org/10.3390/environments10120213 - 4 Dec 2023
Cited by 3 | Viewed by 7525
Abstract
Given the scale of plastic generation, its persistent presence in the environment, and the urgent need to transition to a net-zero emissions paradigm, managing plastic waste has gained increasing attention globally. Developing an effective strategy for plastic waste management requires a comprehensive assessment [...] Read more.
Given the scale of plastic generation, its persistent presence in the environment, and the urgent need to transition to a net-zero emissions paradigm, managing plastic waste has gained increasing attention globally. Developing an effective strategy for plastic waste management requires a comprehensive assessment of the potential benefits offered by different solutions, particularly with respect to their environmental impact. This study employs the life cycle assessment (LCA) methodology to evaluate the environmental impact of two alternative scenarios to the As-Is scenario for managing plastic waste in the province of British Columbia in Canada. The LCA results suggest that the Zero Plastic Waste scenario, which heavily relies on chemical recycling, may not inherently result in a reduced environmental footprint across all impact categories. This is notable when the focus is solely on end-of-life treatment processes, without considering the produced products and energy. The Intermediate scenario reduces the amount of plastic waste sent to landfills by directing more end-of-life plastic to mechanical recycling facilities. This scenario provides immediate benefits for resource conservation, with a minimal increase in the environmental burden resulting from treatment processes. Nonetheless, achieving a net-zero transition requires combining traditional and emerging recycling technologies. The current study could offer some guidance to policymakers on strategies for fostering more sustainable management of plastic waste. Full article
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18 pages, 1332 KiB  
Article
Assessing the Environmental Impact of Eight Alternative Fuels in International Shipping: A Comparison of Marginal vs. Average Emissions
by Gustav Krantz, Christian Moretti, Miguel Brandão, Mikael Hedenqvist and Fritjof Nilsson
Environments 2023, 10(9), 155; https://doi.org/10.3390/environments10090155 - 6 Sep 2023
Cited by 3 | Viewed by 3609
Abstract
Global warming and other environmental concerns drive the search for alternative fuels in international shipping. A life-cycle analysis (LCA) can be utilized to assess the environmental impact of different fuels, thereby enabling the identification of the most sustainable alternative among the candidate fuels. [...] Read more.
Global warming and other environmental concerns drive the search for alternative fuels in international shipping. A life-cycle analysis (LCA) can be utilized to assess the environmental impact of different fuels, thereby enabling the identification of the most sustainable alternative among the candidate fuels. However, most LCA studies do not consider marginal emissions, which are important when predicting the effects of large-scale fuel transitions. The research purpose of this study was to assess the marginal emissions of several currently available marine fuels to facilitate the identification of the most promising marine fuel. Thus, marginal and average emissions for eight marine fuels (high-sulfur fuel oil, very-low-sulfur fuel oil, marine gas oil, liquified natural gas, biomethane, biomethanol, fossil methanol, and hydro-treated vegetable oil) were compared in terms of their environmental impact. Non-intuitively, the results indicate that biofuels exhibit equally or higher marginal greenhouse gas emissions than conventionally used fuel oils (162–270 versus 148–174 kg CO2/MJ propulsion), despite their significantly lower average emissions (19–73 vs. 169–175 kg CO2/MJ). This discrepancy is attributed to the current limited availability of climate-efficient biofuels. Consequently, a large-scale shift to biofuels cannot presently yield substantial reductions in the shipping industry’s climate impact. Additional measures, such as optimized trading routes, more energy-efficient ships, and research on more climate-friendly biofuels and electro-fuels, are thus required to significantly reduce the climate footprint of shipping. Full article
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