Relevant bibliographies by topics / Life cycle cost analysis

Academic literature on the topic 'Life cycle cost analysis'

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Published: 4 June 2021
Last updated: 1 June 2024

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Journal articles on the topic "Life cycle cost analysis"

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Sawant, S. S., S. P. Atpadkar, and R. S. Kognole. "Cost Optimization of Residential Structure by Life Cycle Cost Analysis." International Journal of Trend in Scientific Research and Development Volume-2, Issue-2 (February 28, 2018): 1583–86. http://dx.doi.org/10.31142/ijtsrd9650.

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Zheng, Yan, Di Su, Xu Wang, and Yu Cai. "Life Cycle Cost Analysis for Substation." Applied Mechanics and Materials 638-640 (September 2014): 2370–76. http://dx.doi.org/10.4028/www.scientific.net/amm.638-640.2370.

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Life Cycle Cost of Construction engineering project management is a combination of modern management theory—system theory, cybernetics and information theory combined with the construction project. In this paper, a model of substation life cycle cost is built comprehensively, by making a model for the cost estimating of substation design and construction cost. Meanwhile, the operation loss, operation maintenance cost are analyzed and calculated, the estimate of the retirement costs is carried on. On these basics, analyzes the relationship between the cost, then the numerical example is given ultimately. Eventually, optimal reliability and economical efficiency is achieved.
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Lee, Douglass B. "Fundamentals of Life-Cycle Cost Analysis." Transportation Research Record: Journal of the Transportation Research Board 1812, no. 1 (January 2002): 203–10. http://dx.doi.org/10.3141/1812-25.

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Drapikovskyi, Oleksandr, and Iryna Іvanova. "PROPERTY LIFE CYCLE COST ANALYSIS METODS." Spatial development, no. 1 (December 23, 2022): 140–56. http://dx.doi.org/10.32347/2786-7269.2022.1.140-156.

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The minimization of the property life cycle cost as a criterion for making a decision regarding the economic feasibility of purchasing or building a certain real estate object compared to other objects with functional utility today has become a mandatory requirement of most regulatory and legal acts in Ukraine. At the same time, the practical implementation of this requirement faces the problem of methodical provision of life cycle cost analysis from the standpoint of the uncertainty of these costs in the future and the need to take into account the time value of money. The application of valuation procedures based on cash flow discounting, proposed in this article, can contribute to the solution of this problem. Discounting cash flows will require the classification of life cycle costs not only by content load, but also by the time of their occurrence into initial and future costs, which in turn are divided into once-only, periodic and regular costs. Acceptable units of measurement of discounted cash flows can be net present costs, equivalent annual cost, net savings; savings to investments ratio, internal rate of return, discounted payback period, each of which corresponds to its own model and valuation criterion. To solve the problem of the uncertainty of future costs and to take into account the risk inherent in their forecasting, the methods of analyzing the sensitivity of the results to changes in the market situation are proposed and the justified feasibility of using stochastic discounted cash flows models is justified.
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Thu, Kyaw, A. Chakraborty, B. B. Saha, Won Gee Chun, and K. C. Ng. "Life-cycle cost analysis of adsorption cycles for desalination." Desalination and Water Treatment 20, no. 1-3 (August 2010): 1–10. http://dx.doi.org/10.5004/dwt.2010.1187.

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Kim, Keun-Woo, and Seok-Heon Yun. "A Case study of Life Cycle Cost Analysis on Apartment houses and Han-Ok." Journal of the Korea Institute of Building Construction 10, no. 6 (December 20, 2010): 1–6. http://dx.doi.org/10.5345/jkic.2010.12.6.001.

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A. Morfonios, A. Morfonios, D. Kaitelidou D. Kaitelidou, G. Filntisis G. Filntisis, G. Baltopoulos G. Baltopoulos, and P. Myrianthefs P. Myrianthefs. "Economic Evaluation of Multislice Computed Tomography Scanners Through a Life Cycle Cost Analysis." Indian Journal of Applied Research 4, no. 5 (October 1, 2011): 158–61. http://dx.doi.org/10.15373/2249555x/may2014/49.

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Fwa, Tien F., and Kumares C. Sinha. "Pavement Performance and Life‐Cycle Cost Analysis." Journal of Transportation Engineering 117, no. 1 (January 1991): 33–46. http://dx.doi.org/10.1061/(asce)0733-947x(1991)117:1(33).

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Nicholson, D., P. Smith, G. A. Bowers, F. Cuceoglu, C. G. Olgun, J. S. McCartney, K. Henry, L. L. Meyer, and F. A. Loveridge. "Environmental impact calculations, life cycle cost analysis." DFI Journal - The Journal of the Deep Foundations Institute 8, no. 2 (October 2014): 130–46. http://dx.doi.org/10.1179/1937525514y.0000000009.

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Swei, Omar, Jeremy Gregory, and Randolph Kirchain. "Probabilistic Life-Cycle Cost Analysis of Pavements." Transportation Research Record: Journal of the Transportation Research Board 2523, no. 1 (January 2015): 47–55. http://dx.doi.org/10.3141/2523-06.

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Dissertations / Theses on the topic "Life cycle cost analysis"

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Petrovic, Bojana. "Life cycle assessment and life cycle cost analysis of a single-family house." Licentiate thesis, Högskolan i Gävle, Energisystem och byggnadsteknik, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-36901.

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The building industry is responsible for 35% of final energy use and 38% of CO2 emissions at a global level. The European Union aims to reduce CO2 emissions in the building industry by up to 90% by the year 2050. Therefore, it is important to consider the environmental impacts buildings have. The purpose of this thesis was to investigate the environmental impacts and costs of a single-family house in Sweden. In the study, the life cycle assessment (LCA) and the life cycle cost (LCC) methods have been used by following the “cradle to grave” life cycle perspective.  This study shows a significant reduction of global warming potential (GWP), primary energy (PE) use and costs when the lifespan of the house is shifted from 50 to 100 years. The findings illustrate a total decrease in LCA outcome, of GWP to 27% and PE to 18%. Considering the total LCC outcome, when the discount rate increases from 3% to 5% and then 7%, the total costs decrease significantly (60%, 85% to 95%). The embodied carbon, PE use and costs from the production stage/construction stage are significantly reduced, while the maintenance/replacement stage displays the opposite trend. Operational energy use, water consumption and end-of-life, however, remain largely unchanged. Furthermore, the findings emphasize the importance of using wood-based building materials due to its lower carbon-intensive manufacturing process compared to non-wood choices.   The results of the LCA and LCC were systematically studied and are presented visually. Low carbon and cost-effective materials and installations have to be identified in the early stage of a building design so that the appropriate investment choices can be made that will reduce a building’s total environmental and economic impact in the long run. Findings from this thesis provide a greater understanding of the environmental and economic impacts that are relevant for decision-makers when building single-family houses.
Byggbranschen svarar för 35% av den slutliga energianvändningen och 38 % av koldioxidutsläppen på global nivå. Europeiska unionen strävar efter att minska koldioxidutsläppen i byggnadsindustrin med upp till 90% fram till 2050. Därför är det viktigt att beakta byggnaders miljöpåverkan. Syftet med denna avhandling var att undersöka miljöpåverkan och kostnader för ett enfamiljshus i Sverige. I studien har livscykelbedömningen (LCA) och livscykelkostnadsmetoderna (LCC) använts genom att tillämpa livscykelperspektivet ”vagga till grav”. Studien visar en stor minskning av global uppvärmningspotential (GWP), användning av primärenergi (PE) och kostnader vid växling från 50 till 100 års husets livslängd. Resultaten visar en årlig minskning med 27% för utsläpp av växthusgaser och med 18% för användningen av primärenergi. Med tanke på det totala LCC-utfallet, när diskonteringsräntan ökar från 3%, 5% till 7%, minskar de totala kostnaderna avsevärt (60%, 85% till 95%). Det noteras att klimatavtrycket, primärenergianvändningen och kostnaderna från produktionssteget/konstruktionssteget minskar avsevärt, medan underhålls- / utbytessteget visar den motsatta trenden när man byter från 50 till 100 års livslängd. Den operativa energianvändningen, vattenförbrukningen och avfallshanteringen är fortfarande nästan samma när man ändrar livslängden. Vidare betonar resultaten vikten av att använda träbaserade byggmaterial på grund av lägre klimatpåverkan från tillverkningsprocessen jämfört med alternativen. LCA- och LCC-resultaten studerades systematiskt och redovisades visuellt. De koldioxidsnåla och kostnadseffektiva materialen och installationerna måste identifieras i ett tidigt skede av en byggnadskonstruktion genom att välja lämpliga investeringsval som kommer att minska de totala miljö och ekonomiska effekterna på lång sikt. Resultaten från denna avhandling ger ökad förståelse för miljömässiga och ekonomiska konsekvenser som är relevanta för beslutsfattare vid byggnation av ett enfamiljshus.
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Yang, Shih-Hsien. "Effectivess of Using Geotextiles in Flexible Pavements: Life-Cycle Cost Analysis." Thesis, Virginia Tech, 2006. http://hdl.handle.net/10919/31442.

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Using geotextiles in secondary roads to stabilize weak subgrades has been a well accepted practice over the past thirty years. However, from an economical point of view, a complete life cycle cost analysis (LCCA), which includes not only costs to agencies but also costs to users, is urgently needed to assess the benefits of using geotextile in secondary road flexible pavement. In this study, a comprehensive life cycle cost analysis framework was developed and used to quantify the initial and the future cost of 25 representative design alternatives. A 50 year analysis cycle was used to compute the cost-effectiveness ratio for the design methods. Four flexible pavement design features were selected to test the degree of influence of the frameâ s variables. The analysis evaluated these variables and examined their impact on the results. The study concludes that the cost effectiveness ratio from the two design methods shows that the lowest cost-effectiveness ratio using Al-Qadiâ s design method is 1.7 and the highest is 3.2. The average is 2.6. For Perkinsâ design method, the lowest value is 1.01 and the highest value is 5.7. The average is 2.1. The study also shows when user costs are considered, the greater TBR value may not result in the most effective life-cycle cost. Hence, for an optimum secondary road flexible pavement design with geotextile incorporated in the system, a life cycle cost analysis that includes user cost must be performed.
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Evdokimova, Tatiana. "Life cycle assessment in construction field: A life cycle cost analysis of reinforcement concrete bridge." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2014. http://amslaurea.unibo.it/7371/.

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The present work is included in the context of the assessment of sustainability in the construction field and is aimed at estimating and analyzing life cycle cost of the existing reinforced concrete bridge “Viadotto delle Capre” during its entire life. This was accomplished by a comprehensive data collection and results evaluation. In detail, the economic analysis of the project is performed. The work has investigated possible design alternatives for maintenance/rehabilitation and end-of-life operations, when structural, functional, economic and also environmental requirements have to be fulfilled. In detail, the economic impact of different design options for the given reinforced concrete bridge have been assessed, whereupon the most economically, structurally and environmentally efficient scenario was chosen. The Integrated Life-Cycle Analysis procedure and Environmental Impact Assessment were also discussed in this work. The scope of this thesis is to illustrate that Life Cycle Cost analysis as part of Life Cycle Assessment approach could be effectively used to drive the design and management strategy of new and existing structures. The final objective of this contribution is to show how an economic analysis can influence decision-making in the definition of the most sustainable design alternatives. The designers can monitor the economic impact of different design strategies in order to identify the most appropriate option.
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Safi, Mohammed. "Bridge Life Cycle Cost Optimization : Analysis, Evaluation & Implementation." Thesis, KTH, Civil and Architectural Engineering, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-11908.

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In infrastructure construction projects especially bridge investments, the most critical decisions that significantly affect the whole bridge LCC are the early stages decisions. Clearly, it's more beneficial to correctly choose the optimum bridge than to choose the optimum construction or repair method.

The ability of a bridge to provide service over time demands appropriate maintenance by the agency. Thus the investment decision should consider not only the initial activity that creates a public good, but also all future activities that will be required to keep that investment available to the public.

This research is aiming for bridge sustainability, enhance the bridge related decision making, and facilitate the usage of the bridge related feedbacks. The development of a reliable and usable computer tool for bridge LCC & LCA evaluation is the main target.

Toward the main goal, many steps were fulfilled. A unique integrated Bridge LCC evaluation methodology was developed. Two systematic evaluation ways were developed, one for bridge user cost and one for the bridge aesthetical and cultural value. To put these two systematic ways in practice, two preliminary computer programs were developed for this purpose. Today and future works are focusing on developing methodology and preliminary computer tool for bridge agency cost as well as the bridge LCA evaluation. KTH unique LCC evaluation system will enable the decision makers to correctly choose the optimum bridge in the early stages decision making phases as well as any later on reparation method.


ETSI
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Abed, El-Fattah Safi Mohammed. "Bridge Life Cycle Cost Optimization : Analysis, Evaluation, & Implementation." Thesis, KTH, Bro- och stålbyggnad, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-36944.

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Wilde, William James. "Life cycle cost analysis of Portland cement concrete pavements /." Digital version accessible at:, 1998. http://wwwlib.umi.com/cr/utexas/main.

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Chen, Chao, and Yogesh Vishwas Bhamare. "Life Cycle Cost Analysis and Optimization of Wastewater Pumping System." Thesis, KTH, Hållbar utveckling, miljövetenskap och teknik, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-255866.

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Different attempts have been made to facilitate successful operation of Wastewater Pumping (WWP) system. The WWP units which are already existed in different parts of the world have been studied to identify its success, failure and different parameters associated with its suboptimal performance. The performance of WWP depends on three parameters namely pump, hydraulics, control system and pump station. These parameters are interdependent and must be carefully matched to achieve efficient WWP system. Nowadays the scenario has changed where organizations has started looking increasingly at the total cost of ownership, another way of saying Life Cycle Cost Analysis (LCCA) and recognizing the need to get most out of their equipment purchase. The master thesis includes theory part which describes the different parameters associated with WWP unit especially focusing on Xylems WWP system. This thesis is an attempt to help companies to know how LCCA could be productive management tool in order to minimize maintenance cost and maximize energy efficiency The study reported in this thesis work has been conducted to shed light over the use of Life Cycle Cost Analysis in WWP system. The current study tries to suggest and assess an adopted approach to ensure successful and efficient operation of WWP system with lowering energy demand and decrease in maintenance cost. Initial cost, Maintenance cost and Energy costs are important issues in the operation of WWP system since they are responsible for total cost over time. Therefore, description of each cost, formulas necessary for LCC calculations, data and survey structure, material and energy flow has been described. This work also aims to provide an extensive literature review, different survey and data collection techniques, analysis of collected data, statistical modelling, customer interaction by questionnaires and an interview with experts were used. LCC calculations were used to support the design and selection of most cost-efficient WWP system. Therefore, the given thesis work is an attempt to achieve better functional performance, improve existing design principles associated with WWP System, contribution to asses economic viability, support decision making to enhance operational quality to achieve efficient and successful WWP system.
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Trevino, Cantu Hector. "Life-Cycle Cost Analysis for Offshore Wind Farms:Reliability and Maintenance.O&M Cost Drivers Analysis." Thesis, Högskolan på Gotland, Institutionen för kultur, energi och miljö, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-217018.

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Operations and maintenance (O&M) activities represent a significant share of the expenses during the lifetime of offshore wind farms. When compared to onshore wind farms, O&M costs are increased for the offshore case, as specialized vessels, weather windows and rough conditions mean more failures, downtime (decreasing availability), spare parts, and man-hours.This study comprises an analysis of the available O&M data from a selected offshore wind farm. The results and conclusions from this investigation could then be used to evaluate possible reliability improvements and compare options for the maintenance strategies, as well as to ponder the convenience of warranty periods and O&M agreements between wind farm operators and wind turbine manufacturers or O&M service providers.The life-cycle cost (LCC) concept is utilized in the analysis of the wind farm survey for this thesis. LCC analysis could be the starting point to make decisions regarding specific wind turbine models, as selecting the turbines with the lowest initial cost may not be necessarily the scenario which also costs the least amount of money when taking into consideration the whole life cycle. It may also be a great tool to forecast future operational incomes and expenses of offshore wind farms.
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White, Bradley A. "Improving life-cycle cost management in the U.S. Army : analysis of the U.S. Army and Commercial Businesses life-cycle cost management." Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2001. http://handle.dtic.mil/100.2/ADA397642.

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Tallapragada, Pavan K. "Mechanistic-based performance prediction and life cycle cost analysis tools." Cincinnati, Ohio : University of Cincinnati, 2005. http://www.ohiolink.edu/etd/view.cgi?acc%5Fnum=ucin1116271787.

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Books on the topic "Life cycle cost analysis"

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Hawk, Hugh. Bridge life-cycle cost analysis. Washington, D.C: Transportation Research Board, National Research Council, 2003.

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Galar, Diego, Peter Sandborn, and Uday Kumar. Maintenance Costs and Life Cycle Cost Analysis. Boca Raton : Taylor & Francis, a CRC title, part of the Taylor & Francis imprint, a member of the Taylor & Francis Group, the academic division of T&F Informa, plc, [2017]: CRC Press, 2017. http://dx.doi.org/10.1201/9781315154183.

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Peterson, Dale E. Life-cycle cost analysis of pavements. Springfield, VA: National Technical Information Service, U.S. Department of Commerce, 1985.

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S, Blanchard Benjamin, ed. Life-cycle cost and economic analysis. Englewood Cliffs, N.J: Prentice Hall, 1991.

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Peterson, Dale E. Life-cycle cost analysis of pavements. Washington, D.C: Transportation Research Board, National Research Council, 1985.

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Farr, John Vail, and Isaac Faber. Engineering Economics of Life Cycle Cost Analysis. Boca Raton, FL : CRC Press/Taylor & Francis Group, 2018.: CRC Press, 2018. http://dx.doi.org/10.1201/9780429466304.

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United States. Federal Highway Administration. and American Association of State Highway and Transportation Officials., eds. Life cycle cost analysis: Summary of proceedings, FHWA life cycle cost symposium : December 15-16, 1993. Washington, D.C: U.S. Dept. of Transportation, Federal Highway Administration, 1994.

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United States. Federal Highway Administration. Pavement Division, ed. Life-cycle cost analysis in pavement design: Draft. [Washington, D.C.?]: U.S. Dept. of Transportation, Federal Highway Administration, Pavement Division, 1998.

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United States. Federal Highway Administration. Pavement Division., ed. Life-cycle cost analysis in pavement design: Draft. [Washington, D.C.?]: U.S. Dept. of Transportation, Federal Highway Administration, Pavement Division, 1998.

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United States. Federal Highway Administration. Pavement Division., ed. Life-cycle cost analysis in pavement design: Draft. [Washington, D.C.?]: U.S. Dept. of Transportation, Federal Highway Administration, Pavement Division, 1998.

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Book chapters on the topic "Life cycle cost analysis"

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Eisner, Howard. "Life Cycle Costing." In Cost-Effectiveness Analysis, 43–49. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003196174-5.

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Tiwari, G. N., Arvind Tiwari, and Shyam. "Life-Cycle Cost Analysis." In Energy Systems in Electrical Engineering, 671–90. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-0807-8_20.

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Crespo Márquez, Adolfo, Carlos Parra Márquez, Juan F. Gómez Fernández, Mónica López Campos, and Vicente González-Prida Díaz. "Life Cycle Cost Analysis." In Asset Management, 81–99. Dordrecht: Springer Netherlands, 2011. http://dx.doi.org/10.1007/978-94-007-2724-3_6.

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Al-Waeli, Ali H. A., Kamaruzzaman Sopian, Hussein A. Kazem, and Miqdam T. Chaichan. "Life Cycle Cost Analysis." In Green Energy and Technology, 123–29. Singapore: Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-99-9126-6_6.

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Chakravorti, Nirjhar. "Life Cycle Cost Analysis Experiences." In Life Cycle Cost Analysis, 121–34. New York: Productivity Press, 2024. http://dx.doi.org/10.4324/9781003462330-10.

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Chakravorti, Nirjhar. "Life Cycle Cost Analysis Methodology." In Life Cycle Cost Analysis, 9–17. New York: Productivity Press, 2024. http://dx.doi.org/10.4324/9781003462330-4.

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Chakravorti, Nirjhar. "Introduction." In Life Cycle Cost Analysis, 1–2. New York: Productivity Press, 2024. http://dx.doi.org/10.4324/9781003462330-1.

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Chakravorti, Nirjhar. "Sample Life Cycle Cost Analysis Report." In Life Cycle Cost Analysis, 32–87. New York: Productivity Press, 2024. http://dx.doi.org/10.4324/9781003462330-7.

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Chakravorti, Nirjhar. "Project Management Decisions." In Life Cycle Cost Analysis, 88–113. New York: Productivity Press, 2024. http://dx.doi.org/10.4324/9781003462330-8.

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Chakravorti, Nirjhar. "Salvage Value." In Life Cycle Cost Analysis, 28–31. New York: Productivity Press, 2024. http://dx.doi.org/10.4324/9781003462330-6.

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Conference papers on the topic "Life cycle cost analysis"

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Furuta, Hitoshi, Takahiro Kameda, Yoshiko Fukuda, and Dan M. Frangopol. "Life-Cycle Cost Analysis for Infrastructure Systems: Life-Cycle Cost vs. Safety Level vs. Service Life." In Third IABMAS Workshop on Life-Cycle Cost Analysis and Design of Civil Infrastructures Systems. Reston, VA: American Society of Civil Engineers, 2003. http://dx.doi.org/10.1061/40707(240)3.

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Köylüoğlu, Özgür. "Tendering Based on Life Cycle Cost and Life Cycle Analysis." In IABSE Congress, Stockholm 2016: Challenges in Design and Construction of an Innovative and Sustainable Built Environment. Zurich, Switzerland: International Association for Bridge and Structural Engineering (IABSE), 2016. http://dx.doi.org/10.2749/stockholm.2016.0656.

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Xu, Yuchun. "Life Cycle Cost Modeling for Technology Assessment." In 12th AIAA/ISSMO Multidisciplinary Analysis and Optimization Conference. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2008. http://dx.doi.org/10.2514/6.2008-5974.

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Yanev, Bojidar S. "Bridge Maintenance Life Cycle Cost Assessment." In First US-Japan Workshop on Life-Cycle Cost Analysis and Design of Civil Infrastructure Systems. Reston, VA: American Society of Civil Engineers, 2001. http://dx.doi.org/10.1061/40571(304)17.

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Lee, Sung Hun, An Kyu Lee, and Jin O. Kim. "Determining economic life cycle for power transformer based on life cycle cost analysis." In 2012 IEEE International Power Modulator and High Voltage Conference (IPMHVC). IEEE, 2012. http://dx.doi.org/10.1109/ipmhvc.2012.6518816.

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Beck, James L., Keith A. Porter, and Rustem V. Shaikhutdinov. "Simplified Estimation of Seismic Life-Cycle Costs." In Third IABMAS Workshop on Life-Cycle Cost Analysis and Design of Civil Infrastructures Systems. Reston, VA: American Society of Civil Engineers, 2003. http://dx.doi.org/10.1061/40707(240)25.

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Dzierzanowski, L., B. Ruszczak, and M. Tomaszewski. "Frequency of power line failures in Life Cycle Cost analysis." In 2013 International Symposium on Electrodynamic and Mechatronic Systems (SELM). IEEE, 2013. http://dx.doi.org/10.1109/selm.2013.6562977.

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Marx, William, Dimitri Mavris, and Daniel Schrage. "A hierarchical aircraft life cycle cost analysis model." In Aircraft Engineering, Technology, and Operations Congress. Reston, Virigina: American Institute of Aeronautics and Astronautics, 1995. http://dx.doi.org/10.2514/6.1995-3861.

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Wiboonrat, Montri. "Life cycle cost analysis of data center project." In 2014 Ninth International Conference on Ecological Vehicles and Renewable Energies (EVER). IEEE, 2014. http://dx.doi.org/10.1109/ever.2014.6844139.

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Zhang, Yingchun, David Novick, Ahmad Hadavi, and Raymond J. Krizek. "Life-Cycle Cost Analysis of Bridges and Tunnels." In Construction Research Congress 2005. Reston, VA: American Society of Civil Engineers, 2005. http://dx.doi.org/10.1061/40754(183)26.

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Reports on the topic "Life cycle cost analysis"

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C Mellen. Life-Cycle Cost Analysis for Condensate Receiving System. Office of Scientific and Technical Information (OSTI), January 1995. http://dx.doi.org/10.2172/893381.

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Russell E. Flye. LIFE-CYCLE COST ANALYSIS FOR CONDENSATE RECEIVING SYSTEM. Office of Scientific and Technical Information (OSTI), January 1995. http://dx.doi.org/10.2172/875324.

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Lippiatt, Barbara C., and Stephen F. Weber. Productivity impacts in building life-cycle cost analysis. Gaithersburg, MD: National Institute of Standards and Technology, 1992. http://dx.doi.org/10.6028/nist.ir.4762.

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Hall, M. N. ,. Westinghouse Hanford. Life-cycle cost analysis of advanced design mixer pump. Office of Scientific and Technical Information (OSTI), July 1996. http://dx.doi.org/10.2172/296577.

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Barnes-Smith, P. Life cycle cost analysis for the Plasma Arc Furnace. Office of Scientific and Technical Information (OSTI), March 1994. http://dx.doi.org/10.2172/10153061.

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Lamptey, Geoffery, Muhammad Ahmad, and Samuel Labi. Life Cycle Cost Analysis for INDOT Pavement Design Procedures. West Lafayette, IN: Purdue University, 2005. http://dx.doi.org/10.5703/1288284313261.

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Maldonado, Stefan L. Leiva, and Mark D. Bowman. Life-Cycle Cost Analysis for Short- and Medium-Span Bridges. Purdue University, 2019. http://dx.doi.org/10.5703/1288284316919.

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Lippiatt, Barbara C., Stephen F. Weber, and Rosalie T. Ruegg. Energy prices and discount factors for life-cycle cost analysis :. Gaithersburg, MD: National Bureau of Standards, 1985. http://dx.doi.org/10.6028/nbs.ir.85-3273-1.

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Lippiatt, Barbara C., and Rosalie T. Ruegg. Energy prices and discount factors for life-cycle cost analysis :. Gaithersburg, MD: National Bureau of Standards, 1987. http://dx.doi.org/10.6028/nbs.ir.85-3273-2.

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Petersen, Stephen R. Discount factor tables for life-cycle cost analyses. Gaithersburg, MD: National Institute of Standards and Technology, 1989. http://dx.doi.org/10.6028/nist.ir.89-4203.

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