Life Cycle Assessment of Green Production of Glass Substrate

2020 ◽  
Vol 993 ◽  
pp. 1417-1425
Author(s):  
Yu Long Wang ◽  
Xian Zheng Gong ◽  
Bo Xue Sun
Keyword(s):  
Global Warming ◽  
Environmental Impact ◽  
Global Warming Potential ◽  
Glass Melting ◽  
Impact Category ◽  
Assessment Model ◽  
Photochemical Oxidation ◽  
Environmental Burden ◽  
Post Process ◽  
Acidification Potential

In this study, the LCA assessment model of CML was employed to analyze the environmental burden caused by the production of glass substrates, and the evaluation of the environmental performance of five stages of preparation of ingredients, including glass melting, precision clarification, overflow molding and post process, was also conducted. The results show that the global warming potential is the dominant impact category in the comprehensive environmental burden with a normalized value of 4.64×10-14, followed by the acidification potential (2.57×10-14), photochemical oxidation potential (2.82×10-15). And the relative contribution of abiotic depletion potential and human toxicity to the comprehensive environmental burden is rather limited, with the normalized values of 8.31×10-17 and 1.21×10-16, respectively. The single score of environmental impact due to the whole production system is 2.37×10-13, wherein the environmental impact values of the processes of preparation of ingredients, glass melting, precision clarification, overflow molding, and post are 1.07×10-15, 9.10×10-14 (highest), 2.26×10-14, 7.36×10-14, and process 4.90×10-14, respectively. The preparation of the batch, the glass melting, the overflow molding and the post process mainly cause the environmental effects of global warming potential and acidification potential, the cumulative values of which are 1.13×10-13 and 9.01×10-14, respectively. The precision clarification stage mainly causes the environmental effect of acidification potential, the value of which is 2.02×10-14 and much higher than those of other environmental impact categories.

scholarly journals Life Cycle Assessment Applications To The Dry Steam Geothermal Power Generation (Case Study: Star Energy Geothermal Wayang Windu, Ltd, Indonesia)

2019 ◽  
Author(s):  
Rina Annisa ◽  
Benno Rahardyan
Keyword(s):  
Global Warming ◽  
Life Cycle Assessment ◽  
Life Cycle ◽  
Power Plant ◽  
Environmental Impact ◽  
Global Warming Potential ◽  
Geothermal Power Plant ◽  
Continual Improvement ◽  
Acidification Potential ◽  
Geothermal Power

Geothermal potential in Indonesia estimate can produced renewable energy 29 GW, and until 2016 it still used 5% or about 1643 MW in. From that result, about 227 MW produced by Wayang Windu geothermal power plant. The Input were raw material, energy and water. These input produced electricity as main product, by product, and also other output that related to environment i.e. emission, solid waste and waste water. All environmental impacts should be controlled to comply with environmental standard, and even go beyond compliance and perform continual improvement.  This research will use Life Cycle Assessment method based on ISO 14040 and use cradle to gate concept with boundary from liquid steam production until electricity produced, and Megawatt Hours as the functional unit. Life Cycle Inventory has been done with direct input and output in the boundary and resulted that subsystem of Non Condensable Gas and condensate production have the largest environmental impact. LCI also show that every MWh electricity produced, it needed 6.87 Ton dry steam or 8.16 Ton liquid steam. Global Warming Potential (GWP) value is 0.155 Ton CO2eq./MWh, Acidification Potential (AP) 1.69 kg SO2eq./MWh, Eutrophication Potential (EP) 5.36 gPO4 eq./MWh and land use impacts 0.000024 PDF/m2. Life Cycle Impact Assessment resulted that AP contribute 78% of environmental impact and 98% resulted from H2S Non Condensable Gas. Comparison results with another dry steam geothermal power plant show that impact potential result of the company in good position and there’s a strong relation between gross production, GWP and AP value.Keywords: Life cycle assessment; Geothermal; Continual Improvement; Global Warming Potential; Acidification Potential

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

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

scholarly journals Environmental Impact Assessment of Food Waste Management Using Two Composting Techniques

2020 ◽  
Vol 12 (4) ◽  
pp. 1595 ◽  
Author(s):  
Aisha Al-Rumaihi ◽  
Gordon McKay ◽  
Hamish R. Mackey ◽  
Tareq Al-Ansari
Keyword(s):  
Global Warming ◽  
Anaerobic Digestion ◽  
Environmental Impact ◽  
Food Waste ◽  
Fossil Fuels ◽  
Impact Category ◽  
Windrow Composting ◽  
The Impact ◽  
Total Impact

Food waste is a significant contributor to greenhouse gas emissions (GHG) and therefore global warming. As such, the management of food waste can play a fundamental role in the reduction of preventable emissions associated with food waste. In this study, life cycle assessment (LCA) has been used to evaluate and compare the environmental impact associated with two composting techniques for treating food waste using SimaPro software; windrow composting and the hybrid anaerobic digestion (AD) method. The study, based on a 1 tonne of food waste as a functional unit for a case study in the State of Qatar, concludes that anaerobic digestion combined composting presents a smaller environmental burden than windrow composting. The majority of the emissions generated are due to the use of fossil fuels during transportation, which correspond to approximately 60% of the total impact, followed by the impact of composting with 40% of the impact especially in terms of global warming potential. Environmental assessment impacts were the highest in windrow composting for the acidification impact category (9.39 × 10 − 1 kg SO2 eq). While for AD combined composting the impact was highest for the human toxicity impact category (3.47 × 10 kg 1,4 − DB eq).

scholarly journals Disposable Medical Masks: Environmental Costs

2021 ◽  
Author(s):  
BURÇİN ATILGAN TÜRKMEN
Keyword(s):  
New York ◽  
Global Warming ◽  
Life Cycle Assessment ◽  
Life Cycle ◽  
Environmental Impact ◽  
Environmental Impacts ◽  
Global Warming Potential ◽  
Functional Unit ◽  
Environmental Costs ◽  
Inventory Data

Abstract A massive increase in the use and production of masks worldwide has been seen in the current COVID-19 pandemic, which has contributed to reducing the transmission of the virus globally. This paper aims to evaluate the environmental impacts of disposable medical masks using the Life Cycle Assessment (LCA) method, first for the selected functional unit related to the manufacturing of one disposable medical mask and then for the global manufacturing of this type of mask in 2020. The inventory data was constructed directly from the industry. The system boundaries include the fabric, nose wire, and ear loops parts, transportation of materials, body making, ultrasonic vending, and packaging steps. The results suggest that the global warming potential of a disposable medical mask is 0.02 g CO2-Eq. for which the main contributor is the packaging step (44%) followed by the life cycle of fabric (27%), and nose wire (14%) parts. In total, 52 billion disposable medical masks used worldwide consumes 25 TJ of energy in 2020. The global warming potential of disposable medical masks supplied in a year of the COVID-19 pandemic is 1.1 Mt CO2 eq., equivalent to around 1.3 billion return flights from Istanbul to New York. This paper assessed the hotspots in the medical mask, allowing for a significant reduction in the environmental impact of mask use. This can be used as a roadmap for future mask designs.

Life Cycle Assessment of Cathode Copper Production

2017 ◽  
Vol 898 ◽  
pp. 2422-2431
Author(s):  
Hao Li ◽  
Xian Zheng Gong ◽  
Zhi Hong Wang ◽  
Yao Li
Keyword(s):  
Life Cycle Assessment ◽  
Life Cycle ◽  
Environmental Impact ◽  
Impact Category ◽  
Clean Energy ◽  
Copper Production ◽  
Life Cycle Approach ◽  
Pyrometallurgical Process ◽  
Environmental Burden ◽  
Cathode Copper

The environmental impact of Chinese cathode copper production was identified and quantified in the context of pyrometallurgy ical and hydrometallurgical method by life cycle approach. Combined with the situation of copper resources in China, the copper ores mining, mineral processing, transportation and smelting sector, were analyzed in detail. The normalization results shows that abiotic depletion is the largest environmental impact in both Pyro-and hydro-metallurgical methods, which were 28.4 kg Sb eq and 32.0 kg Sb eq, respectively. Electrolytic refining is the key process in hydrometallurgical life cycle environmental burden (50.21%), and the mining process contributed the largest environmental impact (17.94%) in pyrometallurgical process. In addition, the total environmental burden of pyrometallurgical process is 1.15 times of hydrometallurgical process. Pyrometallurgical methods has many environmental impact category which were much higher than hydrometallurgical because of the more use of fossil fuels in smelting process. Based on the life cycle assessment results, the key factors to reduce the overall environmental impact for China’s cathode copper production include optimizing the efficiency of copper resource, and clean energy sources for electricity production.

Life Cycle Assessment of Particulate Recycled Low Density Polyethylene and Recycled Polypropylene Reinforced with Talc and Fiberglass

2011 ◽  
Vol 471-472 ◽  
pp. 999-1004 ◽  
Author(s):  
Mariam Al-Ma'adeed ◽  
Gozde Ozerkan ◽  
Ramazan Kahraman ◽  
Saravanan Rajendran ◽  
Alma Hodzic
Keyword(s):  
Global Warming ◽  
Life Cycle Assessment ◽  
Life Cycle ◽  
Composite Materials ◽  
Environmental Impact ◽  
Impact Assessment ◽  
Human Toxicity ◽  
Acidification Potential ◽  
The Impact ◽  
Abiotic Depletion

Although recycled polymers and reinforced polymer composites have been in use for many years there is little information available on their environmental impacts. The goal of the present study is to analyze the environmental impact of new composite materials obtained from the combination of recycled thermoplastics (polypropylene [PP] and polyethylene [PE]) with mineral fillers like talc and with glass fiber. The environmental impact of these composite materials is compared to the impact of virgin PP and PE. The recycled and virgin materials were compared using life cycle assessment method according to their environmental effects. Within the scope of the study, GaBi software was used for Life Cycle Assessment (LCA) analysis. From cradle-to-grave life cycle inventory studies were performed for 1 kg of each of the thermoplastics. Landfilling was considered as reference scenario and compared with filled recycled plastics. A quantitative impact assessment was performed for four environmental impact categories, global warming (GWP) over a hundred years, human toxicity (HTP), abiotic depletion (ADP) and acidification potential (AP) were taken into consideration during LCA. In the comparison of recycled and virgin polymers, it was seen that recycling has lower environmental effect for different impact assessment methods like acidification potential, abiotic depletion, human toxicity and global warming.

scholarly journals Concept for assessing productrelated pesticide footprint

2010 ◽  
Vol 63 ◽  
pp. 39-46 ◽  
Author(s):  
K. M?ller ◽  
M. Deurer ◽  
G. Northcott ◽  
B.E. Clothier
Keyword(s):  
Global Warming ◽  
Environmental Impact ◽  
Impact Assessment ◽  
Global Warming Potential ◽  
Public Concern ◽  
Specific Product ◽  
Carbon Footprints ◽  
Final Disposal ◽  
The Impact ◽  
Impact Of Pesticides

Increased environmental awareness has motivated retailers to label products with carbon footprints This allows consumers to choose products according to their global warming potential Public concern is also targeting pesticides Heightened customer sensitivity to residues has already led to a ban on using certain pesticides by European retailers A tool is needed for assessing the environmental impact of pesticides used for producing a specific product This paper introduces the concept of the pesticide footprint (PFP) which fills this gap by estimating the total loss of pesticides and their respective impact on humans and ecosystems per product unit in a lifecycle framework The impact assessment considers how these losses affect humans through the consumption of the product containing residues and ecosystems through the exposure to residues in the environment The PFP includes the production of the pesticide its application in the orchard and the final disposal of waste

scholarly journals LIFE CYCLE ASSESSMENT OF POINT-OF-LAY BIRDS TO FROZEN CHICKEN PRODUCTION IN A TROPICAL ENVIRONMENT

2017 ◽  
Vol 23 (1) ◽  
pp. 27-35
Author(s):  
TEMITAYO A. EWEMOJE ◽  
OLUFEMI P. ABIMBOLA ◽  
OLAYINKA A. OMOTOSHO
Keyword(s):  
Global Warming ◽  
Life Cycle Assessment ◽  
Global Warming Potential ◽  
Energy Use ◽  
The Other ◽  
Freezing Process ◽  
Animal Management ◽  
Eutrophication Potential ◽  
Acidification Potential ◽  
Diesel Generators

The study examined four scenarios for reduction of environmental impacts with use of 100 % purchased electricity in all processing activities as first scenario while second scenario was the use of 100 % electricity from diesel generators. Third and fourth scenarios were to use 50 % each of both purchased electricity and diesel-generated electricity in all activities. Most of the Energy Use (EU) came during the freezing process. Global Warming Potential (GWP) value for Scenario 2 is predominantly higher than the values for other three scenarios. The results show that the major source for global warming potential for Scenario 2 is the freezing process, whereas for the other three scenarios the animal management represents the main contributor. Similar to GWP, the Acidification Potential and Eutrophication Potential values for Scenario 2 were higher, although very small and this may be attributed to diesel generators emitting slightly higher amounts of NOx and SOx.

LOW GLOBAL WARMING REFRIGERANTS FOR RESIDENTIAL AIR CONDITIONING APPLICATIONS

2014 ◽  
Vol 22 (02) ◽  
pp. 1440005 ◽  
Author(s):  
MARK SPATZ ◽  
SAMUEL YANA MOTTA ◽  
CHRISTOPHER SEETON ◽  
YONGMING NIU
Keyword(s):  
Global Warming ◽  
Thermal Properties ◽  
Environmental Impact ◽  
Thermal Performance ◽  
Global Warming Potential ◽  
Air Conditioning ◽  
Flammability Characteristics ◽  
R 134A ◽  
Residential Air Conditioning ◽  
Air Conditioning Systems

Due to the growing global concerns around the use of refrigerants with relatively high global warming potential, new refrigerants with the positive attributes of both high thermal performance and low environmental impact are currently in development by Honeywell. These new refrigerants exhibit promising performance when compared with refrigerants currently used in stationary AC systems such as those that use R-410A, R-407C, and R-134a, for example. These new refrigerants also show significantly lower flammability characteristics than the much more flammable hydrocarbons. Replacements of common HFC refrigerants such as R-410A and R-407C are discussed for residential air conditioning applications. Thermal properties as well as experimental results in representative air conditioning systems are presented, showing the benefits of using these new refrigerants.

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