• Title/Summary/Keyword: Equipment cost

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How to Use Standard Market Prices for Ordinary Management System of Construction Equipment Prices in Poom-Saem (시가표준액을 활용한 건설공사표준품셈 건설기계가격 상시관리 방안)

  • Ahn, Bang-Ryul;Huh, Youngki;Kim, Dae Young;Tae, Yong-Ho
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2014.11a
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    • pp.98-99
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    • 2014
  • Construction equipment cost is critical to estimate the total construction costs, particularly in large and complicated projects. Despite its importance, the construction equipment cost may not reflect the current market value since the equipment database is being updated every 6 years at most. To keep construction equipment cost up to date, it is highly recommended to use the standard market price that is reported each year by the Ministry of Security and Public Administration (MOSPA). However, there is still a gap to adopt the standard market price system for the construction equipment cost computing system. Therefore, this paper suggests an effective way to develop a construction equipment cost estimation system.

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A Study on the Optimal Equipment Selection of Series Systems using Life Cycle Cost and Failure Cost (Failure Cost와 Life Cycle Cost를 고려한 연속시스템에 대한 최적 장치 선택에 관한 연구)

  • Jin Sang-Hwa;Kim Yong-Ha;Song Hee-Oeul;Yeo Yeong-Koo;Kim In-Won
    • Journal of the Korean Society of Safety
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    • v.19 no.4 s.68
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    • pp.55-59
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    • 2004
  • In this study, the required life cycle cost is evaluated in consideration of the equipment's availability during its lift cycle. In order to meet the maximum availability required by the process, the failure cost and life cycle cost is assessed The optimal equipment selection method is presented according to the analysis of the failure cost and life cycle cost. For the systems in which equipments are connected serially, the optimal equipments are selected by minimizing the life cycle cost and satisfying the required system availability goal. In addition, the selection methods and lift cycle cost are analyzed according to the cost variation of the equipment. By using the life cycle evaluation procedure, the failure cost and maintenance cost needed during the life cycle of the equipment can be presented.

Cost-Benefit Analysis on Participation of High Efficient Equipment in Demand-Side Bidding (고효율기기의 수요측입찰 참여시의 비용-이익 분석)

  • Won Jong-Ryul;Kim Jung-Hoon
    • The Transactions of the Korean Institute of Electrical Engineers A
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    • v.54 no.8
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    • pp.396-400
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    • 2005
  • This paper proposes the cost analysis on the energy efficient equipment when this equipment is participated in the demand-side bidding. Conventional demand-side bidding is exercised through load re-distribution. However if this load reduction is exercised by the use of high efficient equipment, its effect will be assumed to be more economical. This paper analyses this cost-benefit effect of high efficient equipment in the demand-side bidding.

The Estimation Method of Equipment Maintenance Cost (장비유지비 소요 예측 기법 연구)

  • Kim, Jeong-Ki
    • Journal of the military operations research society of Korea
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    • v.34 no.3
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    • pp.41-51
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    • 2008
  • Advanced high-tech weapons have enormous affect on combat strength in modern warfare. However, lack of maintenance can cause decrease in equipment operating rate as well as decrease in expectation on demonstrative effect of combat strength during wartime. Therefore it is essential for combat readiness that the optimum requirement of equipment maintenance cost are forecasted and included in the budget. In this paper, the trend of equipment maintenance cost about K-111 1/4t military vehicle is first analyzed by evaluating the performance data of field operation. Secondly, based on above analyzed results, the forecasting model of equipment maintenance cost is designed. Finally, by applying this forecasting model, suggestion and estimation method of equipment maintenance cost have presented for the foreseeable future.

Cost Analysis on The Participation af High Efficient Equipment in Demand-Side Bidding (고효율기기의 수요측입찰 참여시의 비용효과 분석)

  • Won, Jong-Ryul;Kim, Jung-Hoon;Shim, Keon-Bo
    • Proceedings of the KIEE Conference
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    • 2003.07a
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    • pp.65-67
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    • 2003
  • This paper proposes the cost analysis on the energy efficient equipment when this equipment is participated in the demand-side bidding. Conventional demand-side bidding is exercised through load re-distribution. However if this load reduction is exercised by the use of high efficient equipment, its effect will be assumed to be more economical. This paper analyses this cost-benefit effect of high efficient equipment in the demand-side bidding.

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Analysis and Realistic Estimation of Maintenance Cost of Construction Equipment Expenses (건설기계 경비의 관리비 구성 분석 및 현실화)

  • Kim, Kyung-A;Huh, Young-Ki
    • Proceedings of the Korean Institute Of Construction Engineering and Management
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    • 2007.11a
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    • pp.503-508
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    • 2007
  • The Equipment Expenses section of the Poom-Saem, that is used for Construction Cost Estimation on public sectors in Korea, has been rarely revised, and so does not reflect changes of construction equipment technology and construction methods, since it was established based on data from Japan and the U.S in the early 1960s. In order to make reasonable estimation of maintenance costs(Interest, Storage, Insurance, Tax), the equipment expenses section of the Poom-Saem and the domestic and overseas documentary records were investigated. Further, 16 construction sites were visited, and 20 Construction Equipment leasing services were surveyed. Based on results from analysing figures related with the estimation of maintenance costs, the maintenance cost is redefined. Then, construction equipment was classified into 6 exclusive construction equipment and general one, and realistic figures of the maintenance cost, which consists of interest, storage, insurance, tax, are suggested respectively. The optimum level of each item which consists of equipment costs was revealed based on the result of the analysis on the figures of equipment costs calculation from the Poom-Saem and the collected data. The research will be the foundation that helps to estimate appropriate construction costs and the ground work of related studies.

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Developing a Decision-Making Model to Determine the Preventive Maintenance Schedule for the Leased Equipment (대여 장비의 예방정비 일정 결정을 위한 의사 결정 모델 개발)

  • Lee, Ju-hyun;Bae, Ki-ho;Ahn, Sun-eung
    • Journal of Korean Society of Industrial and Systems Engineering
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    • v.41 no.2
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    • pp.24-31
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    • 2018
  • As a system complexity increases and technology innovation progresses rapidly, leasing the equipment is considered as an important issue in many engineering areas. In practice, many engineering fields lease the equipment because it is an economical way to lease the equipment rather than to own the equipment. In addition, as the maintenance actions for the equipment are costly and need a specialist, the lessor is responsible for the maintenance actions in most leased contract. Hence, the lessor should establish the optimal maintenance strategy to minimize the maintenance cost. This paper proposes two periodic preventive maintenance policies for the leased equipment. The preventive maintenance action of policy 1 is performed with a periodic interval, in which their intervals are the same until the end of lease period. The other policy is to determine the periodic preventive maintenance interval minimizing total maintenance cost during the lease period. In addition, this paper presents two decision-making models to determine the preventive maintenance strategy for leased equipment based on the lessor's preference between the maintenance cost and the reliability at the end of lease period. The structural properties of the proposed decision-making model are investigated and algorithms to search the optimal maintenance policy that are satisfied by the lessor are provided. A numerical example is provided to illustrate the proposed model. The results show that a maintenance policy minimizing the maintenance cost is selected as a reasonable decision as the lease term becomes shorter. Moreover, the frequent preventive maintenance actions are performed when the minimal repair cost is higher than the preventive maintenance cost, resulting in higher maintenance cost.

Evaluation Standard of Cost-Effectiveness Analysis for Renew of Architectural Equipment in Public Building (공공건물 건축설비 갱신 계획시 비용-효율분석 평가기준에 관한 연구)

  • Jung, Soon-Sung
    • Journal of Power System Engineering
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    • v.17 no.4
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    • pp.131-138
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    • 2013
  • The purpose of this study is to suggest the evaluation standard of cost-effectiveness analysis for renew of architectural equipment in public building. Evaluation items of cost-effectiveness analysis for renew of architectural equipment in public building were used life cycle cost, energy consumption(ton of oil equivalent), green house gas emissions(ton of carbon dioxide) and maximum power demand. Life cycle cost is the process of making an economic assessment of an item, area, system, or facility by considering all significant costs of ownership over an economic life, expressed in terms of equivalent costs. The essence of life cycle costing is the analysis of equivalent costs of various alternative proposals. The social concern with green house gas and maximum power demand of architectural equipment field has been growing for the last several years.

Cost of Ownership Model for the Inspection Equipment of Multiple Quality Attributes (다항목 검사장비를 위한 COO 모형 연구)

  • Sohn, So-Young;Moon, Hyoung-Uk;Hong, Cheol-Kee
    • Journal of Korean Institute of Industrial Engineers
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    • v.27 no.3
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    • pp.297-304
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    • 2001
  • Procurement decisions for inspection equipment are often made heavily based on the initial purchase price instead of the effects of inspection cost, equipment calibration and utilization over the lifetime. Cost of ownership(COO) models that take into account all of these cost factors together have been developed focusing on a single quality characteristic. In modern manufacturing environment, inspection equipment often can deal with more than one quality characteristic simultaneously. In this paper, we propose the revised COO model for the economic evaluation of the inspection equipment that can accommodate multiple quality characteristics. We also employ an engineering economy model to compare equipments with different life span. Software is developed for handy comparison of the COO of alternative equipments along with sensitivity analysis far the optimal procurement decision.

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Economic Design of A Zero-Failure Reliability Demonstration Test Considering Capacity Limitation of Test Equipment (시험 장비의 용량제한을 고려한 무고장 신뢰성 시험의 경제적 설계)

  • Han, Sook Hyun;Yun, Won Young;Seo, Sun Keun
    • Journal of Korean Society for Quality Management
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    • v.49 no.3
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    • pp.341-358
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    • 2021
  • Purpose: After product development, a Reliability Demonstration Test(RDT) is performed to confirm that the target life has been achieved. In the RDT, there are cases where the test equipment cannot accommodate all samples. Therefore, this study considers a test method to most economically demonstrate the target life of the product at a certain confidence level when the sample size is larger than the capacity of the test equipment. Methods: If the sample size is larger than the capacity of the test equipment, test equipments may be added or the test time of individual samples may be increased. So the test method is designed to cover this situation with limited capacity. A zero-failure test method is applied as a test method to RDT. To minimize the cost, the test cost is defined and the cost function is obtained. Finally, we obtain the optimal test plan. Results: A zero-failure test method is designed when the sample size is larger than the capacity of the test equipment, and the expected total cost is derived. In addition, the process of calculating the appropriate sample size, test time, and number of test equipment is illustrated through an example, and the effects of model parameters to the optimal solutions are investigated numerically. Conclusion: In this paper, we study a zero-failure RDT with test equipment that has limited capacity. The expected total cost is derived and the optimal sample size, test time, and number of test equipment are determined to minimize the expected total cost. We also studied numerical examples and for further studies, we can relax some restrictions in the test model and optimize the test method.