JOURNAL BROWSE
Search
Advanced SearchSearch Tips
A Study of LCCA and LCA to Evaluate Feasibility for Introducing Smart Quiescent Power Control System into Office Building
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
A Study of LCCA and LCA to Evaluate Feasibility for Introducing Smart Quiescent Power Control System into Office Building
Quan, Junlong; Lee, Seok-Jung; Choi, Hye-Mi; Kim, Kyung-Hwan; Kim, Ju-Hyung;
  PDF(new window)
 Abstract
Recently, in an attempt to overcome the defects of quiescent power shutdown system, smart quiescent power control system has been developed. However, due to its higher investment costs, feasibility evaluation must be conducted. While LCCA (Life Cycle Cost Analysis) model is useful to estimate net savings of alternatives that differ with respect to initial costs and operating costs, the environmental burdens are not considered. On the contrary, LCA (Life Cycle Assessment) model is suitable to assess environmental impacts associated with the stages of a product`s life but it does not consider costs. In this study, a comprehensive analysis on the economic and environmental impacts of smart quiescent power control system is conducted by using LCCA and LCA model. In addition, sensitivity analysis is carried out to quantify accuracy of estimates.
 Keywords
office building;smart quiescent power control system;life cycle cost analysis;life cycle assessment;
 Language
Korean
 Cited by
 References
1.
Song JY, Noh HJ, Ju YD, Kim J. Overseas Construction Case of The Building Energy Management System. Korean Journal of Air-Conditioning and Refrigeration Engineering. 2014 Jun;2014:214-7.

2.
Shim KT. A Study on System of controlling electrical load of electrical outlet for office building and method thereof [master's thesis]. [Seoul (Korea)]: Hanyang University; 2013. 61 p.

3.
Park JH. Korea Electrotechnology Research Institute provides services of 8000MVA class power test facility [Internet]. Seoul (Korea): Yonhapnews(C); 2015 Oct [cited 2015 Oct 30]. 1p. Available from: http://www.knnews.co.kr/news/article-View.php?idxno=1161783

4.
Sur HS. Analysis Result for Korea Standby Power Reducing Policy and Forward Direction. JOURNAL OF ENERGY & CLIMATE CHANGE. 2012 Oct;7(2):71-88.

5.
Kim YS. A Study on Energy Reduction Effects of Auto Standby Power Cutoff Socket [master's thesis]. [Suwon (Korea)]: Ajou University; 2014. 51 p.

6.
Choi HK, Hwang SS, Kim YS. A Case Study on the Economic Analysis for a New Technology-Based Ventilation System Using LCC Technique. Journal of the Korea Institute of Building Construction. 2004 Dec;4(4):143-50.

7.
Choi SH. A Study on the Integrated LCCA/LCA Model for Introducing High Efficient Motors into Air Ventilation Systems of Public Facilities [master's thesis]. [Seoul (Korea)]: Hanyang University; 2015. 51 p.

8.
Quan JL, Choi SH, Kwon TH, Choi HM, Kim JH, Kim JJ. LCCA and LCA to Evaluate Feasibility for Introducing High-Efficiency Motors into Air Ventilation Systems of Public Facilities. Korea Journal of Construction Engineering and Management. 2015 Jul;16(4):41-9.

9.
Kim YD, Cha HS, Kim KR, Shin DW. Evaluation Method of Green Construction Technologies Using Integrated LCC and LCA Analysis. Korea Journal of Construction Engineering and Management. 2011 May;12(3):91-100. crossref(new window)

10.
Kim, JH. (A) Study on the Analysis and Application of Life Cycle Assessment on Building Mechanical Systems [master's thesis]. [Suwon(Korea)]: Suwon University. 2006. 71 p.

11.
Kang MS. Design and Implementation of Smart Building for Reducing Standby Power [master's thesis]. [Anyang(Korea)]: Anyang University; 2012. 75 p.

12.
MBS ENG. Smart Quiescent Power Control System [Internet]. Seoul(Korea): MBS ENG CO., LTD; 2014. [updated 2014 Jul; cited 2015 Aug 12]. Available from: http://www.mbseng.co. kr/system/hpbbs/board.php?bo_table=data

13.
Choi OY, Kim TH, Kim GH. A Study on Selection of Roof Waterproofing Method by analyzing Life Cycle Costing. Journal of the Korea Institute of Building Construction. 2008 Oct;8(5):127-34.

14.
Shin TK, Koo JS, Lee SH, Hong TH, Koo KJ, Hyun CT. A Study on the Optimum Selection of Railload Bridge Using LCC Analysis. Korean Society for Railway. 2007 May;2007:31-6.

15.
Hong TH, Ji CY. Comparison of the CO2 Emissions of Buildings using Input-Output LCA Model and Hybrid LCA Model. Korea Journal of Construction Engineering and Management. 2014 Jul;15(4):119-27. crossref(new window)

16.
Ahn HR, Lim JH, Huh YK. Development of LCC-LCA Integrated Analysis Model for Efficiency. Journal of the Korea Institute of Building Construction. 2013 Oct;13(6):585-93. crossref(new window)

17.
Kim BS, Jung YH. Stochastic analysis for Real Rate Interest of Building Life Cycle Cost(LCC) with Monte-Carlo Simulation. Journal of the Korea Institute of Building Construction. 2012 May;12(1):161-3. crossref(new window)