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Journal articles on the topic 'Life Cycle Inventory'

Author: Grafiati
Published: 4 June 2021
Last updated: 8 June 2024

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1

Singhofen, Axel, Christine R. Hemming, Bo P. Weidema, Laurent Grisel, Rolf Bretz, Bea De Smet, and David Russell. "Life cycle inventory data." International Journal of Life Cycle Assessment 1, no. 3 (September 1996): 171–78. http://dx.doi.org/10.1007/bf02978948.

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2

Jungbluth, Niels, Markus Kollar, and Volker Koβ. "Life cycle inventory for cooking." Energy Policy 25, no. 5 (April 1997): 471–80. http://dx.doi.org/10.1016/s0301-4215(97)00022-0.

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3

Müller, Bodo, and Liselotte Schebek. "Input-Output-based Life Cycle Inventory." Journal of Industrial Ecology 17, no. 4 (April 26, 2013): 504–16. http://dx.doi.org/10.1111/jiec.12018.

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4

Frischknecht, Rolf. "Life cycle inventory methodology and databases." International Journal of Life Cycle Assessment 15, no. 1 (November 24, 2009): 1–3. http://dx.doi.org/10.1007/s11367-009-0133-1.

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5

류, 영기, F. R. McDougall, C.-G. C. Peng, T. Arakaki, and 중우 안. "Integrated waste Management Life Cycle Inventory." Korean Journal of Life Cycle Assessment 2, no. 2 (December 2000): 41–47. http://dx.doi.org/10.62765/kjlca.2000.2.2.41.

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특정한 통합 폐기물 관리 방안들과 관련된 총체적 환경 부담을 알아내기 위하여 이러한 방안에 대하여 전과정 목록(Life Cycle Inventory, LCI)을 적용할 수 있다. 폐기물 관리에 대한 전과정 목록에서는 원료 물질의 사용, 에너지 및 물 사용. 대기, 수계 및 토양으로의 배출에 대한 자세한 데이터를 수집한다. 이 데이터에 기초하여 서로 다른 몇 가지 폐기물 관리 방안들을 비교할 수 있으며, 정보에 기초한 의사결정을 내릴 수 있다. 이와 같은 접근법은 특정 지역에서의 전체 고형 폐기 물 관리에 있어서 최선의 실행 가능한 방안이 무엇인지를 결정할 수 있게 해준다. 전과정 목록은 의사 결정을 내리는데 필요 한 것들을 제공해 주는 기법일 뿐 의사 결정 자체를 내리는 기법은 아니다. 전과정 목록에서 얻은 정보는 기획 담당자 폐기물 관리자로 하여금 미래의 좀 더 지속가능한 폐기물 관리 시스템을 설계할 수 있도록 도와준다.
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6

Katsura, Toru, Hiroaki Niwata, Katsuhito Nakazawa, Keiichi Katayama, Hiroyasu Sakamura, and Itaru Yasui. "A Life Cycle Assesment of Woodfree Printing Paper Life Cycle Inventory." JAPAN TAPPI JOURNAL 54, no. 8 (2000): 1108–15. http://dx.doi.org/10.2524/jtappij.54.1108.

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7

ICHINOHE, Masayuki, Shiroh AIHARA, Norio TAKEYAMA, Sachiko MOTOIKE, Mitsuo SATO, Tetsuya TAKAHASHI, Kiyoshi SAITO, Koichi ICHIMURA, and Yu KUWAHARA. "Life Cycle Inventory Analysis of the Refrigerator." Journal of Life Cycle Assessment, Japan 9, no. 3 (2013): 242–51. http://dx.doi.org/10.3370/lca.9.242.

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8

von Bahr, B., and B. Steen. "Reducing epistemological uncertainty in life cycle inventory." Journal of Cleaner Production 12, no. 4 (May 2004): 369–88. http://dx.doi.org/10.1016/s0959-6526(02)00197-x.

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9

Rivela, Beatriz, Ma Teresa Moreira, and Gumersindo Feijoo. "Life cycle inventory of medium density fibreboard." International Journal of Life Cycle Assessment 12, no. 3 (May 2007): 143–50. http://dx.doi.org/10.1007/s11367-006-0290-4.

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10

Lesage, Pascal, and Réjean Samson. "The Quebec Life Cycle Inventory Database Project." International Journal of Life Cycle Assessment 21, no. 9 (May 30, 2013): 1282–89. http://dx.doi.org/10.1007/s11367-013-0593-1.

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11

Kuczenski, Brandon. "Partial ordering of life cycle inventory databases." International Journal of Life Cycle Assessment 20, no. 12 (October 15, 2015): 1673–83. http://dx.doi.org/10.1007/s11367-015-0972-x.

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12

Crawford, Robert H., Paul-Antoine Bontinck, André Stephan, Thomas Wiedmann, and Man Yu. "Hybrid life cycle inventory methods – A review." Journal of Cleaner Production 172 (January 2018): 1273–88. http://dx.doi.org/10.1016/j.jclepro.2017.10.176.

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13

Gadioli, Monica Castoldi Borlini, Nuria Fernández Castro, Carlos Eduardo Ribeiro Wandermurem, and Ualisson Donardelli Bellon. "Life Cycle Inventory of Brazilian Natural Stones." Key Engineering Materials 848 (June 2020): 109–18. http://dx.doi.org/10.4028/www.scientific.net/kem.848.109.

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Brazil is one of the main producers and exporters of natural stones in the world. Aiming to contribute to environmental improvements, the life cycle inventory of Brazilian natural stones – LCI Stones was elaborated. This paper presents the results obtained along the LCI Stones project. The project was carried out according to the Brazilian methodology for the elaboration of inventories and to the 14040 and 14044 ISO standards. The study consists of two product systems: quarrying and processing (which is divided in two other subsystems: sawing and polishing), being the last one the main system of this study. The product considered is the polished slab. The data were collected within producing companies, comprising a representative time period for the inventory validation. All inputs and outputs of mass, water and energy as well as products and emissions, within the boundaries, were identified and quantified. The main difficulty found in the data collection was the lack of data control by the companies, mainly the water and energy consumption and polishing inputs. The results of the study showed that, among the stone production processes, gang saw cutting was the one with the most relevant impacts. On account of the rapid technological improvements during the last years, the LCI-Stones is being updated by CETEM.
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14

Rivela, Beatriz, Ma Teresa Moreira, and Gumersindo Feijoo. "Life cycle inventory of medium density fibreboard." International Journal of Life Cycle Assessment 12, no. 3 (December 8, 2006): 143–50. http://dx.doi.org/10.1065/lca2006.12.290.

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15

Frischknecht, Rolf. "Life cycle inventory analysis for decision-making." International Journal of Life Cycle Assessment 3, no. 2 (March 1998): 67. http://dx.doi.org/10.1007/bf02978487.

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16

Aelion, Vital, Francesc Castells, and Agis Veroutis. "Life cycle inventory analysis of chemical processes." Environmental Progress 14, no. 3 (August 1995): 193–200. http://dx.doi.org/10.1002/ep.670140319.

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17

Siregar, Kiman, Supriyanto Supriyanto, Devitra Saka Rani, Yanuar Nurdiansyah, and Feri Wijayanto. "Conceptual Design of Inventory Analysis Software to Support the Life Cycle Assessment in Palm Oil Production." E3S Web of Conferences 226 (2021): 00028. http://dx.doi.org/10.1051/e3sconf/202122600028.

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Life cycle assessment is a quantitative method to analyze the environmental impact that consists of four main activities: goal and scope definition, life cycle inventory, life cycle impact assessment, and interpretation. The application of the life cycle in palm oil industry are very important and already conducted by many researchers. However, the most difficult task in life cycle assessment are the life cycle inventory. In this research, this study proposed the software to support the life cycle inventory in palm oil production. The result of the study was the conceptual design of the life cycle inventory software.
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18

Spragg, Jon Edward. "Articulating the fashion product life-cycle." Journal of Fashion Marketing and Management: An International Journal 21, no. 4 (September 11, 2017): 499–511. http://dx.doi.org/10.1108/jfmm-03-2017-0029.

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Purpose The purpose of this paper is to describe a framework for predicting the seasonal demand for fashion based on the Bass Diffusion model of demand and the Newsvendor inventory management model. Sales and inventory management simulations based on these models have been implemented in the Julia programming language to demonstrate how theoretical models can be made operational using open-source software for the benefit of small- to medium-scale enterprises with limited resources. Design/methodology/approach The paper employs simulation models implemented in the Julia programming languages to explore the use of theoretical models of demand on the seasonal management of fashion inventory. Findings The research demonstrates that further exploration of the framework described is worth undertaking. Research limitations/implications The paper employs theoretical models and is therefore conceptual in its outlook. Nonetheless it provides insights that could be explored further if real-world sales data would become available. Practical implications The framework provides simple models for predicting the demand for fashion that allows “what-if” scenarios to be constructed based on the manipulation of a few model parameters. Social implications The framework provides low-cost analytical tools that support small fashion enterprises with regards to market understanding and the operational management requirements necessary to support those markets. Originality/value The analytical use of the Bass model of demand with the Newsvendor model of inventory management within a fashion context.
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19

TACHIBANA, Ryuichi, Takajo NAGAIWA, Noriyasu KUNORI, Naohiro GOTO, and Koichi FUJIE. "Life cycle inventory of the slope seeding works." Journal of the Japanese Society of Revegetation Technology 35, no. 1 (2009): 3–8. http://dx.doi.org/10.7211/jjsrt.35.3.

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20

Nakajima, Kenichi, Hiromitsu Ino, and Kohmei Halada. "Methodology of Material Recycling in Life Cycle Inventory." Journal of the Japan Institute of Metals 66, no. 7 (2002): 701–7. http://dx.doi.org/10.2320/jinstmet1952.66.7_701.

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21

Wilson, E. J. "Life cycle inventory for municipal solid waste management." Waste Management & Research 20, no. 1 (February 2002): 16–22. http://dx.doi.org/10.1177/0734242x0202000103.

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22

Munhoz, C. R., C. M. V. B. Almeida, F. Agostinho, S. H. Bonilla, and B. F. Giannetti. "Streamlined life cycle inventory of dental syringes manufacturing." Journal of Environmental Accounting and Management 1, no. 2 (June 2013): 189–201. http://dx.doi.org/10.5890/jeam.2013.05.006.

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23

Corti, Donatella, Alessandro Fontana, and Federico Montorsi. "Reference Data Architecture for PSSs Life Cycle Inventory." Procedia CIRP 47 (2016): 300–304. http://dx.doi.org/10.1016/j.procir.2016.03.033.

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24

Di, Xianghua, Zuroen Nie, Baorong Yuan, and Tieyong Zuo. "Life cycle inventory for electricity generation in China." International Journal of Life Cycle Assessment 12, no. 4 (May 7, 2007): 217–24. http://dx.doi.org/10.1007/s11367-007-0331-7.

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25

Yang, Yi. "Toward a more accurate regionalized life cycle inventory." Journal of Cleaner Production 112 (January 2016): 308–15. http://dx.doi.org/10.1016/j.jclepro.2015.08.091.

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26

Lee, Kun-Mo, Sang-Yong Lee, and Tak Hur. "Life cycle inventory analysis for electricity in Korea." Energy 29, no. 1 (January 2004): 87–101. http://dx.doi.org/10.1016/j.energy.2003.08.007.

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27

Cooper, Joyce, Jim Fava, Kathrina Simonen, Sarah Boyd, and Steve Baer. "Status of North American Life Cycle Inventory Data." Journal of Industrial Ecology 16, no. 3 (May 18, 2012): 287–89. http://dx.doi.org/10.1111/j.1530-9290.2012.00506.x.

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28

Blaauw, Sheldon A., James W. Maina, and Louis J. Grobler. "Life cycle inventory of bitumen in South Africa." Transportation Engineering 2 (December 2020): 100019. http://dx.doi.org/10.1016/j.treng.2020.100019.

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29

Sieira, Priscilla. "Life Cycle Inventory of a Biodiesel Production Unit." American Journal of Chemical Engineering 2, no. 1 (2014): 1. http://dx.doi.org/10.11648/j.ajche.20140201.11.

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30

Di, Xianghua, Zuroen Nie, Baorong Yuan, and Tieyong Zuo. "Life cycle inventory for electricity generation in China." International Journal of Life Cycle Assessment 12, no. 4 (May 7, 2007): 217–24. http://dx.doi.org/10.1065/lca2007.05.331.

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31

Verbeeck, G., and H. Hens. "Life cycle inventory of buildings: A contribution analysis." Building and Environment 45, no. 4 (April 2010): 964–67. http://dx.doi.org/10.1016/j.buildenv.2009.10.003.

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32

Verbeeck, G., and H. Hens. "Life cycle inventory of buildings: A calculation method." Building and Environment 45, no. 4 (April 2010): 1037–41. http://dx.doi.org/10.1016/j.buildenv.2009.10.012.

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33

Kuka, Edgars, Dace Cirule, Ingeborga Andersone, Ziedonis Miklasevics, and Bruno Andersons. "Life cycle inventory for currently produced pine roundwood." Journal of Cleaner Production 235 (October 2019): 613–25. http://dx.doi.org/10.1016/j.jclepro.2019.07.004.

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34

Kuka, Edgars, Dace Cirule, Ingeborga Andersone, Ziedonis Miklasevics, and Bruno Andersons. "Life cycle inventory for currently harvested birch roundwood." European Journal of Wood and Wood Products 78, no. 5 (June 13, 2020): 859–70. http://dx.doi.org/10.1007/s00107-020-01544-7.

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35

Rossi, Federico, Maria Laura Parisi, Simone Maranghi, Riccardo Basosi, and Adalgisa Sinicropi. "Life Cycle Inventory datasets for nano-grid configurations." Data in Brief 28 (February 2020): 104895. http://dx.doi.org/10.1016/j.dib.2019.104895.

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36

Savage, G. M. "Integrated Solid Waste Management: A Life Cycle Inventory." Waste Management 22, no. 6 (October 2002): 691. http://dx.doi.org/10.1016/s0956-053x(02)00032-6.

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37

Doig, Alison. "Integrated Solid Waste Management: A Life Cycle Inventory." Global Environmental Change 5, no. 2 (May 1995): 159. http://dx.doi.org/10.1016/0959-3780(95)90045-4.

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38

Pedersen Weidema, Bo. "Market aspects in product life cycle inventory methodology." Journal of Cleaner Production 1, no. 3-4 (January 1993): 161–66. http://dx.doi.org/10.1016/0959-6526(93)90007-x.

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39

McDougall, Forbes R., Peter R. White, Marina Franke, and Peter Hindle. "Integrated solid waste management: A Life Cycle Inventory." International Journal of Life Cycle Assessment 6, no. 5 (September 2001): 320. http://dx.doi.org/10.1007/bf02978794.

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40

Postlethwaite, Dennis. "Open Forum on Surfactants Life Cycle Inventory (LCI)." Environmental Science and Pollution Research 2, no. 2 (September 1995): 124. http://dx.doi.org/10.1007/bf02986740.

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41

Jiménez-González, Concepción, Michael R. Overcash, and Alan Curzons. "Waste treatment modules - a partial life cycle inventory." Journal of Chemical Technology & Biotechnology 76, no. 7 (June 19, 2001): 707–16. http://dx.doi.org/10.1002/jctb.426.

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42

Suh, Sangwon, and Gjalt Huppes. "Methods for Life Cycle Inventory of a product." Journal of Cleaner Production 13, no. 7 (June 2005): 687–97. http://dx.doi.org/10.1016/j.jclepro.2003.04.001.

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43

Yang, Siqi, Li Zhang, Jing Guo, Jianchuan Qi, Nan Li, Yi Cao, Haoxuan Chen, Yuanyi Huang, and Ming Xu. "Cement production life cycle inventory dataset for China." Resources, Conservation and Recycling 197 (October 2023): 107064. http://dx.doi.org/10.1016/j.resconrec.2023.107064.

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44

Shoaib-ul-Hasan, Sayyed, Malvina Roci, Farazee M. A. Asif, Niloufar Salehi, and Amir Rashid. "Analyzing Temporal Variability in Inventory Data for Life Cycle Assessment: Implications in the Context of Circular Economy." Sustainability 13, no. 1 (January 2, 2021): 344. http://dx.doi.org/10.3390/su13010344.

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Life cycle assessment (LCA) is used frequently as a decision support tool for evaluating different design choices for products based on their environmental impacts. A life cycle usually comprises several phases of varying timespans. The amount of emissions generated from different life cycle phases of a product could be significantly different from one another. In conventional LCA, the emissions generated from the life cycle phases of a product are aggregated at the inventory analysis stage, which is then used as an input for life cycle impact assessment. However, when the emissions are aggregated, the temporal variability of inventory data is ignored, which may result in inaccurate environmental impact assessment. Besides, the conventional LCA does not consider the environmental impact of circular products with multiple use cycles. It poses difficulties in identifying the hotspots of emission-intensive activities with the potential to mislead conclusions and implications for both practice and policy. To address this issue and to analyze the embedded temporal variations in inventory data in a CE context, the paper proposes calculating the emission intensity for each life cycle phase. It is argued that calculating and comparing emission intensity, based on the timespan and amount of emissions for individual life cycle phases, at the inventory analysis stage of LCA offers a complementary approach to the traditional aggregate emission-based LCA approach. In a circular scenario, it helps to identify significant issues during different life cycle phases and the relevant environmental performance improvement opportunities through product, business model, and supply chain design.
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45

Franke, M., H. Klüppel, K. Kirchert, and P. Olschewski. "Okobilanzierung — Sachbilanz für die Waschmittel-Konfektionierung/ Life-Cycle-Assessment — Life-Cycle Inventory for Detergent Manufacturing." Tenside Surfactants Detergents 32, no. 6 (December 1, 1995): 508–14. http://dx.doi.org/10.1515/tsd-1995-320617.

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46

Kalliala, Eija M., and Pertti Nousiainen. "Life Cycle Assessment." AUTEX Research Journal 1, no. 1 (November 1, 1999): 8–20. http://dx.doi.org/10.1515/aut-1999-010102.

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Abstract The aim of this study was to increase the knowledge of environmental impact associated with producing fabrics for hotel textile services. The project was carried out in two parts: studies on hotel textiles and on textile services in three major Scandinavian laundering companies. This paper presents the results of the hotel textile study. The environmental impact was studied by applying the main principles of the life cycle assessment (LCA) methodology. Life-cycle assessments provide useful information on the quantities of energy and resources consumed and emissions associated with production systems. The impact assessment is still under development but some scenarios have been made to describe possible local, regional and global environmental consequences of the system under study. The inventory calculations proved that cotton fibre production consumes about 40% less energy than polyester fibre production. Cotton growing requires, however, huge amounts of water: irrigated amounts vary from 7 to 29 tons per kg of raw cotton fibres. Pesticides and fertilizers used in traditional cotton cultivation have ecotoxic effects in contrast to organic cotton cultivation, where natural alternatives to agrochemicals are used. It could also be concluded that 50/50 CO/PES sheets in hotel use have fewer environmental impacts than 100% CO sheets. This is due to the higher durability as well as lower laundering energy requirements of 50/50 CO/PES sheets.
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47

Setiawan, Ferry, and Nofrisel Nofrisel. "PERSPEKTIF SIKLUS HIDUP PERUSAHAAN DALAM HUBUNGAN ANTARA INVENTORI DAN KINERJA FINANSIAL." Jurnal Ekonomi dan Bisnis 20, no. 1 (January 10, 2019): 40. http://dx.doi.org/10.30659/ekobis.20.1.40-61.

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Research regarding the relationship between inventory management and financial performanceis so far inconclusive: some found it to be positive, others found it to be negative. One ofthe many factors that influence the variance, the organizational life cycle, will be exploredin this research. Organizational life cycle might influence the relationship between inventorymanagement and financial perfomance due to the different strategies and designs pursuedby the organizations along each of their life cycle stages. This study use a sample set of 33manufacturing companies listed in BEI, with 7 years observation period. A regression analysisis performed with dummy variables of organizational life cycle, resulting from a cluster analysiswith k-mean method. Regression analysis and cluster analysis are all done with Stata. Theresult shows that the relationship between inventory and financial performance is positive inthe early growth stage of organization life cycle and turns to negative at late growth stage. Therelationship is inconclusive at the conception and stability stage of organizational life cycle.Therefore, we can conclude that in making decisions about inventory, firms should considerwhat stage of organizational life cycle they are currently in so that the decisions made canimpact the financial performance positively.Keywords: Organizational Life Cycle, Financial Performance, Inventory Management
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48

Wolff, Sebastian, Moritz Seidenfus, Karim Gordon, Sergio Álvarez, Svenja Kalt, and Markus Lienkamp. "Scalable Life-Cycle Inventory for Heavy-Duty Vehicle Production." Sustainability 12, no. 13 (July 3, 2020): 5396. http://dx.doi.org/10.3390/su12135396.

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The transportation sector needs to significantly lower greenhouse gas emissions. European manufacturers in particular must develop new vehicles and powertrains to comply with recent regulations and avoid fines for exceeding C O 2 emissions. To answer the question regarding which powertrain concept provides the best option to lower the environmental impacts, it is necessary to evaluate all vehicle life-cycle phases. Different system boundaries and scopes of the current state of science complicate a holistic impact assessment. This paper presents a scaleable life-cycle inventory (LCI) for heavy-duty trucks and powertrains components. We combine primary and secondary data to compile a component-based inventory and apply it to internal combustion engine (ICE), hybrid and battery electric vehicles (BEV). The vehicles are configured with regard to their powertrain topology and the components are scaled according to weight models. The resulting material compositions are modeled with LCA software to obtain global warming potential and primary energy demand. Especially for BEV, decisions in product development strongly influence the vehicle’s environmental impact. Our results show that the lithium-ion battery must be considered the most critical component for electrified powertrain concepts. Furthermore, the results highlight the importance of considering the vehicle production phase.
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49

Peng, Zhen Guo, Xian Zheng Gong, Yu Liu, Chen Li, and Xiao Liu. "Life Cycle Inventory of Gangue as Alternative Raw Materials." Materials Science Forum 814 (March 2015): 533–38. http://dx.doi.org/10.4028/www.scientific.net/msf.814.533.

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With the development of science and technology and industry level, solid wastes are fully utilized. Among which gangue is the solid waste generated in the process of coal mining, its comprehensive utilization rate is more than 60%. Environmental pollution in the process of coal mining is one of the typical environmental problems confronted in China. In this paper, the life cycle inventory (LCI) of gangue was acquired by the method of life cycle assessment and further environmental impact assessment was achieved as well. The results showed that environmental impacts based on allocation of calorific value were greater than that of economic value, and it’s about 3.68 times the impacts assigned by economic value. Therefore allocation of economic value was better.
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50

Grasselly, D., P. Koch, and V. Colomb. "Life cycle inventory assessment of carrot crops in France." Acta Horticulturae, no. 1153 (March 2017): 9–14. http://dx.doi.org/10.17660/actahortic.2017.1153.2.

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