Skip to main content
Fachgebiete
Automobil + Motoren Bauwesen + Immobilien Business IT + Informatik Elektrotechnik + Elektronik Energie + Nachhaltigkeit Finance + Banking Management + Führung Marketing + Vertrieb Maschinenbau + Werkstoffe Versicherung + Risiko
DE
EN
Bücher
Zeitschriften
Themenseiten
Organisationspsychologie Projektmanagement Marketing Smart Manufacturing
Weitere Formate
Podcasts Webinare Technik Webinare Wirtschaft Kongresse Veranstaltungskalender Awards
Jetzt Einzelzugang starten
Zugang für Unternehmen
Referenzkunden
SLX-Digitalkonferenz: Zukunftswerkstatt 2024

Mehr Umsatz mit Top-Kontakten

Am 7. Mai erfahren Sie, wie Vertriebsteams Leadgenerierung, Leadnurturing und Leadstrategien effizient steuern können.
Erweiterte Suche
Anmelden
nach oben
The International Journal of Life Cycle Assessment
Erschienen in: The International Journal of Life Cycle Assessment 2/2017

05.07.2016 | UNCERTAINTIES IN LCA

Uncertainty in life cycle costing for long-range infrastructure. Part I: leveling the playing field to address uncertainties

verfasst von: Patrick Ilg, Christoph Scope, Stefan Muench, Edeltraud Guenther

Erschienen in: The International Journal of Life Cycle Assessment | Ausgabe 2/2017

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config
loading …

Abstract

Purpose

Life cycle costing (LCC) is a state-of-the-art method to analyze investment decisions in infrastructure projects. However, uncertainties inherent in long-term planning question the credibility of LCC results. Previous research has not systematically linked sources and methods to address this uncertainty. Part I of this series develops a framework to collect and categorize different sources of uncertainty and addressing methods. This systematization is a prerequisite to further analyze the suitability of methods and levels the playing field for part II.

Methods

Past reviews have dealt with selected issues of uncertainty in LCC. However, none has systematically collected uncertainties and linked methods to address them. No comprehensive categorization has been published to date. Part I addresses these two research gaps by conducting a systematic literature review. In a rigorous four-step approach, we first scrutinized major databases. Second, we performed a practical and methodological screening to identify in total 115 relevant publications, mostly case studies. Third, we applied content analysis using MAXQDA. Fourth, we illustrated results and concluded upon the research gaps.

Results and discussion

We identified 33 sources of uncertainty and 24 addressing methods. Sources of uncertainties were categorized according to (i) its origin, i.e., parameter, model, and scenario uncertainty and (ii) the nature of uncertainty, i.e., aleatoric or epistemic uncertainty. The methods to address uncertainties were classified into deterministic, probabilistic, possibilistic, and other methods. With regard to sources of uncertainties, lack of data and data quality was analyzed most often. Most uncertainties having been discussed were located in the use stage. With regard to methods, sensitivity analyses were applied most widely, while more complex methods such as Bayesian models were used less frequently. Data availability and the individual expertise of LCC practitioner foremost influence the selection of methods.

Conclusions

This article complements existing research by providing a thorough systematization of uncertainties in LCC. However, an unambiguous categorization of uncertainties is difficult and overlapping occurs. Such a systemizing approach is nevertheless necessary for further analyses and levels the playing field for readers not yet familiar with the topic. Part I concludes the following: First, an investigation about which methods are best suited to address a certain type of uncertainty is still outstanding. Second, an analysis of types of uncertainty that have been insufficiently addressed in previous LCC cases is still missing. Part II will focus on these research gaps.
Vorheriger Artikel Life cycle assessment research in Brazil: characteristics, interdiciplinarity, and applications
Nächster Artikel SETAC LCA advisory groups silver jubilee: get involved and contribute to the next stage of LCA

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

Jetzt informieren
Anhänge
Nur mit Berechtigung zugänglich
Fußnoten
1
Political, economic, social, technological, environmental, and legal aspects
 
Literatur
Aissani A, Chateauneuf A, Fontaine J-P, Audebert P (2014) Cost model for optimum thicknesses of insulated walls considering indirect impacts and uncertainties. Energy Build 84:21–32CrossRef
Allacker K (2012) Environmental and economic optimisation of the floor on grade in residential buildings. Int J Life Cycle Assess 17:813–827CrossRef
American Society of Civil Engineers (2015) J Infrastruct Syst
Ammar M, Zayed T, Moselhi O (2013) Fuzzy-based life-cycle cost model for decision making under subjectivity. J Constr Eng Manage 139:556–563CrossRef
Andrade AR, Teixeira PF (2012) A Bayesian model to assess rail track geometry degradation through its life-cycle. Res Transp Econ 36:1–8CrossRef
Anwari M, Rashid M, Muhyiddin H, Ali A (2012) An evaluation of hybrid wind/diesel energy potential in Pemanggil Island Malaysia. IEEE, pp 1–5
Apostolakis G (1990) The concept of probability in safety assessments of technological systems. Science 250:1359–1364CrossRef
Asiedu Y, Besant RW (2000) Simulation-based cost estimation under economic uncertainty using kernel estimators. Int J Prod Res 38:2023–2035CrossRef
Asiedu Y, Gu P (1998) Product life cycle cost analysis: state of the art review. Int J Prod Res 36:883–908CrossRef
Ayyub BM (2001) Elicitation of expert opinions for uncertainty and risks. CRC Press
Battke B, Schmidt TS, Grosspietsch D, Hoffmann VH (2013) A review and probabilistic model of lifecycle costs of stationary batteries in multiple applications. Renew Sustain Energy Rev 25:240–250CrossRef
Becheikh N, Landry R, Amara N (2006) Lessons from innovation empirical studies in the manufacturing sector: a systematic review of the literature from 1993–2003. Technovation 26:644–664CrossRef
Bedford T, Cooke R (2001) Probabilistic risk analysis: foundations and methods. Cambridge University Press
Bevington PR, Robinson DK (1992) Error analysis. Data Reduct Error Anal Phys Sci 38–48
Björklund AE (2002) Survey of approaches to improve reliability in LCA. Int J Life Cycle Assess 7:64–72CrossRef
Book SA (1999) Why correlation matters in cost estimating. pp 2–5
Boussabaine HA, Kirkham RJ (2004) Whole life risk analysis techniques. In: Whole life-cycle costing: risk and risk responses. Blackwell Publishing Ltd, pp 56–83
Budnitz RJ, Apostolakis G, Boore DM et al (1997) Recommendations for probabilistic seismic hazard analysis: guidance on uncertainty and use of experts
Butry D (2009) Economic performance of residential fire sprinkler systems. Fire Technol 45:117–143CrossRef
Cavalieri S, Maccarrone P, Pinto R (2004) Parametric vs. neural network models for the estimation of production costs: a case study in the automotive industry. Int J Prod Econ 91:165–177CrossRef
Chen C (2007) Soft computing-based life-cycle cost analysis tools for transportation infrastructure management
Chien SI-J, Ding Y, Wei C (2002) Dynamic bus arrival time prediction with artificial neural networks. J Transp Eng 128:429–438CrossRef
Cole RJ, Sterner E (2000) Reconciling theory and practice of life-cycle costing. Build Res Inf 28:368–375CrossRef
Cole RC, Morandi F, Avenell J, Daniel GB (2005) Trans-splenic portal scintigraphy in normal dogs. Vet Radiol Ultrasound 46:146–152CrossRef
Dalkey N, Helmer O (1963) An experimental application of the DELPHI method to the use of experts. Manag Sci 9:458–467CrossRef
Danaher AC (2012) Incorporating externalities and uncertainty into life-cycle cost analysis. DTIC document
De Leon D, Diaz Camacho S, Gonzalez Perez CA (2013) Reliability-based optimal next inspection time of prestressed concrete bridges including the effect of corrosion deterioration. Rev Tec Fac Ing Univ Zulia 36:114–121
Der Kiureghian A, Ditlevsen O (2007) Aleatory or epistemic? Does it matter? Special workshop on risk acceptance and risk communication, March 26–27, 2007. Stanford University, Stanford
Dhillon BS (1981) Life cycle cost: a survey. Microelectron Reliab 21:495–511CrossRef
Domínguez-Muñoz F, Cejudo-López JM, Carrillo-Andrés A (2010) Uncertainty in peak cooling load calculations. Energy Build 42:1010–1018CrossRef
Durango-Cohen P, Tadepalli N (2006) Using advanced inspection technologies to support investments in maintenance and repair of transportation infrastructure facilities. J Transp Eng 132:60–68CrossRef
Ehlen MA, Marshall HE (1996) The economics of new-technology materials: a case study of FRP bridge decking. US Department of Commerce, Technology Administration, National Institute of Standards and Technology, Office of Applied Economics, Building and Fire Research Laboratory
El-Diraby TE, Rasic I (2004) Framework for managing life-cycle cost of smart infrastructure systems. J Comput Civ Eng 18:115–119CrossRef
Emblemsvåg J, Bras B (1997) Method for life-cycle design cost assessments using activity-based costing and uncertainty. Eng Des Autom 3:339–354
Fernandes P, Roy R, Mehnen J, Harrison A (2011) An overview on degradation modelling for service cost estimation. In: Functional thinking for value creation. Springer, pp 309–314
Fink A (2013) Conducting research literature reviews: from the internet to paper. Sage Publications, Thousand Oaks
Francis R, Falconi S, Nateghi R, Guikema S (2011) Probabilistic life cycle analysis model for evaluating electric power infrastructure risk mitigation investments. Clim Change 106:31–55CrossRef
Funtowicz SO, Ravetz JR (1990) Uncertainty and quality in science for policy. Springer Science & Business Media
Fwa TF, Tan CY, Chan WT (1994) Road-maintenance planning using genetic algorithms. II: analysis
GAO (2007) Cost assessment guide best practices for estimating and managing program costs. US Government Accountability Office, Washington, DC
Geisler G, Hellweg S, Hungerbühler K (2005) Uncertainty analysis in life cycle assessment (LCA): case study on plant-protection products and implications for decision making. Int J Life Cycle Assess 10:184–192CrossRef
Gluch P, Baumann H (2004) The life cycle costing (LCC) approach: a conceptual discussion of its usefulness for environmental decision-making. Build Environ 39:571–580CrossRef
Goh YM, Newnes LB, Mileham AR et al (2010) Uncertainty in through-life costing—review and perspectives. IEEE Trans Eng Manag 57:689–701CrossRef
Greenberg M, Mayer H, Lewis D (2004) Life‐cycle cost in a highly uncertain economic environment: the case of managing the US Department of Energy’s nuclear waste legacy. Fed Facil Environ J 15:67–82CrossRef
Guo T, Liu T, Li A (2012) Pavement rehabilitation strategy selection for steel suspension bridges based on probabilistic life-cycle cost analysis. J Perform Constr Facil 26:76–83CrossRef
Halog A (2004) An approach to selection of sustainable product improvement alternatives with data uncertainty. J Sustain Prod Des 4:3–19CrossRef
Han G, Srebric J, Enache-Pommer E (2014) Variability of optimal solutions for building components based on comprehensive life cycle cost analysis. Energy Build 79:223–231CrossRef
Heijungs R, Huijbregts MA (2004) A review of approaches to treat uncertainty in LCA. Osnabruck, Germany
Hellweg S (2001) Time-and site-dependent life cycle assessment of thermal waste treatment processes. Int J Life Cycle Assess 6:46–46CrossRef
Helton JC (1994) Treatment of uncertainty in performance assessments for complex systems. Risk Anal 14:483–511CrossRef
Henrion M, Fischhoff B (2013) Assessing uncertainty in physical constants. Judgm Decis Mak 146
Hinow M, Mevissen M (2011) Substation maintenance strategy adaptation for life-cycle cost reduction using genetic algorithm. IEEE Trans Power Deliv 26:197–204CrossRef
Hofstetter P (1998) Perspectives in life cycle impact assessment: a structured approach to combine models of the technosphere, ecosphere, and valuesphere. Springer Science & Business Media
Hong T, Han S, Lee S (2007) Simulation-based determination of optimal life-cycle cost for FRP bridge deck panels. Autom Constr 16:140–152CrossRef
Huijbregts MA (1998) Application of uncertainty and variability in LCA. Int J Life Cycle Assess 3:273–280CrossRef
Huijbregts MA, Gilijamse W, Ragas AM, Reijnders L (2003) Evaluating uncertainty in environmental life-cycle assessment. A case study comparing two insulation options for a Dutch one-family dwelling. Environ Sci Technol 37:2600–2608CrossRef
Hunkeler DJ, Lichtenvort K, Rebitzer G (2008) Environmental life cycle costing. CRC Press, Boca RatonCrossRef
Ilg P, Hoehne C, Guenther E (2016) High-performance materials in infrastructure: a review of applied life cycle costing and its drivers—the case of fiber-reinforced composites. J Clean Prod 12:926–945CrossRef
Iman RL, Shortencarier MJ (1984) FORTRAN 77 program and user’s guide for the generation of Latin hypercube and random samples for use with computer models. Sandia National Labs, AlbuquerqueCrossRef
ISO 15686–5 (2008) Buildings and constructed assets—service-life planning—part 5: life-cycle costing
Isukapalli SS (1999) Uncertainty analysis of transport-transformation models. The State University of New Jersey, Rutgers
Jochimsen R (1966) Theorie der Infrastrucktur: Grundlagen der marktwirtschaftlichen Entwicklung. Mohr Siebeck
Johnson DR, Willis HH, Curtright AE et al (2011) Incorporating uncertainty analysis into life cycle estimates of greenhouse gas emissions from biomass production. Biomass Bioenergy 35:2619–2626CrossRef
Jung P, Seo J, Lee J (2009) Probabilistic value analysis methodology for public water supply systems. Civ Eng Environ Syst 26:141–155CrossRef
Kahneman D, Tversky A (1982) Variants of uncertainty. Cognition 11:143–157CrossRef
Kantola M, Saari A (2013) Renewable vs. traditional energy management solutions—a Finnish hospital facility case. Renew Energy Int J 57:539–545CrossRef
Kavousi-Fard A, Niknam T, Khooban MH (2014) Intelligent stochastic framework to solve the reconfiguration problem from the reliability view. IET Sci Meas Technol 8:245–259CrossRef
Kayrbekova D, Markeset T, Ghodrati B (2011) Activity-based life cycle cost analysis as an alternative to conventional LCC in engineering design. Int J Syst Assur Eng Manag 2:218–225CrossRef
Kim S, Frangopol DM (2011) Inspection and monitoring planning for RC structures based on minimization of expected damage detection delay. Probab Eng Mech 26:308–320CrossRef
Kirkham RJ, Boussabaine AH, Kirkham MP (2002) Stochastic time series forecasting of electricity costs in an NHS acute care hospital building, for use in whole life cycle costing. Eng Constr Archit Manag 9:38–52CrossRef
Kishk M (2004) Combining various facets of uncertainty in whole‐life cost modelling. Constr Manag Econ 22:429–435CrossRef
Klauer B, Manstetten R, Petersen T, Schiller J (2013) The art of long-term thinking: a bridge between sustainability science and politics. Ecol Econ 93:79–84CrossRef
Klir GJ (1996) Uncertainty theories, measures, and principles: an overview of personal views and contributions. In: Natke H, Ben-Haim Y (eds.) Uncertainty: a discussion from various points of view
Klöpffer W, Ciroth A (2011) Is LCC relevant in a sustainability assessment? Int J Life Cycle Assess 16:99–101CrossRef
Koopmans TC (1959) Three essays on the state of economic science. A. M. Kelley Publishers
Kostka G, Anzinger N (2015) Large infrastructure projects in Germany—between ambition and realities. Hertie School of Governance, pp 1–3
Kumar R, Gardoni P, SanchezSilva M (2009) Effect of cumulative seismic damage and corrosion on the lifecycle cost of reinforced concrete bridges. Earthq Eng Struct Dyn 38:887–905CrossRef
Kvale S (1995) The social construction of validity. Qual Inq 1:19–40CrossRef
Lai J, Zhang L, Duffield CF, Aye L (2013) Engineering reliability analysis in risk management framework: development and application in infrastructure project. Int J Appl Math 43:242–249
Lee J-Y, Yoo M, Cha K et al (2009) Life cycle cost analysis to examine the economical feasibility of hydrogen as an alternative fuel. Int J Hydrog Energy 34:4243–4255CrossRef
Levander E, Schade J, Stehn L (2009) Life cycle cost calculation models for buildings & addressing uncertainties about timber housing by whole life costing
Li Z, Madanu S (2009) Highway project level life-cycle benefit/cost analysis under certainty, risk, and uncertainty: methodology with case study. J Transp Eng 135:516–526CrossRef
Lindholm A, Suomala P (2007) Learning by costing: sharpening cost image through life cycle costing? Int J Product Perform Manag 56:651–672CrossRef
Liu G (2014) Development of a general sustainability indicator for renewable energy systems: a review. Renew Sustain Energy Rev 31:611–621CrossRef
Mata É, Sasic Kalagasidis A, Johnsson F (2014) Cost-effective retrofitting of Swedish residential buildings: effects of energy price developments and discount rates. Energy Effic 8:223–327CrossRef
Mavrotas G, Florios K, Vlachou D (2010) Energy planning of a hospital using mathematical programming and Monte Carlo simulation for dealing with uncertainty in the economic parameters. Energy Convers Manag 51:722–731CrossRef
Mayring P (2015) Qualitative Inhaltsanalyse. Beltz Pädagogik
McDonald M, Madanat S (2012) Life-cycle cost minimization and sensitivity analysis for mechanistic-empirical pavement design. J Transp Eng 138:706–713CrossRef
Menikpura SNM, Gheewala S, Bonnet S (2012) Sustainability assessment of municipal solid waste management in Sri Lanka: problems and prospects. J Mater Cycles Waste Manage 14:181–192CrossRef
Mishalani RG, Gong L (2009a) Optimal Sampling of Infrastructure condition: motivation, formulation, and evaluation. J Infrastruct Syst 15:313–320CrossRef
Mishalani RG, Gong L (2009b) Optimal infrastructure condition sampling over space and time for maintenance decision-making under uncertainty. Transp Res B Methodol 43:311–324CrossRef
Mitropoulou CC, Lagaros ND, Papadrakakis M (2011) Life-cycle cost assessment of optimally designed reinforced concrete buildings under seismic actions. Reliab Eng Syst Saf 96:1311–1331CrossRef
Moher D, Klassen TP, Schulz KF et al (2000) What contributions do languages other than English make on the results of meta-analyses? J Clin Epidemiol 53:964–972CrossRef
Moore T, Morrissey J (2014) Lifecycle costing sensitivities for zero energy housing in Melbourne, Australia. Energy Build 79:1–11CrossRef
Morcous G, Lounis Z (2005) Maintenance optimization of infrastructure networks using genetic algorithms. Autom Constr 14:129–142CrossRef
Morgan MG, Henrion M (1990) Uncertainty: a guide to dealing with uncertainty in quantitative risk and policy analysis. Cambridge University Press
Mullard JA, Stewart MG (2012) Life-cycle cost assessment of maintenance strategies for RC structures in chloride environments. J Bridge Eng 17:353–362CrossRef
US National Research Council (2000) Risk analysis and uncertainty in flood damage reduction studies. Committee on Risk-Based Analysis for Flood Damage Reduction
Natke HG, Ben-Haim Y (1997) Uncertainty—a discussion from various points of view. Math Res 99:267–276
Oberkampf WL, Helton JC, Sentz K (2001) Mathematical representation of uncertainty. In: AIAA non-deterministic approaches forum. pp 16–19
Park CS, Sharp-Bette GP (1990) Advanced engineering economics. Wiley
Patra AP, Söderholm P, Kumar U (2009) Uncertainty estimation in railway track life-cycle cost: a case study from Swedish National Rail Administration. Proc Inst Mech Eng F J Rail Rapid Transit 223:285–293CrossRef
Pesonen H-L, Horn S (2013) Evaluating the Sustainability SWOT as a streamlined tool for life cycle sustainability assessment. Int J Life Cycle Assess 18:1780–1792CrossRef
Rathore C, Roy R (2014) A novel modified GBMO algorithm based static transmission network expansion planning. Int J Electr Power Energy Syst 62:519–531CrossRef
Reich MC (2005) Economic assessment of municipal waste management systems—case studies using a combination of life cycle assessment (LCA) and life cycle costing (LCC). J Clean Prod 13:253–263CrossRef
Robert F, Gosselin L (2014) New methodology to design ground coupled heat pump systems based on total cost minimization. Appl Therm Eng 62:481–491CrossRef
Rodríguez Rivero EJ, Emblemsvåg J (2007) Activity-based life-cycle costing in long-range planning. Rev Account Finance 6:370–390CrossRef
Roy R (2003) Cost engineering: why, what and how? Cranfield University, ISBN 1-861940-96-3
Russell AD (1981) Economic risks in energy conservation strategies. Build Environ 16:109–121CrossRef
Saassouh B, Lounis Z (2012) Probabilistic modeling of chloride-induced corrosion in concrete structures using first- and second-order reliability methods. Cem Concr Compos 34:1082–1093CrossRef
Sanyé-Mengual E, Oliver-Solà J, Montero J, Rieradevall J (2015) An environmental and economic life cycle assessment of rooftop greenhouse (RTG) implementation in Barcelona, Spain. Assessing new forms of urban agriculture from the greenhouse structure to the final product level. Int J Life Cycle Assess 20:350–366CrossRef
Schmidt W-P (2003) Life cycle costing as part of design for environment environmental business cases. Int J Life Cycle Assess 8:167–174CrossRef
Scope C, Ilg P, Muench S, Guenther E (2016) Uncertainty in life cycle costing for long-range infrastructure. Part II: guidance and suitability of applied methods to address uncertainty. Int J Life Cycle Assess. doi:10.​1007/​s11367-016-1086-9
Settanni E, Emblemsvåg J (2010) Applying a non-deterministic conceptual life cycle costing model to manufacturing processes. J Model Manag 5:220–262CrossRef
Seuring S, Müller M (2008) From a literature review to a conceptual framework for sustainable supply chain management. J Clean Prod 16:1699–1710CrossRef
Shin H, Singh MP (2014) Minimum failure cost-based energy dissipation system designs for buildings in three seismic regions—part I: elements of failure cost analysis. Eng Struct 74:266–274CrossRef
Simões C, Costa Pinto L, Simoes R, Bernardo CA (2013) Integrating environmental and economic life cycle analysis in product development: a material selection case study. Int J Life Cycle Assess 18:1734–1746CrossRef
Sterner E (2000) Life-cycle costing and its use in the Swedish building sector. Build Res Inf 28:387–393CrossRef
Stützle T, Hoos HH (2000) MAX–MIN ant system. Futur Gener Comput Syst 16:889–914CrossRef
Sullivan WG, Claycombe WW (1977) Fundamentals of forecasting. Prentice Hall
Swarr TE, Hunkeler D, Klöpffer W et al (2011) Environmental life-cycle costing: a code of practice. Int J Life Cycle Assess 16:389–391CrossRef
Tatikonda MV, Rosenthal SR (2000) Technology novelty, project complexity, and product development project execution success: a deeper look at task uncertainty in product innovation. IEEE Trans Eng Manag 47:74–87CrossRef
Terzi S, Serin S (2014) Planning maintenance works on pavements through ant colony optimization. Neural Comput Appl 25:143–153CrossRef
Tighe S (2001) Guidelines for probabilistic pavement life cycle cost analysis. Transp Res Rec 1769:28–38CrossRef
Töpfer A (2012) Wie kann ich mein wissenschaftliches Arbeiten erfolgreich organisieren? In: Erfolgreich Forschen. Springer, pp 367–402
Tranfield D, Denyer D, Smart P (2003) Towards a methodology for developing evidence-informed management knowledge by means of systematic review. Br J Manag 14:207–222CrossRef
Troldborg M, Heslop S, Hough RL (2014) Assessing the sustainability of renewable energy technologies using multi-criteria analysis: suitability of approach for national-scale assessments and associated uncertainties. Renew Sustain Energy Rev 39:1173–1184CrossRef
US Environmental Protection Agency (1997) Exposure factors handbook. Unites States Environmental Protection Agency. Washington, DC
Val DV (2007) Factors affecting life-cycle cost analysis of RC structures in chloride contaminated environments. J Infrastruct Syst 13:135–143CrossRef
van Noortwijk JM, Klatter HE (2004) The use of lifetime distributions in bridge maintenance and replacement modelling. Adv Probabilistic Mech Struct Reliab 82:1091–1099
von Schomberg R (1993) Controversies and political decision making. In: Science, politics and morality. Springer, pp 7–26
Walker WE, Harremoës P, Rotmans J et al (2003) Defining uncertainty: a conceptual basis for uncertainty management in model-based decision support. Integr Assess 4:5–17CrossRef
Walls J, Smith M (1998) Life-cycle cost analysis in pavement design—interim technical bulletin
Wen YK, Kang YJ (2001) Minimum building life-cycle cost design criteria. II: applications. J Struct Eng 127:338–346CrossRef
Willuweit L, O’Sullivan JJ (2013) A decision support tool for sustainable planning of urban water systems: presenting the dynamic urban water simulation model. Water Res 47:7206–7220CrossRef
Xu Y, Elgh F, Erkoyuncu JA et al (2012a) Cost engineering for manufacturing: current and future research. Int J Comput Integr Manuf 25:300–314CrossRef
Xu Y, Xie N, Li W et al (2012b) Phase behaviors and ordering dynamics of diblock copolymer self-assembly directed by lateral hexagonal confinement. J Chem Phys 137:194905CrossRef
Yoner N (2001) Major weapon systems acquisition and life cycle cost estimation: a case study. M.S. thesis, Naval Postgraduate School, Monterey, CA
Zadeh LA (1973) Outline of a new approach to the analysis of complex systems and decision processes. IEEE Trans Syst Man Cybern 28–44
Zakeri B, Syri S (2015) Electrical energy storage systems: a comparative life cycle cost analysis. Renew Sustain Energy Rev 42:569–596CrossRef
Zamagni A (2012) Life cycle sustainability assessment. Int J Life Cycle Assess 17:373–376CrossRef
Metadaten
Titel
Uncertainty in life cycle costing for long-range infrastructure. Part I: leveling the playing field to address uncertainties
verfasst von
Patrick Ilg
Christoph Scope
Stefan Muench
Edeltraud Guenther
Publikationsdatum
05.07.2016
Verlag
Springer Berlin Heidelberg
Erschienen in
The International Journal of Life Cycle Assessment / Ausgabe 2/2017
Print ISSN: 0948-3349
Elektronische ISSN: 1614-7502
DOI
https://doi.org/10.1007/s11367-016-1154-1

Weitere Artikel der Ausgabe 2/2017

The International Journal of Life Cycle Assessment 2/2017 Zur Ausgabe

CRITICAL REVIEW

Implicit prioritization in life cycle assessment: text mining and detecting metapatterns in the literature

REGIONAL TOPICS FROM LATIN AMERICA

Life cycle assessment research in Brazil: characteristics, interdiciplinarity, and applications

LCI METHODOLOGY AND DATABASES

A generalized computational structure for regional life-cycle assessment

LAND USE IN LCA

Life cycle impacts of topsoil erosion on aquatic biota: case study on Eucalyptus globulus forest

CONFERENCE REPORT: 62ND DISCUSSION FORUM ON LCA

LCA and decision making: when and how to use consequential LCA; 62nd LCA forum, Swiss Federal Institute of Technology, Zürich, 9 September 2016

BOOK REVIEW

Special Types of Life Cycle AssessmentEditor: Matthias Finkbeiner