Contemporary Engineering Economics, 4 th edition, © 2007 Life-Cycle Cost Analysis Lecture No.22 Chapter 6 Contemporary Engineering Economics Copyright.

Slides:



Advertisements
Similar presentations
Capital Budgeting Decisions
Advertisements

ENERGY SAVING Product Offering COMPRESSOR MARKETING OPPORTUNITIES.
SAMPLE SLIDES OF THE 1-DAY SEMINAR FOR PUMP USERS
Contemporary Engineering Economics, 4 th edition, © 2007 Replacement Analysis Fundamentals Lecture No. 56 Chapter 14 Contemporary Engineering Economics.
Lecture No.13 Chapter 4 Contemporary Engineering Economics Copyright © 2010 Contemporary Engineering Economics, 5th edition, © 2010.
Interest Formulas (Gradient Series)
Annual Worth Analysis Lecture No.18 Professor C. S. Park Fundamentals of Engineering Economics Copyright © 2005.
Contemporry Engineering Economics, 4 th edition, © 2007 Equivalence Calculations with Continuous Payments Lecture No.12 Chapter 4 Contemporary Engineering.
Dealing With Uncertainty
Present Worth Analysis Lecture No.15 Professor C. S. Park Fundamentals of Engineering Economics Copyright © 2005.
Contemporary Engineering Economics, 4 th edition © 2007 Economic Equivalence Lecture No.5 Chapter 3 Contemporary Engineering Economics Copyright © 2006.
Interest Formulas – Equal Payment Series
Contemporary Engineering Economics, 4 th edition, © 2007 Discounted Cash Flow Analysis Lecture No.16 Chapter 5 Contemporary Engineering Economics Copyright.
Contemporary Engineering Economics, 4 th edition, © 2007 Debt Management Lecture No.13 Chapter 4 Contemporary Engineering Economics Copyright © 2006.
Contemporary engineering Economics, 4 th edition, © 2007 Design Economics Lecture No.23 Chapter 6 Contemporary Engineering Economics Copyright © 2006.
Lecture No. 38 Chapter 12 Contemporary Engineering Economics Copyright © 2010 Contemporary Engineering Economics, 5th edition, © 2010.
Interest Formulas – Equal Payment Series
Chapter 8 Annual Equivalent Worth Analysis
Irrigation Pumping Plants By Blaine Hanson University of California, Davis.
Energy Efficient Motor Drive Systems. Motor Electricity Use Motors consume about 75% of all the electricity used by industry. Their popularity is a testament.
Specifying Pumps. Prepared by Martin Ryan, 2013 Training Series: Using Aspen Technology Economic Evaluation Suite.
Considerations for Selecting VFD’s Quentin Nesbitt, PE Agricultural Engineer Idaho Power Company.
Annual Equivalent Worth Criterion
Contemporary Engineering Economics, 4 th edition, © 2007 Economic Service Life Lecture No. 57 Chapter 14 Contemporary Engineering Economics Copyright ©
Lecture slides to accompany
POWER SAVING BY ROCKSOLID INDUSTRIAL SOLUTIONS SYSTEMS REQUIRING PUMPS USING VALVE CONTROL SYSTEMS REQUIRING FANS USING DAMPER CONTROL SAVE GOOD $MONEY$
Jen Muir JKMuir, LLC Leo H. LeBoeuf CL&P
Engineering Economy IEN255 Chapter 5 - Annual Equivalent Worth Analysis  Another common method  Equal payments on an annual basis  Convert NPW to AE.
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Annual Equivalent Worth Criterion.
Lecture No.19 Chapter 6 Contemporary Engineering Economics Copyright © 2010 Contemporary Engineering Economics, 5 th edition, © 2010.
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Debt Management Lecture No. 13 Chapter.
SAMPLE SLIDES OF THE 2-DAY SEMINAR FOR ENGINEERS As you will notice there are few words on these slides, your trainer will provide you with his experience.
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Life-Cycle Cost Analysis Lecture.
Energy and Water Savings Presented by Bill Power Power Services, Inc San Mateo County Ag Workshop December 5, 2014.
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Replacement Analysis Fundamentals.
Chapter 2: Cost Concepts and Design Economics
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Design Economics Lecture No. 22 Chapter.
Lecture No.20 Chapter 6 Contemporary Engineering Economics Copyright © 2010 Contemporary Engineering Economics, 5 th edition, © 2010.
Lecture No.5 Chapter 3 Contemporary Engineering Economics Copyright © 2010 Contemporary Engineering Economics, 5 th edition © 2010.
Matakuliah: D0762 – Ekonomi Teknik Tahun: 2009 Present Worth and Annual Worth Course Outline 6.
Deemed Calculation for Variable Speed Drives on Milking Machine Vacuum Pumps May 7, 2002.
Irregular Payment Series and Unconventional Equivalence Calculations
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Discounted Cash Flow Analysis Lecture.
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Applying Annual Worth Analysis Lecture.
Contemporary Engineering Economics, 4 th edition, © 2007 Applying Annual Worth Analysis Lecture No.20 Chapter 6 Contemporary Engineering Economics Copyright.
Lecture No. 9 Chapter 3 Contemporary Engineering Economics Copyright © 2010 Contemporary Engineering Economics, 5th edition, © 2010.
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Interest Formulas – Equal Payment.
Compressed Air Managing the Costs National Grid Upstate Energy Efficiency Conference April 2011.
1 ME444 ENGINEERING PIPING SYSTEM DESIGN CHAPTER 6 : PUMPS.
L18: Annual Worth Analysis ECON 320 Engineering Economics Mahmut Ali GOKCE Industrial Systems Engineering Computer Sciences.
Chapter 6 Annual Equivalent Worth Criterion. Chapter 6 Annual Equivalence Analysis  Annual equivalent criterion  Applying annual worth analysis  Mutually.
ENERGY CONSERVATION IN MOTOR SYSTEMS. Introduction 2.
Annual Equivalence Analysis Chapter 6 Fundmentals of Engineering Economics Copyright © 2008.
Copyright 2011, Toshiba Corporation. Toshiba International Corp - Houston Tx Jim Hartzel Section Mgr - Water / Waste Water Business 20 Yrs Field Service.
Methods of Describing Project Risk
Irrigation Pumping Plants
Equivalence Calculations with Continuous Payments
Equivalence Calculations with Continuous Payments
Interest Formulas – Equal Payment Series
Annual Equivalent Worth Criterion
Discounted Cash Flow Analysis
Economic Equivalence Lecture No.5 Chapter 3
Variable Frequency Drive Savings Calculator Tools
Parul Institute of Technology
Traditional Water Booster System
ME444 ENGINEERING PIPING SYSTEM DESIGN
Chapter 2: Cost Concepts and Design Economics
Contemporary Engineering Economics
Applying Annual Worth Analysis
Presentation transcript:

Contemporary Engineering Economics, 4 th edition, © 2007 Life-Cycle Cost Analysis Lecture No.22 Chapter 6 Contemporary Engineering Economics Copyright © 2006

Contemporary Engineering Economics, 4 th edition, © 2007 Why Life-Cycle Cost (LCC) Analysis? To select from among design alternatives that fulfill the same performance requirements, but differ with respect to initial costs and operating costs To predict the most cost-effective solution

Contemporary Engineering Economics, 4 th edition, © 2007 Stages of Life-Cycle Cost

Contemporary Engineering Economics, 4 th edition, © 2007 Sketch of a Pumping System in Which the Control Valve Fails

Contemporary Engineering Economics, 4 th edition, © 2007 Engineering Solution Alternatives Option A: A new control valve can be installed to accommodate the high pressure differential. Option B: The pump impeller can be trimmed so that the pump does not develop as much head, resulting in a lower pressure drop across the current valve. Option C: A variable frequency drive (VFD) can be installed, and the flow control valve removed. The VFD can vary the pump speed and thus achieve the desired process flow. Option D: The system can be left as it is, with a yearly repair of the flow control valve to be expected.

Contemporary Engineering Economics, 4 th edition, © 2007 Life-Cycle Cost Elements

Contemporary Engineering Economics, 4 th edition, © 2007 Cost Comparison for Options A Through D

Contemporary Engineering Economics, 4 th edition, © 2007 Sample LCC Calculation for Option A

Contemporary Engineering Economics, 4 th edition, © 2007 Comparison of LCC for Option A - D

Contemporary Engineering Economics, 4 th edition, © 2007 StandardPremium MotorEfficient Motor25 HP $13,000$15,60020 Years$0 89.5%93%$0.07/kWh3,120 hrs/yr. Size Cost Life Salvage Efficiency Energy Cost Operating Hours (a) At i= 13%, determine the operating cost per kWh for each motor. (b) At what operating hours are they equivalent? Life-Cycle Cost Analysis – Standard Motor versus Premium Efficiency Motor

Contemporary Engineering Economics, 4 th edition, © 2007 Solution: (a):  Operating cost per kWh per unit Determine total input power  Conventional motor: input power = kW/ = kW  PE motor: input power = kW/ 0.93 = kW

Contemporary Engineering Economics, 4 th edition, © 2007  Determine total kWh per year with 3120 hours of operation  Conventional motor: 3120 hrs/yr ( kW) = 65,018 kWh/yr  PE motor: 3120 hrs/yr ( kW) = 62,568 kWh/yr  Determine annual energy costs at $0.07/kwh:  Conventional motor: $0.07/kwh  65,018 kwh/yr = $4,551/yr  PE motor: $0.07/kwh  62,568 kwh/yr = $4,380/yr

Contemporary Engineering Economics, 4 th edition, © 2007  Capital cost:  Conventional motor : $13,000(A/P, 13%, 12) = $1,851  PE motor : $15,600(A/P, 13%, 12) = $2,221  Total annual equivalent cost:  Conventional motor: AE(13%) = $4,551 + $1,851 = $6,402 Cost per kwh = $6,402/58,188 kwh = $0.11/kwh  PE motor: AE(13%) = $4,380 + $2,221 = $6,601 Cost per kwh = $6,601/58,188 kwh = $0.1134/kwh

Contemporary Engineering Economics, 4 th edition, © 2007 (b) break-even Operating Hours = 6,742

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.