Environmental Life Cycle Assessment of Rapeseed and Rapeseed Oil Produced in Northern Europe: A Latvian Case Study

There is a major international effort to improve the availability of data for life cycle assessment (LCA), as these assessments have become one of the main pillars driving European policy with respect to the sustainable use of resources. However, there is still a lack of data even for Europe. This study presents a cradle-to-farm gate assessment, or LCA, of winter and spring rapeseed produced in the northern European country of Latvia. The LCA model is based on an in-depth and up-to-date agricultural practice used in the region and covers the time span of 2008–2016. An LCA of rapeseed oil produced by cold pressing was carried out. The environmental impact assessment was calculated with the ReCiPe impact assessment method version 1.03, a hierarchical (H) perspective, along with the cumulative energy demand method v1.11. Cultivation of winter rapeseed has a lower environmental impact than cultivation of spring rapeseed due to higher agricultural inputs and higher yield. The greatest impact is on human health. Mineral fertilizers (production and application) and agricultural machinery are responsible for the greatest environmental impact. The results for the mill stage of rapeseed oil demonstrated that the choice of the allocation method has a significant impact on the environmental performance results.

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The source of performance and excretion data affects the environmental impact of pig rearing estimated by life cycle assessment

Canadian Journal of Animal Science ◽

10.1139/cjas-2019-0022 ◽

2020 ◽

Vol 100 (1) ◽

pp. 184-192

Author(s):

A.N.T.R. Monteiro ◽

J.-Y. Dourmad ◽

C.A. Moreira ◽

R.M. Rossi ◽

L.F.M. Ferreira ◽

...

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Weight Gain ◽

Environmental Impact ◽

Energy Demand ◽

Body Weight Gain ◽

Live Weight ◽

Nitrogen Excretion ◽

Cumulative Energy ◽

Nutrient Excretion

The objective of this study was to calculate the environmental impact of raising pigs fed diets with 192, 182, 172, or 162 g kg−1 crude protein (CP) from 15 to 30 kg live weight, using a life cycle assessment (LCA) based on either predicted or observed performance and excretion data. The predicted data were calculated for two animal profiles: one with feed intake and weight gain data being representative of the national Brazilian average (yp-AVG), and the other being representative of the specific experimental farm conditions (yp-SPC). Performance and excretion of pigs were either measured (yobs) or predicted (yp) for each CP scenario by using InraPorc® model and LCA impacts were calculated from these data. The yp and yobs data of performance, nutrient excretion, and LCA were then compared using a Bayesian paired approach. Whatever the calculation methods, the decrease in dietary CP reduced the environmental impacts per kilogram of weight gain on acidification potential (AP), eutrophication potential (EP), and land occupation. Predicted data from yp-SPC did not differ from yobs data except for nitrogen excretion and AP and EP impacts. Predicted data from yp-AVG differed from yobs for all criteria except for body weight gain, phosphorus excreted, and cumulative energy demand, mainly because of the lower feed conversion ratio for average data. It was concluded that the use of predicted data calculated from specific farm indicators could better explain the environmental impact of pig farming in Brazil compared with the use of national average indicators.

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A review on sustainable production of graphene and related life cycle assessment

2D Materials ◽

10.1088/2053-1583/ac3f23 ◽

2021 ◽

Author(s):

Jose Munuera ◽

L. Britnell ◽

C. Santoro ◽

R. Cuéllar-Franca ◽

Cinzia Casiraghi

Keyword(s):

Sustainable Development ◽

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Impact Assessment ◽

Environmental Impact Assessment ◽

Energy Demand ◽

Low Cost ◽

Well Being ◽

Environmental Harm

Abstract Advanced materials such as graphene and the family of 2-dimensional (2D) crystals are very attractive because of the myriad of applications that could be developed based on their outstanding properties. However, as soon as material development reaches enough maturity for production to be scaled up and to enter the market within products, it is crucial to place the technology in the context of possible risks to economic well-being, social equity and environmental harm. This review aims at highlighting the current state of art on sustainable development of graphene-based materials and related environmental impact assessment studies using life cycle assessment. We show that sustainable development has focused mostly on the use of waste or low cost materials as precursors. However, the findings from relevant life cycle assessment studies reveals the limits of this approach, which does not take into account that waste recycling is often very energy intensive. We provide an overview on the life cycle environmental impact assessment, with a focus of global warming potential and energy demand, carried out on different graphene productions methods for specific applications, ranging from composites to electronics. Finally, an outlook is given focussing on the comparison of the different production routes and the results from the life cycle assessment.

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Environmental Performance of Residential Buildings: A Life Cycle Assessment Study in Saudi Arabia

Sustainability ◽

10.3390/su13063542 ◽

2021 ◽

Vol 13 (6) ◽

pp. 3542

Author(s):

Hatem Alhazmi ◽

Abdulilah K. Alduwais ◽

Thamer Tabbakh ◽

Saad Aljamlani ◽

Bandar Alkahlan ◽

...

Keyword(s):

Global Warming ◽

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Energy Demand ◽

Residential Buildings ◽

Saudi Arabian ◽

Impact Categories ◽

Cumulative Energy ◽

Cumulative Energy Demand

The building and construction sector has a huge impact on the environment because of the enormous amounts of natural resources and energy consumed during the life cycle of construction projects. In this study, we evaluated the potential environmental impact of the construction of a villa, from cradle to grave, in the Saudi Arabian context. Centrum voor Milieukunde Leiden (CML) for Centre of Environmental Science of Leiden University-IA baseline v3.03 methods were used to obtain the environmental profile for the impact categories, and Cumulative Energy Demand v1.09 was used to measure the embodied energy of the villa life cycle. The analyzed midpoint impact categories include global warming (GWP100a), ozone layer depletion (ODP), acidification (AP), eutrophication (EP), photochemical oxidation (POCP), and indicator cumulative energy demand (CED). The operation use phase of the villa was found to have the highest global warming potential and acidification with 2.61 × 106 kg CO2-eq and 1.75 × 104 kg SO2-eq, respectively. Sensitivity analysis was performed on the Saudi Arabian plans to increase the share of renewable sources and reduce the amount of electricity generated from hydrocarbons, which currently represents 46% of the total installed power, by 2032. The results showed that compared with the current electricity environmental impact, the CO2 emission from electricity will decrease by 53%, which represents a significant reduction in environmental impact. The findings will help with the life cycle assessment of structures during future planning and for energy conservation.

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Life Cycle Assessment of Renewable Polyol Monomers for Polyurethane Production

10.7250/9789934224782 ◽

2020 ◽

Author(s):

◽

Anda Fridrihsone

Keyword(s):

Sensitivity Analysis ◽

Life Cycle Assessment ◽

Life Cycle ◽

Impact Assessment ◽

Energy Demand ◽

Rapeseed Oil ◽

Polyol Synthesis ◽

Impact Indicator ◽

Rapeseed Production ◽

Allocation Methods

ycle Inventory of winter and spring rapeseed production in Latvia as a case study country in Northern Europe. In-depth and up-to-date agricultural practices used in the region under study data were provided by a large agricultural company located in Zemgale region in Latvia. Chapter III Part II presents an inventory of rapeseed oil mill stage with data provided by operation oil mill in Zemgale region. Different allocation methods are applied to further investigate the effect of different allocation methods on the environmental profiles of rapeseed oil-based bio-polyols and the consequences of applying these methods considering the main aims of the study. Chapter III Part III presents Life Cycle Impact Assessment of winter and spring rapeseed production and rapeseed oil production. Environmental performance is analyzed with Cumulative energy demand impact indicator along with the ReCiPe impact assessment methodology. The main environmental hotspots were identified. Sensitivity analysis was performed. Chapter III Part IV presents results of the Life Cycle Assessment of two rapeseed oil-based bio-polyols. Life Cycle Inventories were built on experimental data for polyol synthesis that were performed in a pilot-scale (50 L reactor). Bio-based polyols were compared with the petrochemical counterpart. The two developed rapeseed oil-based polyols were analyzed with three different modelling approaches for the bio-based feedstock stage. Sensitivity analysis was performed.

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Life Cycle Assessment of Bioplastics and Food Waste Disposal Methods

Sustainability ◽

10.3390/su13126894 ◽

2021 ◽

Vol 13 (12) ◽

pp. 6894

Author(s):

Shakira R. Hobbs ◽

Tyler M. Harris ◽

William J. Barr ◽

Amy E. Landis

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Anaerobic Digestion ◽

Waste Management ◽

Food Waste ◽

Energy Demand ◽

Anaerobic Digester ◽

Management Scenarios ◽

Cumulative Energy ◽

Cumulative Energy Demand

The environmental impacts of five waste management scenarios for polylactic acid (PLA)-based bioplastics and food waste were quantified using life cycle assessment. Laboratory experiments have demonstrated the potential for a pretreatment process to accelerate the degradation of bioplastics and were modeled in two of the five scenarios assessed. The five scenarios analyzed in this study were: (1a) Anaerobic digestion (1b) Anaerobic digestion with pretreatment; (2a) Compost; (2a) Compost with pretreatment; (3) Landfill. Results suggested that food waste and pretreated bioplastics disposed of with an anaerobic digester offers life cycle and environmental net total benefits (environmental advantages/offsets) in several areas: ecotoxicity (−81.38 CTUe), eutrophication (0 kg N eq), cumulative energy demand (−1.79 MJ), global warming potential (0.19 kg CO2), and human health non-carcinogenic (−2.52 CTuh). Normalized results across all impact categories show that anaerobically digesting food waste and bioplastics offer the most offsets for ecotoxicity, eutrophication, cumulative energy demand and non-carcinogenic. Implications from this study can lead to nutrient and energy recovery from an anaerobic digester that can diversify the types of fertilizers and decrease landfill waste while decreasing dependency on non-renewable technologies. Thus, using anaerobic digestion to manage bioplastics and food waste should be further explored as a viable and sustainable solution for waste management.

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Review on Life Cycle Assessment of Solar Photovoltaic Panels

Energies ◽

10.3390/en13010252 ◽

2020 ◽

Vol 13 (1) ◽

pp. 252 ◽

Cited By ~ 14

Author(s):

Vincenzo Muteri ◽

Maurizio Cellura ◽

Domenico Curto ◽

Vincenzo Franzitta ◽

Sonia Longo ◽

...

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impacts ◽

Energy Demand ◽

Geographical Location ◽

Laboratory Research ◽

Cumulative Energy ◽

Cumulative Energy Demand ◽

Environmental Indices ◽

Silicon Based

The photovoltaic (PV) sector has undergone both major expansion and evolution over the last decades, and currently, the technologies already marketed or still in the laboratory/research phase are numerous and very different. Likewise, in order to assess the energy and environmental impacts of these devices, life cycle assessment (LCA) studies related to these systems are always increasing. The objective of this paper is to summarize and update the current literature of LCA applied to different types of grid-connected PV, as well as to critically analyze the results related to energy and environmental impacts generated during the life cycle of PV technologies, from 1st generation (traditional silicon based) up to the third generation (innovative non-silicon based). Most of the results regarded energy indices like energy payback time, cumulative energy demand, and primary energy demand, while environmental indices were variable based on different scopes and impact assessment methods. Moreover, the review work allowed to highlight and compare key parameters (PV type and system, geographical location, efficiency), methodological insights (functional unit, system boundaries, etc.), and energy/environmental hotspots of 39 LCA studies relating to different PV systems, in order to underline the importance of these aspects, and to provide information and a basis of comparison for future analyses.

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Integrating Life Cycle Assessment into the Framework of Environmental Impact Assessment for Urban Systems: Framework and Case Study of Masdar City, Abu Dhabi

Environments ◽

10.3390/environments6090105 ◽

2019 ◽

Vol 6 (9) ◽

pp. 105

Author(s):

Kavya Madhu ◽

Stefan Pauliuk

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Impact Assessment ◽

Environmental Impact Assessment ◽

Urban Expansion ◽

Desert Ecosystem ◽

Abu Dhabi ◽

Urban Systems ◽

Analysis Tool

Planning urban expansion under the interconnected Sustainable Development Goals requires a systemic analysis of its environmental impacts. The benefits of integrating the widely used system analysis tool life cycle assessment (LCA) into the planning process tool environmental impact assessment (EIA) are described in the literature. However, not many applications of such an integration have been conducted. The aim of this study is to refine the framework for integrating LCA into the process of EIA and to apply this framework to an example of urban expansion: Masdar City in Abu Dhabi. The integrated framework builds on the complementarity between the scope and assessment steps of the tools and assesses the impacts for the areas of protection: human health, ecosystem, and resources. The framework is then applied to the vehicles, buildings, and infrastructure in the city’s first development phase (DP1). Major environmental stressors include the loss of existing desert ecosystem and the utilization of non-renewable sources of energy at various development stages of DP1. Substituting natural gas-based electricity with solar power could potentially save 46% of current carbon emissions. To mitigate the land transformation impacts, construction of “close-to-nature” artificial habitats, and increased use of low-carbon fuels is suggested.

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Life Cycle Assessment of Reusable Plastic Crates (RPCs)

Resources ◽

10.3390/resources8020110 ◽

2019 ◽

Vol 8 (2) ◽

pp. 110 ◽

Cited By ~ 10

Author(s):

Camilla Tua ◽

Laura Biganzoli ◽

Mario Grosso ◽

Lucia Rigamonti

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Sustainability ◽

Energy Demand ◽

Hot Water ◽

Cumulative Energy ◽

Cumulative Energy Demand ◽

Environmental Effectiveness ◽

Single Use ◽

Italian Context

The European packaging market is forecast to grow 1.9% annually in the next years, with an increasing use of returnable packages. In this context, it is important to assess the real environmental effectiveness of the packaging re-use practice in terms of environmental impacts. This life cycle assessment aims to evaluate the environmental performances of reusable plastic crates (RPCs), which are used for the distribution of 36% of fruit and vegetables in Italy. RPCs can be re-used several times after a reconditioning process, i.e., inspection, washing, and sanitization with hot water and chemicals. The analysis was performed considering 12 impact categories, as well as the cumulative energy demand indicator and a tailor-made water consumption indicator. The results show that when the RPCs are used for less than 20 deliveries, the impacts of the life cycle are dominated by the manufacturing stage. By increasing the number of deliveries, the contribution of the reconditioning process increases, reaching 30–70% of the overall impacts for 125 uses. A minimum of three deliveries of the RPCs is required in order to perform better than an alternative system where crates of the same capacity (but 60% lighter) are single-use. The same modeling approach can be used to evaluate the environmental sustainability of other types of returnable packages, in order to have a complete overview for the Italian context and other European countries.

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