Project Management for Construction_ Cost Estimation
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Go Up to Table of Contents Go To Chapter 4 (Labor, Material and Equipment Utilization) Go To Chapter 6 (Economic Evaluation of Facility Investments) Cost Estimation Costs Associated with Constructed Facilities Approaches to Cost Estimation Type of Construction Cost Estimates Effects of Scale on Construction Cost Unit Cost Method of Estimation Methods for Allocation of Joint Costs Historical Cost Data Cost Indices Applications of Cost Indices to Estimating Estimate Based on Engineer's List of Quantities Allocation of Construction Costs Over Time Computer Aided Cost Estimation Estimation of Operating Costs References Problems Footnotes 5. Cost Estimation 5.1 Costs Associated with Constructed Facilities The costs of a constructed facility to the owner include both the initial capital cost and the subsequent operation and maintenance costs. Each of these major cost categories consists of a number of cost components. The capital cost for a construction project includes the expenses related to the inital establishment of the facility: Land acquisition, including assembly, holding and improvement Planning and feasibility studies Architectural and engineering design Construction, including materials, equipment and labor Field supervision of construction Construction financing Insurance and taxes during construction Owner's general office overhead Equipment and furnishings not included in construction Inspection and testing The operation and maintenance cost in subsequent years over the project life cycle includes the following expenses: Land rent, if applicable Operating staff Labor and material for maintenance and repairs Periodic renovations Insurance and taxes Financing costs Utilities Owner's other expenses The magnitude of each of these cost components depends on the nature, size and location of the project as well as the management organization, among many considerations. The owner is interested in achieving the lowest possible overall project cost that is consistent with its investment objectives. It is important for design professionals and construction managers to realize that while the construction cost may be the single largest component of the capital cost, other cost components are not insignificant. For example, land acquisition costs are a major expenditure for building construction in highdensity urban areas, and construction financing costs can reach the same order of magnitude as the construction cost in large projects such as the construction of nuclear power plants. From the owner's perspective, it is equally important to estimate the corresponding operation and maintenance cost of each
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Project Management for Construction
Transcript of Project Management for Construction_ Cost Estimation
4/4/2015 ProjectManagementforConstruction:CostEstimationhttp://pmbook.ce.cmu.edu/05_Cost_Estimation.html 1/29GoUptoTableofContentsGoToChapter4(Labor,MaterialandEquipmentUtilization)GoToChapter6(EconomicEvaluationofFacilityInvestments)CostEstimationCostsAssociatedwithConstructedFacilitiesApproachestoCostEstimationTypeofConstructionCostEstimatesEffectsofScaleonConstructionCostUnitCostMethodofEstimationMethodsforAllocationofJointCostsHistoricalCostDataCostIndicesApplicationsofCostIndicestoEstimatingEstimateBasedonEngineer'sListofQuantitiesAllocationofConstructionCostsOverTimeComputerAidedCostEstimationEstimationofOperatingCostsReferencesProblemsFootnotes5.CostEstimation5.1CostsAssociatedwithConstructedFacilitiesThecostsofaconstructedfacilitytotheownerincludeboththeinitialcapitalcostandthesubsequentoperationandmaintenancecosts.Eachofthesemajorcostcategoriesconsistsofanumberofcostcomponents.Thecapitalcostforaconstructionprojectincludestheexpensesrelatedtotheinitalestablishmentofthefacility:Landacquisition,includingassembly,holdingandimprovementPlanningandfeasibilitystudiesArchitecturalandengineeringdesignConstruction,includingmaterials,equipmentandlaborFieldsupervisionofconstructionConstructionfinancingInsuranceandtaxesduringconstructionOwner'sgeneralofficeoverheadEquipmentandfurnishingsnotincludedinconstructionInspectionandtestingTheoperationandmaintenancecostinsubsequentyearsovertheprojectlifecycleincludesthefollowingexpenses:Landrent,ifapplicableOperatingstaffLaborandmaterialformaintenanceandrepairsPeriodicrenovationsInsuranceandtaxesFinancingcostsUtilitiesOwner'sotherexpensesThemagnitudeofeachofthesecostcomponentsdependsonthenature,sizeandlocationoftheprojectaswellasthemanagementorganization,amongmanyconsiderations.Theownerisinterestedinachievingthelowestpossibleoverallprojectcostthatisconsistentwithitsinvestmentobjectives.Itisimportantfordesignprofessionalsandconstructionmanagerstorealizethatwhiletheconstructioncostmaybethesinglelargestcomponentofthecapitalcost,othercostcomponentsarenotinsignificant.Forexample,landacquisitioncostsareamajorexpenditureforbuildingconstructioninhighdensityurbanareas,andconstructionfinancingcostscanreachthesameorderofmagnitudeastheconstructioncostinlargeprojectssuchastheconstructionofnuclearpowerplants.Fromtheowner'sperspective,itisequallyimportanttoestimatethecorrespondingoperationandmaintenancecostofeach4/4/2015 ProjectManagementforConstruction:CostEstimationhttp://pmbook.ce.cmu.edu/05_Cost_Estimation.html 2/29alternativeforaproposedfacilityinordertoanalyzethelifecyclecosts.Thelargeexpendituresneededforfacilitymaintenance,especiallyforpubliclyownedinfrastructure,areremindersoftheneglectinthepasttoconsiderfullytheimplicationsofoperationandmaintenancecostinthedesignstage.Inmostconstructionbudgets,thereisanallowanceforcontingenciesorunexpectedcostsoccuringduringconstruction.Thiscontingencyamountmaybeincludedwithineachcostitemorbeincludedinasinglecategoryofconstructioncontingency.Theamountofcontingencyisbasedonhistoricalexperienceandtheexpecteddifficultyofaparticularconstructionproject.Forexample,oneconstructionfirmmakesestimatesoftheexpectedcostinfivedifferentareas:Designdevelopmentchanges,Scheduleadjustments,Generaladministrationchanges(suchaswagerates),Differingsiteconditionsforthoseexpected,andThirdpartyrequirementsimposedduringconstruction,suchasnewpermits.Contingentamountsnotspentforconstructioncanbereleasedneartheendofconstructiontotheownerortoaddadditionalprojectelements.Inthischapter,weshallfocusontheestimationofconstructioncost,withonlyoccasionalreferencetoothercostcomponents.InChapter6,weshalldealwiththeeconomicevaluationofaconstructedfacilityonthebasisofboththecapitalcostandtheoperationandmaintenancecostinthelifecycleofthefacility.Itisatthisstagethattradeoffsbetweenoperatingandcapitalcostscanbeanalyzed.Example51:Energyprojectresourcedemands[1]Theresourcesdemandsforthreetypesofmajorenergyprojectsinvestigatedduringtheenergycrisisinthe1970'sareshowninTable51.Theseprojectsare:(1)anoilshaleprojectwithacapacityof50,000barrelsofoilproductperday(2)acoalgasificationprojectthatmakesgaswithaheatingvalueof320billionsofBritishthermalunitsperday,orequivalenttoabout50,000barrelsofoilproductperdayand(3)atarsandprojectwithacapacityof150,000barrelsofoilproductperday.Foreachproject,thecostinbillionsofdollars,theengineeringmanpowerrequirementforbasicdesigninthousandsofhours,theengineeringmanpowerrequirementfordetailedengineeringinmillionsofhours,theskilledlaborrequirementforconstructioninmillionsofhoursandthematerialrequirementinbillionsofdollarsareshowninTable51.Tobuildseveralprojectsofsuchanorderofmagnitudeconcurrentlycoulddriveupthecostsandstraintheavailabilityofallresourcesrequiredtocompletetheprojects.Consequently,costestimationoftenrepresentsanexerciseinprofessionaljudgmentinsteadofmerelycompilingabillofquantitiesandcollectingcostdatatoreachatotalestimatemechanically.TABLE51ResourceRequirementsofSomeMajorEnergyProjectsOilshale(50,000barrels/day)Coalgasification(320billionsBTU/day)TarSands(150,000barrels/day)Cost($billion)2.5 4 8to10Basicdesign(Thousandsofhours)80 200 100Detailedengineering(Millionsofhours)3to4 4to5 6to8Construction(Millionsofhours)20 30 40Materials($billion)1 2 2.5Source:ExxonResearchandEngineeringCompany,FlorhamPark,NJBacktotop5.2ApproachestoCostEstimationCostestimatingisoneofthemostimportantstepsinprojectmanagement.Acostestimateestablishesthebaselineoftheprojectcostatdifferentstagesofdevelopmentoftheproject.Acostestimateatagivenstageofprojectdevelopmentrepresentsapredictionprovidedbythecostengineerorestimatoronthebasisofavailabledata.AccordingtotheAmericanAssociationofCostEngineers,costengineeringisdefinedasthatareaofengineeringpracticewhereengineeringjudgment4/4/2015 ProjectManagementforConstruction:CostEstimationhttp://pmbook.ce.cmu.edu/05_Cost_Estimation.html 3/29andexperienceareutilizedintheapplicationofscientificprinciplesandtechniquestotheproblemofcostestimation,costcontrolandprofitability.Virtuallyallcostestimationisperformedaccordingtooneorsomecombinationofthefollowingbasicapproaches:Productionfunction.Inmicroeconomics,therelationshipbetweentheoutputofaprocessandthenecessaryresourcesisreferredtoastheproductionfunction.Inconstruction,theproductionfunctionmaybeexpressedbytherelationshipbetweenthevolumeofconstructionandafactorofproductionsuchaslabororcapital.Aproductionfunctionrelatestheamountorvolumeofoutputtothevariousinputsoflabor,materialandequipment.Forexample,theamountofoutputQmaybederivedasafunctionofvariousinputfactorsx1,x2,...,xnbymeansofmathematicaland/orstatisticalmethods.Thus,foraspecifiedlevelofoutput,wemayattempttofindasetofvaluesfortheinputfactorssoastominimizetheproductioncost.Therelationshipbetweenthesizeofabuildingproject(expressedinsquarefeet)totheinputlabor(expressedinlaborhourspersquarefoot)isanexampleofaproductionfunctionforconstruction.SeveralsuchproductionfunctionsareshowninFigure33ofChapter3.Empiricalcostinference.Empiricalestimationofcostfunctionsrequiresstatisticaltechniqueswhichrelatethecostofconstructingoroperatingafacilitytoafewimportantcharacteristicsorattributesofthesystem.Theroleofstatisticalinferenceistoestimatethebestparametervaluesorconstantsinanassumedcostfunction.Usually,thisisaccomplishedbymeansofregressionanalysistechniques.Unitcostsforbillofquantities.Aunitcostisassignedtoeachofthefacilitycomponentsortasksasrepresentedbythebillofquantities.Thetotalcostisthesummationoftheproductsofthequantitiesmultipliedbythecorrespondingunitcosts.Theunitcostmethodisstraightforwardinprinciplebutquitelaboriousinapplication.Theinitialstepistobreakdownordisaggregateaprocessintoanumberoftasks.Collectively,thesetasksmustbecompletedfortheconstructionofafacility.Oncethesetasksaredefinedandquantitiesrepresentingthesetasksareassessed,aunitcostisassignedtoeachandthenthetotalcostisdeterminedbysummingthecostsincurredineachtask.Thelevelofdetailindecomposingintotaskswillvaryconsiderablyfromoneestimatetoanother.Allocationofjointcosts.Allocationsofcostfromexistingaccountsmaybeusedtodevelopacostfunctionofanoperation.Thebasicideainthismethodisthateachexpenditureitemcanbeassignedtoparticularcharacteristicsoftheoperation.Ideally,theallocationofjointcostsshouldbecausallyrelatedtothecategoryofbasiccostsinanallocationprocess.Inmanyinstances,however,acausalrelationshipbetweentheallocationfactorandthecostitemcannotbeidentifiedormaynotexist.Forexample,inconstructionprojects,theaccountsforbasiccostsmaybeclassifiedaccordingto(1)labor,(2)material,(3)constructionequipment,(4)constructionsupervision,and(5)generalofficeoverhead.Thesebasiccostsmaythenbeallocatedproportionallytovarioustaskswhicharesubdivisionsofaproject.Backtotop5.3TypesofConstructionCostEstimatesConstructioncostconstitutesonlyafraction,thoughasubstantialfraction,ofthetotalprojectcost.However,itisthepartofthecostunderthecontroloftheconstructionprojectmanager.Therequiredlevelsofaccuracyofconstructioncostestimatesvaryatdifferentstagesofprojectdevelopment,rangingfromballparkfiguresintheearlystagetofairlyreliablefiguresforbudgetcontrolpriortoconstruction.Sincedesigndecisionsmadeatthebeginningstageofaprojectlifecyclearemoretentativethanthosemadeatalaterstage,thecostestimatesmadeattheearlierstageareexpectedtobelessaccurate.Generally,theaccuracyofacostestimatewillreflecttheinformationavailableatthetimeofestimation.Constructioncostestimatesmaybeviewedfromdifferentperspectivesbecauseofdifferentinstitutionalrequirements.Inspiteofthemanytypesofcostestimatesusedatdifferentstagesofaproject,costestimatescanbestbeclassifiedintothreemajorcategoriesaccordingtotheirfunctions.Aconstructioncostestimateservesoneofthethreebasicfunctions:design,bidandcontrol.Forestablishingthefinancingofaproject,eitheradesignestimateorabidestimateisused.1. DesignEstimates.Fortheowneroritsdesignateddesignprofessionals,thetypesofcostestimatesencounteredrunparallelwiththeplanninganddesignasfollows:Screeningestimates(ororderofmagnitudeestimates)Preliminaryestimates(orconceptualestimates)Detailedestimates(ordefinitiveestimates)Engineer'sestimatesbasedonplansandspecificationsForeachofthesedifferentestimates,theamountofdesigninformationavailabletypicallyincreases.2. BidEstimates.Forthecontractor,abidestimatesubmittedtotheownereitherforcompetitivebiddingornegotiationconsistsofdirectconstructioncostincludingfieldsupervision,plusamarkuptocovergeneraloverheadandprofits.Thedirectcostofconstructionforbidestimatesisusuallyderivedfromacombinationofthefollowingapproaches.SubcontractorquotationsQuantitytakeoffsConstructionprocedures.3. 3.ControlEstimates.Formonitoringtheprojectduringconstruction,acontrolestimateisderivedfromavailable4/4/2015 ProjectManagementforConstruction:CostEstimationhttp://pmbook.ce.cmu.edu/05_Cost_Estimation.html 4/29informationtoestablish:BudgetestimateforfinancingBudgetedcostaftercontractingbutpriortoconstructionEstimatedcosttocompletionduringtheprogressofconstruction.DesignEstimatesIntheplanninganddesignstagesofaproject,variousdesignestimatesreflecttheprogressofthedesign.Attheveryearlystage,thescreeningestimateororderofmagnitudeestimateisusuallymadebeforethefacilityisdesigned,andmustthereforerelyonthecostdataofsimilarfacilitiesbuiltinthepast.Apreliminaryestimateorconceptualestimateisbasedontheconceptualdesignofthefacilityatthestatewhenthebasictechnologiesforthedesignareknown.Thedetailedestimateordefinitiveestimateismadewhenthescopeofworkisclearlydefinedandthedetaileddesignisinprogresssothattheessentialfeaturesofthefacilityareidentifiable.Theengineer'sestimateisbasedonthecompletedplansandspecificationswhentheyarereadyfortheownertosolicitbidsfromconstructioncontractors.Inpreparingtheseestimates,thedesignprofessionalwillincludeexpectedamountsforcontractors'overheadandprofits.Thecostsassociatedwithafacilitymaybedecomposedintoahierarchyoflevelsthatareappropriateforthepurposeofcostestimation.Thelevelofdetailindecomposingthefacilityintotasksdependsonthetypeofcostestimatetobeprepared.Forconceptualestimates,forexample,thelevelofdetailindefiningtasksisquitecoarsefordetailedestimates,thelevelofdetailcanbequitefine.Asanexample,considerthecostestimatesforaproposedbridgeacrossariver.Ascreeningestimateismadeforeachofthepotentialalternatives,suchasatiedarchbridgeoracantilevertrussbridge.Asthebridgetypeisselected,e.g.thetechnologyischosentobeatiedarchbridgeinsteadofsomenewbridgeform,apreliminaryestimateismadeonthebasisofthelayoutoftheselectedbridgeformonthebasisofthepreliminaryorconceptualdesign.Whenthedetaileddesignhasprogressedtoapointwhentheessentialdetailsareknown,adetailedestimateismadeonthebasisofthewelldefinedscopeoftheproject.Whenthedetailedplansandspecificationsarecompleted,anengineer'sestimatecanbemadeonthebasisofitemsandquantitiesofwork.BidEstimatesThecontractor'sbidestimatesoftenreflectthedesireofthecontractortosecurethejobaswellastheestimatingtoolsatitsdisposal.Somecontractorshavewellestablishedcostestimatingprocedureswhileothersdonot.Sinceonlythelowestbidderwillbethewinnerofthecontractinmostbiddingcontests,anyeffortdevotedtocostestimatingisalosstothecontractorwhoisnotasuccessfulbidder.Consequently,thecontractormayputintheleastamountofpossibleeffortformakingacostestimateifitbelievesthatitschanceofsuccessisnothigh.Ifageneralcontractorintendstousesubcontractorsintheconstructionofafacility,itmaysolicitpricequotationsforvarioustaskstobesubcontractedtospecialtysubcontractors.Thus,thegeneralsubcontractorwillshifttheburdenofcostestimatingtosubcontractors.Ifallorpartoftheconstructionistobeundertakenbythegeneralcontractor,abidestimatemaybepreparedonthebasisofthequantitytakeoffsfromtheplansprovidedbytheowneroronthebasisoftheconstructionproceduresdevisedbythecontractorforimplementingtheproject.Forexample,thecostofafootingofacertaintypeandsizemaybefoundincommercialpublicationsoncostdatawhichcanbeusedtofacilitatecostestimatesfromquantitytakeoffs.However,thecontractormaywanttoassesstheactualcostofconstructionbyconsideringtheactualconstructionprocedurestobeusedandtheassociatedcostsiftheprojectisdeemedtobedifferentfromtypicaldesigns.Hence,itemssuchaslabor,materialandequipmentneededtoperformvarioustasksmaybeusedasparametersforthecostestimates.ControlEstimatesBoththeownerandthecontractormustadoptsomebaselineforcostcontrolduringtheconstruction.Fortheowner,abudgetestimatemustbeadoptedearlyenoughforplanninglongtermfinancingofthefacility.Consequently,thedetailedestimateisoftenusedasthebudgetestimatesinceitissufficientdefinitivetoreflecttheprojectscopeandisavailablelongbeforetheengineer'sestimate.Astheworkprogresses,thebudgetedcostmustberevisedperiodicallytoreflecttheestimatedcosttocompletion.Arevisedestimatedcostisnecessaryeitherbecauseofchangeordersinitiatedbytheownerorduetounexpectedcostoverrunsorsavings.Forthecontractor,thebidestimateisusuallyregardedasthebudgetestimate,whichwillbeusedforcontrolpurposesaswellasforplanningconstructionfinancing.Thebudgetedcostshouldalsobeupdatedperiodicallytoreflecttheestimatedcosttocompletionaswellastoinsureadequatecashflowsforthecompletionoftheproject.Example52:Screeningestimateofagroutingsealbeneathalandfill[2]OneofthemethodsofisolatingalandfillfromgroundwateristocreateabowlshapedbottomsealbeneaththesiteasshowninFigure50.Thesealisconstructedbypumpingorpressureinjectinggroutundertheexistinglandfill.Holesareboredatregularintervalsthroughoutthelandfillforthispurposeandthegrouttubesareextendedfromthesurfacetothebottomofthelandfill.Alayerofsoilataminimumof5ft.thickisleftbetween4/4/2015 ProjectManagementforConstruction:CostEstimationhttp://pmbook.ce.cmu.edu/05_Cost_Estimation.html 5/29thegroutedmaterialandthelandfillcontentstoallowforirregularitiesinthebottomofthelandfill.Thegroutlinercanbebetween4and6feetthick.AtypicalmaterialwouldbePortlandcementgroutpumpedunderpressurethroughtubestofillvoidsinthesoil.Thisgroutwouldthenhardenintoapermanent,impermeableliner.Figure51:GroutBottomSealLinerataLandfillTheworkitemsinthisprojectinclude(1)drillingexploratoryboreholesat50ftintervalsforgrouttubes,and(2)pumpinggroutintothevoidsofasoillayerbetween4and6ftthick.Thequantitiesforthesetwoitemsareestimatedonthebasisofthelandfillarea:8acres=(8)(43,560ft2/acre)=348,480ft2(Asanapproximation,use360,000ft2toaccountforthebowlshape)Thenumberofboreholesina50ftby50ftgridpatterncovering360,000ft2isgivenby:Theaveragedepthoftheboreholesisestimatedtobe20ft.Hence,thetotalamountofdrillingis(144)(20)=2,880ft.Thevolumeofthesoillayerforgroutingisestimatedtobe:fora4ftlayer,volume=(4ft)(360,000ft2)=1,440,000ft3fora6ftlayer,volume=(6ft)(360,000ft2)=2,160,000ft3Itisestimatedfromsoilteststhatthevoidsinthesoillayerarebetween20%and30%ofthetotalvolume.Thus,fora4ftsoillayer:groutingin20%voids=(20%)(1,440,000)=288,000ft3groutingin30%voids=(30%)(1,440,000)=432,000ft3andfora6ftsoillayer:groutingin20%voids=(20%)(2,160,000)=432,000ft3groutingin30%voids=(30%)(2,160,000)=648,000ft3Theunitcostfordrillingexploratoryboreholesisestimatedtobebetween$3and$10perfoot(in1978dollars)4/4/2015 ProjectManagementforConstruction:CostEstimationhttp://pmbook.ce.cmu.edu/05_Cost_Estimation.html 6/29includingallexpenses.Thus,thetotalcostofboringwillbebetween(2,880)(3)=$8,640and(2,880)(10)=$28,800.TheunitcostofPortlandcementgroutpumpedintoplaceisbetween$4and$10percubicfootincludingoverheadandprofit.Inadditiontothevariationintheunitcost,thetotalcostofthebottomsealwilldependuponthethicknessofthesoillayergroutedandtheproportionofvoidsinthesoil.Thatis:fora4ftlayerwith20%voids,groutingcost=$1,152,000to$2,880,000fora4ftlayerwith30%voids,groutingcost=$1,728,000to$4,320,000fora6ftlayerwith20%voids,groutingcost=$1,728,000to$4,320,000fora6ftlayerwith30%voids,groutingcost=$2,592,000to$6,480,000Thetotalcostofdrillingboreholesissosmallincomparisonwiththecostofgroutingthattheformercanbeomittedinthescreeningestimate.Furthermore,therangeofunitcostvariesgreatlywithsoilcharacteristics,andtheengineermustexercisejudgmentinnarrowingtherangeofthetotalcost.Alternatively,additionalsoiltestscanbeusedtobetterestimatetheunitcostofpumpinggroutandtheproportionofvoidsinthesoil.Supposethat,inadditiontoignoringthecostofboreholes,anaveragevalueofa5ftsoillayerwith25%voidsisusedtogetherwithaunitcostof$7percubicfootofPortlandcementgrouting.Inthiscase,thetotalprojectcostisestimatedtobe:(5ft)(360,000ft2)(25%)($7/ft3)=$3,150,000Animportantpointtonoteisthatthisscreeningestimateisbasedtoalargedegreeonengineeringjudgmentofthesoilcharacteristics,andtherangeoftheactualcostmayvaryfrom$1,152,000to$6,480,000eventhoughtheprobabilitiesofhavingactualcostsattheextremesarenotveryhigh.Example53:Exampleofengineer'sestimateandcontractors'bids[3]Theengineer'sestimateforaprojectinvolving14milesofInterstate70roadwayinUtahwas$20,950,859.BidsweresubmittedonMarch10,1987,forcompletingtheprojectwithin320workingdays.Thethreelowbidderswere:1.Ball,Ball&Brosame,Inc.,DanvilleCA $14,129,7982.NationalProjects,Inc.,Phoenix,AR $15,381,7893.KiewitWesternCo.,Murray,Utah $18,146,714Itwasastoundingthatthewinningbidwas32%belowtheengineer'sestimate.Eventhethirdlowestbidderwas13%belowtheengineer'sestimateforthisproject.ThedisparityinpricingcanbeattributedeithertotheveryconservativeestimateoftheengineerintheUtahDepartmentofTransportationortoareacontractorswhoarehungrierthanusualtowinjobs.Theunitpricesfordifferentitemsofworksubmittedforthisprojectby(1)Ball,Ball&Brosame,Inc.and(2)NationalProjects,Inc.areshowninTable52.Thesimilarityoftheirunitpricesforsomeitemsandthedisparityinotherssubmittedbythetwocontractorscanbenoted.TABLE52:UnitPricesinTwoContractors'BidsforRoadwayConstructionItems Unit QuantityUnitprice1 2Mobilization ls 1 115,000 569,554Removal,berm lf 8,020 1.00 1.50Finishsubgrade sy 1,207,500 0.50 0.30Surfaceditches lf 525 2.00 1.00Excavationstructures cy 7,000 3.00 5.00Basecourse,untreated,3/4'' ton 362,200 4.50 5.00Leanconcrete,4''thick sy 820,310 3.10 3.00PCC,pavement,10''thick sy 76,010 10.90 12.00Concrete,ciAA(AE) ls 1 200,000 190,000Smallstructure cy 50 500 475Barrier,precast lf 7,920 15.00 16.00Flatwork,4''thick sy 7,410 10.00 8.004/4/2015 ProjectManagementforConstruction:CostEstimationhttp://pmbook.ce.cmu.edu/05_Cost_Estimation.html 7/2910''thick sy 4,241 20.00 27.00Slopeprotection sy 2,104 25.00 30.00Metal,endsection,15'' ea 39 100 12518'' ea 3 150 200Post,rightofway,modification lf 4,700 3.00 2.50Salvageandrelaypipe lf 1,680 5.00 12.00Looseriprap cy 32 40.00 30.00Bracedposts ea 54 100 110Delineators,typeI lb 1,330 12.00 12.00typeII ea 140 15.00 12.00Constructivesignsfixed sf 52,600 0.10 0.40Barricades,typeIII lf 29,500 0.20 0.20Warninglights day 6,300 0.10 0.50Pavementmarking,epoxymaterial Black gal 475 90.00 100Yellow gal 740 90.00 80.00White gal 985 90.00 70.00Plowable,onewaywhite ea 342 50.00 20.00Topsoil,contractorfurnished cy 260 10.00 6.00Seedling,methodA acr 103 150 200Excelsiorblanket sy 500 2.00 2.00Corrugated,metalpipe,18'' lf 580 20.00 18.00Polyethylenepipe,12'' lf 2,250 15.00 13.00Catchbasingrateandframe ea 35 350 280Equalopportunitytraining hr 18,000 0.80 0.80Granularbackfillborrow cy 274 10.00 16.00Drillcaisson,2'x6'' lf 722 100 80.00Flagging hr 20,000 8.25 12.50Prestressedconcretemember typeIV,141'x4'' ea 7 12,000 16.00132'x4'' ea 6 11,000 14.00Reinforcedsteel lb 6,300 0.60 0.50Epoxycoated lb 122,241 0.55 0.50Structuralsteel ls 1 5,000 1,600Sign,covering sf 16 10.00 4.00typeC2woodpost sf 98 15.00 17.0024'' ea 3 100 40030'' ea 2 100 16048'' ea 11 200 300Auxiliary sf 61 15.00 12.00Steelpost,48''x60'' ea 11 500 700type3,woodpost sf 669 15.00 19.0024'' ea 23 100 12530'' ea 1 100 15036'' ea 12 150 18042''x60'' ea 8 150 22048'' ea 7 200 270Auxiliary sf 135 15.00 13.00Steelpost sf 1,610 40.00 35.0012''x36'' ea 28 100 1504/4/2015 ProjectManagementforConstruction:CostEstimationhttp://pmbook.ce.cmu.edu/05_Cost_Estimation.html 8/29Foundation,concrete ea 60 300 650Barricade,48''x42'' ea 40 100 100Woodpost,roadclosed lf 100 30.00 36.00Backtotop5.4EffectsofScaleonConstructionCostScreeningcostestimatesareoftenbasedonasinglevariablerepresentingthecapacityorsomephysicalmeasureofthedesignsuchasfloorareainbuildings,lengthofhighways,volumeofstoragebinsandproductionvolumesofprocessingplants.Costsdonotalwaysvarylinearlywithrespecttodifferentfacilitysizes.Typically,scaleeconomiesordiseconomiesexist.Iftheaveragecostperunitofcapacityisdeclining,thenscaleeconomiesexist.Conversely,scalediseconomiesexistifaveragecostsincreasewithgreatersize.Empiricaldataaresoughttoestablishtheeconomiesofscaleforvarioustypesoffacility,iftheyexist,inordertotakeadvantageoflowercostsperunitofcapacity.Letxbeavariablerepresentingthefacilitycapacity,andybetheresultingconstructioncost.Then,alinearcostrelationshipcanbeexpressedintheform:(5.1)whereaandbarepositiveconstantstobedeterminedonthebasisofhistoricaldata.NotethatinEquation(5.1),afixedcostofy=aatx=0isimpliedasshowninFigure52.Ingeneral,thisrelationshipisapplicableonlyinacertainrangeofthevariablex,suchasbetweenx=candx=d.Ifthevaluesofycorrespondingtox=candx=dareknown,thenthecostofafacilitycorrespondingtoanyxwithinthespecifiedrangemaybeobtainedbylinearinterpolation.Forexample,theconstructioncostofaschoolbuildingcanbeestimatedonthebasisofalinearrelationshipbetweencostandfloorareaiftheunitcostpersquarefootoffloorareaisknownforschoolbuildingswithincertainlimitsofsize.Figure52:LinearCostRelationshipwithEconomiesofScaleAnonlinearcostrelationshipbetweenthefacilitycapacityxandconstructioncostycanoftenberepresentedintheform:(5.2)whereaandbarepositiveconstantstobedeterminedonthebasisofhistoricaldata.For0
