Life Cycle Assessment of the NdFeB Recycling Process Route for Oil Sludge Waste Treatment

In this paper, based on the life cycle concept of oil sludge waste from the NdFeB manufacturing process, we investigate the process technology route to recover valuable elements from the oil sludge waste by hydro-metallurgical refining and calcium reduction to fabricate a sintered NdFeB magnet. The life cycle list was calculated and the environmental impact of the main processes was examined using the ReCiPe method, and the main factors of environmental impact were identified. The results showed that the hydrometallurgical technology route, compared with the calcium reduction technology route, resulted in 119.84% of human health hazards, 119.84% of ecological damage and 119.84% of resource. The consumption was found to be 13.08% higher than that of FDP. The sensitivity analysis revealed that the production of hydrochloric acid is highly sensitive to FDP, and power consumption is high to WTP in the hydrometallurgical technology route, and WTP in the calcium reduction unit process, and HTP in all processes in the calcium reduction technology route. The overall results show that reducing the environmental impact in the calcium reduction recovery process and accelerating the clean production of China's power resources are of great significance for the recovery of oil sludge waste for the preparation of recycled sintered NdFeB.

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Reuse of Barley Straw for Handmade Paper Production

10.20944/preprints202103.0307.v1 ◽

2021 ◽

Author(s):

Alma Delia Delia Román Gutiérrez ◽

Juan Hernandez Avila ◽

Antonia Karina Vargas M. ◽

Eduardo Cerecedo Saenz ◽

Eleazar Salinas-Rodríguez

Keyword(s):

Life Cycle ◽

Environmental Impact ◽

Environmental Impacts ◽

Waste Treatment ◽

Raw Material ◽

Barley Straw ◽

Handmade Paper ◽

Organic Solid Waste ◽

Organic Solid ◽

Spent Grain

Usually in the manufacture of beer by fermentation of barley, in both industrialized and developing countries significant amounts of organic solid waste are produced from barley straw. These possibly have an impact on the carbon footprint with an effect on global warming. According to this, it is important to reduce environmental impact of these solid residues, and an adequate way is the recycling using them as raw material for the elaboration of handmade paper. Therefore, it is required to manage this type of waste by analyzing the environmental impact, and thus be able to identify sustainable practices for the treatment of this food waste, evaluating its life cycle, which is a useful methodology to estimate said environmental impacts. It is because of this work shows the main results obtained using the life cycle analysis (LCA) methodology, to evaluate the possible environmental impacts during the waste treatment of a brewery located in the state of Hidalgo, Mexico. The residues evaluated were barley straw, malt residues and spent grain, and at the end, barley straw was selected to determine in detail its environmental impact and its reuse, the sheets analyzed presented a grammage that varies from 66 g/m2 and 143 g/m2, resistance to burst was 117 to 145 kpa, with a crystallinity of 34.4% to 37.1%.

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Life Cycle Assessment (LCA) Pengelolaan Sampah di TPA Gunung Panggung Kabupaten Tuban, Jawa Timur

Jurnal Teknologi Lingkungan ◽

10.29122/jtl.v22i2.4690 ◽

2021 ◽

Vol 22 (2) ◽

pp. 147-161

Author(s):

Rahmah Arfiyah Ula ◽

Agus Prasetya ◽

Iman Haryanto

Keyword(s):

Global Warming ◽

Life Cycle Assessment ◽

Life Cycle ◽

Anaerobic Digestion ◽

Environmental Impact ◽

Waste Management ◽

Global Warming Potential ◽

Waste Treatment ◽

Acidification Potential ◽

Alternative Scenarios

ABSTRACT The primary municipal waste treatment in Tuban Regency, East Java, was landfilling, besides the small amount of the waste was turned to compost. Landfilling causes global warming, which leads to climate change due to CH4 emission. This environmental impact could be worst by the population growth that increases the amount of waste. This study aimed to evaluate the environmental impact on waste management in the Gunung Panggung landfill in Tuban Regency and its alternative scenarios using Life Cycle Assessment (LCA). Four scenarios were used in this study. They are one existing scenario and three alternative scenarios comprising landfilling, composting, and anaerobic digestion. The scope of this study includes waste transportation to waste treatment which is landfilling, composting, and anaerobic digestion (AD). The functional unit of this analysis is per ton per year of treated waste. Environmental impacts selected are global warming potential, acidification potential, and eutrophication potential. The existing waste management in Gunung Panggung landfill showed the higher global warming potential because of the emission of CO2 and cost for human health, which is 6.379.506,17 CO2 eq/year and 5,92 DALY, respectively. Scenario 3 (landfilling, composting, and AD; waste sortation 70%) showed a lower environmental impact than others, but improvements were still needed. Covering compost pile or controlling compost turning frequency was proposed for scenario 3 amendment. Keywords: environmental impact, landfill, life cycle assessment, waste management ABSTRAK Landfill merupakan pengelolaan sampah utama di tempat pemrosesan akhir (TPA) Gunung Panggung Kabupaten Tuban. Selain landfill, pengomposan diterapkan untuk mengolah sebagian kecil sampahnya. Landfill menghasilkan gas metana yang menyebabkan pemanasan global dan memicu perubahan iklim. Pertambahan penduduk memperbanyak sampah yang perlu diolah di TPA dan dapat memperparah dampak lingkungan yang ditimbulkan. Tujuan penelitian ini adalah menilai dampak lingkungan dari pengelolaan sampah eksisting di TPA Gunung Panggung Kabupaten Tuban Jawa Timur beserta skenario alternatifnya menggunakan Life Cycle Assessment (LCA). Terdapat satu skenario eksisting dan tiga skenario alternatif pengelolaan sampah yaitu landfilling, pengomposan, dan fermentasi anaerob (anaerobic digestion). Ruang lingkup studi meliputi pengangkutan sampah, pengelolaan sampah dengan cara pengomposan, Anaerobic Digestion (AD), dan landfill. Satuan fungsional yang digunakan yakni ton sampah yang diolah per tahun. Dampak lingkungan yang dipelajari di antaranya: pemanasan global, asidifikasi, dan eutrofikasi. Dampak lingkungan skenario eksisting menunjukkan nilai tertinggi terutama pada pemanasan global (6.379.506,17 CO2eq/tahun) dan kerugian pada kesehatan manusia (5,92 DALY). Skenario alternatif 3, yang meliputi pengelolaan secara landfill, pengomposan, dan AD menunjukkan dampak lingkungan yang kecil, namun memerlukan perbaikan. Perbaikan untuk skenario 3 yaitu dengan menambahkan penutup pada tumpukan kompos atau mengontrol frekuensi pembalikan kompos untuk mengurangi emisi NH3. Kata kunci: dampak lingkungan, life cycle assessment, pengelolaan sampah, tempat pemrosesan akhir

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Life cycle assessment of multi-step rufinamide synthesis – from isolated reactions in batch to continuous microreactor networks

Green Chemistry ◽

10.1039/c5gc01932j ◽

2016 ◽

Vol 18 (4) ◽

pp. 1096-1116 ◽

Cited By ~ 42

Author(s):

Denise Ott ◽

Svetlana Borukhova ◽

Volker Hessel

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Antiepileptic Drug ◽

Continuous Process ◽

Process Route

Rufinamide is an antiepileptic drug to treat Lennox–Gastaut syndrome, in combination with other medications. Herein, several batch and continuous process routes to rufinamide are analysed and optimised regarding their environmental impact, to finally predict a fully continuous, telescoped process route.

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LIFE CYCLE ASSESSMENT ANALYZING WITH GABI SOFTWARE FOR FOOD WASTE MANAGEMENT USING WINDROW AND HYBRID COMPOSTING TECHNOLOGIES

Jurnal Teknologi ◽

10.11113/jurnalteknologi.v83.17199 ◽

2021 ◽

Vol 83 (6) ◽

pp. 95-108

Author(s):

Rozieana Abu ◽

Muhammad Arif Ab Aziz ◽

Che Hafizan Che Hassan ◽

Zainura Zainon Noor ◽

Rohaya Abd Jalil

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Food Waste ◽

Waste Treatment ◽

Landfill Gas ◽

Substantial Reduction ◽

Environmentally Friendly ◽

Resource Depletion ◽

Gas Filtration

The use of composting technologies to treat food waste (FW) now represents an environmentally friendly form of waste treatment, in which organic matter can decompose biologically. However, the damaging emissions of composting technologies for FW treatment vary, thus a life cycle assessment (LCA) approach is often used to certify the quality of the decision-making process. This study quantifies and compares the environmental impact of two scenarios in Malaysia: windrow and hybrid composting (windrow integrated with a landfill) technologies. The scenario modeling was performed via GaBi v6.0 software using 1 ton of pre-treated FW as a functional unit, with the analysis based on the ReCiPe (H) v1.07 characterization method. The midpoint results revealed that windrow composting technology has a lower environmental impact and is an environmentally friendly option compared to hybrid technology. Treating FW in a windrow scenario has relatively low power requirements for operation with the added advantageous properties of compost production, and a substantial reduction in the distances transferred by the road. The hybrid scenario had the largest negative environmental impact in all categories, such as climate change (1.45E+03 kg CO2 eq), and ozone depletion (4.39E-09kg CFC-11 eq) because of the energy-intensive waste collection and treatment activities it needs, and with no landfill gas filtration. Finally, based on the single score synthesis, windrow is considered as an appropriate treatment with the avoidance of Resource Depletion (6.61E+02 Pt).

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Environmental Impacts of the Beef Production Chain in the Northeast of Portugal Using Life Cycle Assessment

Agriculture ◽

10.3390/agriculture8100165 ◽

2018 ◽

Vol 8 (10) ◽

pp. 165 ◽

Cited By ~ 3

Author(s):

Pedro Henrique Presumido ◽

Fernando Sousa ◽

Artur Gonçalves ◽

Tatiane Cristina Dal Bosco ◽

Manuel Feliciano

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Waste Treatment ◽

Organic System ◽

Production Chain ◽

Iso 14040 ◽

Use Of Resources ◽

Solid Waste Treatment ◽

Negative Impacts

The beef supply chain has multiple negative impacts on the environment. A method widely used to measure impacts from both the use of resources and the emissions generated by this sector is the life cycle assessment (LCA) (ISO 14040). This study aimed to evaluate a semi-intensive system (SIS) and an extensive organic system (EOS), combined with two different slaughterhouses located in the northeast of Portugal. The studied slaughterhouses are similar in size but differ in number of slaughters and in sources of thermal energy: natural gas (Mng) vs. biomass pellets (Mp). Four categories of environmental impact were evaluated: global warming potential (GWP), acidification potential (AP), eutrophication potential (EP), and photochemical ozone creation potential (POCP). As expected, higher impacts were found for SIS for all studied impact categories. Slaughterhouse activities, fertilizer production, and solid waste treatment stages showed little contribution when compared to animal production. Concerning the slaughterhouses activities, the main sources of environmental impact were the use of energy (electric and thermal) and by-products transportation.

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Excellent environmental performance of beet sugar production in the Netherlands

Sugar Industry ◽

10.36961/si24156 ◽

2020 ◽

pp. 161-165

Author(s):

Bertram de Crom ◽

Jasper Scholten ◽

Janjoris van Diepen

Keyword(s):

Climate Change ◽

Land Use ◽

Life Cycle ◽

Environmental Impact ◽

Water Consumption ◽

Environmental Performance ◽

Cane Sugar ◽

Sugar Production ◽

Beet Sugar ◽

Glucose Syrup

To get more insight in the environmental performance of the Suiker Unie beet sugar, Blonk Consultants performed a comparative Life Cycle Assessment (LCA) study on beet sugar, cane sugar and glucose syrup. The system boundaries of the sugar life cycle are set from cradle to regional storage at the Dutch market. For this study 8 different scenarios were evaluated. The first scenario is the actual sugar production at Suiker Unie. Scenario 2 until 7 are different cane sugar scenarios (different countries of origin, surplus electricity production and pre-harvest burning of leaves are considered). Scenario 8 concerns the glucose syrup scenario. An important factor in the environmental impact of 1kg of sugar is the sugar yield per ha. Total sugar yield per ha differs from 9t/ha sugar for sugarcane to 15t/ha sugar for sugar beet (in 2017). Main conclusion is that the production of beet sugar at Suiker Unie has in general a lower impact on climate change, fine particulate matter, land use and water consumption, compared to cane sugar production (in Brazil and India) and glucose syrup. The impact of cane sugar production on climate change and water consumption is highly dependent on the country of origin, especially when land use change is taken into account. The environmental impact of sugar production is highly dependent on the co-production of bioenergy, both for beet and cane sugar.

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Packaging environmental impact on seafood supply chains: A review of life cycle assessment studies

Journal of Industrial Ecology ◽

10.1111/jiec.13189 ◽

2021 ◽

Author(s):

Cheila Almeida ◽

Philippe Loubet ◽

Tamíris Pacheco da Costa ◽

Paula Quinteiro ◽

Jara Laso ◽

...

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Supply Chains

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Life Cycle Assessment (LCA) of an Innovative Compact Hybrid Electrical-Thermal Storage System for Residential Buildings in Mediterranean Climate

Sustainability ◽

10.3390/su13095322 ◽

2021 ◽

Vol 13 (9) ◽

pp. 5322

Author(s):

Gabriel Zsembinszki ◽

Noelia Llantoy ◽

Valeria Palomba ◽

Andrea Frazzica ◽

Mattia Dallapiccola ◽

...

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Mediterranean Climate ◽

Residential Buildings ◽

Renewable Energy Sources ◽

Storage System ◽

Hot Water ◽

Electrical Consumption ◽

The Impact

The buildings sector is one of the least sustainable activities in the world, accounting for around 40% of the total global energy demand. With the aim to reduce the environmental impact of this sector, the use of renewable energy sources coupled with energy storage systems in buildings has been investigated in recent years. Innovative solutions for cooling, heating, and domestic hot water in buildings can contribute to the buildings’ decarbonization by achieving a reduction of building electrical consumption needed to keep comfortable conditions. However, the environmental impact of a new system is not only related to its electrical consumption from the grid, but also to the environmental load produced in the manufacturing and disposal stages of system components. This study investigates the environmental impact of an innovative system proposed for residential buildings in Mediterranean climate through a life cycle assessment. The results show that, due to the complexity of the system, the manufacturing and disposal stages have a high environmental impact, which is not compensated by the reduction of the impact during the operational stage. A parametric study was also performed to investigate the effect of the design of the storage system on the overall system impact.

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Life cycle assessment of peach transportation considering trade-off between food loss and environmental impact

The International Journal of Life Cycle Assessment ◽

10.1007/s11367-020-01832-7 ◽

2021 ◽

Author(s):

Yuma Sasaki ◽

Takahiro Orikasa ◽

Nobutaka Nakamura ◽

Kiyotada Hayashi ◽

Yoshihito Yasaka ◽

...

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Trade Off ◽

Food Loss

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Life Cycle Assessment of the Use of Phase Change Material in an Evacuated Solar Tube Collector

Energies ◽

10.3390/en14144146 ◽

2021 ◽

Vol 14 (14) ◽

pp. 4146

Author(s):

Agnieszka Jachura ◽

Robert Sekret

Keyword(s):

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impact ◽

Phase Change ◽

Phase Change Material ◽

Solar Collector ◽

Hot Water ◽

Production Operation ◽

Management Scenarios ◽

Change Material

This paper presents an environmental impact assessment of the entire cycle of existence of the tube-vacuum solar collector prototype. The innovativeness of the solution involved using a phase change material as a heat-storing material, which was placed inside the collector’s tubes-vacuum. The PCM used in this study was paraffin. The system boundaries contained three phases: production, operation (use phase), and disposal. An ecological life cycle assessment was carried out using the SimaPro software. To compare the environmental impact of heat storage, the amount of heat generated for 15 years, starting from the beginning of a solar installation for preparing domestic hot water for a single-family residential building, was considered the functional unit. Assuming comparable production methods for individual elements of the ETC and waste management scenarios, the reduction in harmful effects on the environment by introducing a PCM that stores heat inside the ETC ranges from 17 to 24%. The performed analyses have also shown that the method itself of manufacturing the materials used for the construction of the solar collector and the choice of the scenario of the disposal of waste during decommissioning the solar collector all play an important role in its environmental assessment. With an increase in the application of the advanced technologies of materials manufacturing and an increase in the amount of waste subjected to recycling, the degree of the solar collector’s environmental impact decreased by 82% compared to its standard manufacture and disposal.

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