Study on Time Delay Analysis for Construction Project Delay Analysis

DOI : 10.17577/IJERTV4IS031166

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Study on Time Delay Analysis for Construction Project Delay Analysis

Ar. Meena. V

    1. rch, Architecture department Sathyabama University

      Chennai, India

      Ar. K. Suresh Babu

      Associate Professor, Architecture department Sathyabama University

      Chennai, India

      Abstract Time delay is one of the biggest problems facing in many construction buildings in India. Completing projects on time is the key factor of the project, but the construction process is subject to many variables and unpredictable factors, which result from many sources such as availability of resources, external factors, performance of parties and type of building. If there is a delay in project it leads to loss of productivity, increased cost, contract termination and disputes between contractor and owner. The aim of this project is to examine the causes and effects of delay on building construction project during construction phase and to provide control measures for time overrun in the project. A study carried out on construction schedule delays and various delay analysis techniques and methods in order to evaluate the causes of delay and their impacts in the construction project. Then a questionnaire survey is done to find the major causes of delay faced by Client, Contractor, Consultant and Project manager. Population sample of 35 was used in which 30 was deployed. From the survey and study identified 67 causes of delay under 9 major groups such as Project team, Owner, Contractor, Consultant, Architect, material, labour, equipment and external factors. Then a ranking method is done based on relative importance index method to find major cause of delay. It is found that the most common factors of delay which is repeated in most of the project are lack of funds to finance the project to completion, labour shortage, material shortage, lack of effective communication, lack of supervision and changes in drawings. The outcome of the project is to provide recommendation to control delay in the project during construction phase.

      Keywords Delay analysis technique, causes of delay, tools to evaluate delay in construction, delay control measure

      INTRODUCTION

      In construction, delay could be defined as the time overrun either beyond completion date specified in a contract or beyond the date that the parties agreed upon for delivery of a project. It is a project slipping over its planned schedule. The delay in the project has an adverse effect on project success in terms of time, cost and quality. The objective of the project is

      • To identify delay factors in construction projects

      • To rank the delay factors according to the importance level on delays in project

      • To find the tools to analysis and evaluate the time delay factors in the construction building.

      • Recommendations to control delay during construction phase for construction project

      1. STUDY ON DELAY ANALYSIS

        1. Construction project planning

          Planning explains what is going to be done, how, where, by whom, and when for effective monitoring and control of complex projects. The objective of project planning is to complete the construction within the specified time and budget. In construction project planning the steps need to be identified are as follows.

          Feasibility of the project

          • Project management plan

          • Identifying the constraints in the project (time, cost, resources)

          • Project delivery method, stakeholders, funding sources

            Construction method

          • Identifying risk in project

          • Milestone, duration and budget

            Roles and responsibility

          • Preparation of contract documentation

        2. Project scheduling

          Project scheduling covers only the issue of when? i.e. when works need to be done and completed. By doing project scheduling it helps to control and measure the project duration and provides information for timely decisions to be taken when there is a change in schedule. The results of doing a detailed project schedule are duration of the project and completion date can be easily tracked, helps to calculates the start or end of a specific activity, evaluate the effect of changes, improves work efficiency, predict and calculate the cash flow, resolve delay claims and it serves as an effective project control tool

        3. Types of project scheduling

          Selection of the most appropriate scheduling technique depends on the size and complexity of the construction Project, the preferences of the entity preparing the schedule, and the scheduling requirements of the Contract. The most common scheduling techniques used for construction projects are Gantt Charts or bar charts, linear schedules, program evaluation and review technique and Critical Path Method (CPM) schedules.

        4. Progress monitoring

          When updating a project, actual progress is recorded for each activity relative to the date of each update. This regular update will include progress on values for: dates on which activities started or finished actual percent of work completed within each task, actual resources expended on each task and actual cost expended on each task. There are six basic techniques for measuring the progress of a task in a CPM network as follows: Unit Measure, Incremental Milestones, Start/finish, Observational Assessment, Level of Effort/Cost Ratio and Equivalent Units

        5. Classification of construction delays

          The classification of delays is dependent upon the type and magnitude of the effect that an activity will have on the project and who is responsible for the delay among the stake holders. Hence they are classified into four categories such as Critical or noncritical, Excusable or non-excusable, Compensable or Non-compensable and Concurrent or Non- concurrent.

          Critical Versus Non-Critical Delays

          The delays that affect the project completion time or date are considered as critical delays. And the delays that do not affect the project completion time or date are noncritical delays. If certain activities are delayed in the construction project life cycle, the project completion date will be delayed. The determining which activities truly control the project completion date depends on the following: The project itself, the contractors plan and schedule (particularly the critical path), the requirement of the contract for sequence and phasing and the physical constraint of the project.

          Excusable and Non-Excusable Delays

          Delay that is due to an unforeseeable event beyond the contractors or the subcontractors control. Normally, based on common general provisions in public agency specifications, delays resulting from the following events would be considered excusable: General labor strikes, fires, floods, act of God, owner-directed changes, errors and omissions in the plans and specifications, differing site conditions or concealed conditions, unusually severe weather Non-excusable delays are events that are within the contractors control or that are foreseeable. These are some examples or non-excusable delays: Late performance of sub- contractors, untimely performance by suppliers, faulty workmanship by the contractor or subcontractors, a project-specific labor strike caused by either the contractors unwillingness to meet with labor representative or by unfair labor practice

          Compensable and Non-Compensable Delays

          Compensable delay is caused by the owner or the owner's agents. A compensable delay is a delay where the contractor is entitled to a time extension and to dditional compensation such as payment for the delay.

          Non-compensable delay is caused by third parties or incidents beyond the control of both the owner and the contractor where the contractor is normally entitled to a time extension but no compensation for delay damages

          Concurrent or Non-concurrent.

          Concurrent delays are two or more parallel and independent delays to the critical path of a project. Concurrent delays can be on the same critical path or on a parallel critical path

        6. Delay Analysis Techniques

          Delay analysis is a analytical process that should be employed with project documentation along with collected data from project site. The selection of delay analysis depends on the variety of factors and the available records. There are five commonly used delay techniques.

          1. Impacted as-planned method

          2. Time impact analysis method

          3. Collapsed as-built or but-for analysis method

          4. Windows analysis method

          5. As-planned versus as-built (Total time) method

          Impacted as-planned method

          According to Trauner et al. (2009), in this method the analyst specifies the as planned schedule, and inserts into this schedule the changes which caused project delays. These changes are the only determined delays recorded during construction process which may have affected the project duration. Trauner et al. (2009) point out the major weaknesses of this method as it does not reflect the dynamic nature of construction project and the critical path.

          Time impact analysis method

          The analyst determines the amount of project delay resulted from each of the delaying activity successively by calculating the difference between the project completion date of the schedule after the addition of each delay and that prior to the addition (Ndekugri, Braimah, and Gameson, 2008).

          Collapsed as-built or but-for analysis method

          In this method, the analyst studies all contemporaneous project documentation and prepares a detailed as-built schedule instead of an as-planned schedule as mentioned in the what-if method. The analyst subtracts or removes activities which affected the project from the as-built schedule (Trauner et al. 2009).

          Windows analysis method

          Window analysis method is also called the contemporaneous period analysis and snapshot method. In this method, the basic concept is that the total project duration of CPM schedule is divided into digestible time periods or windows (e.g., monthly) and the delays that occurred in each windows of time are analyzed successively by focusing on the critical paths (Hegazy and Zhang, 2005).

          As-planned versus as-built (Total time) method

          Basically, the main concept is that the as-planned versus as-built method compares two schedules, which is why it is also called the total time method or net impact method. In this method the assumption is that one party (contractor) causes no delays and other party (owner) causes all delays.

        7. Programme updates

          It is used to document the performance of the employer, the professional team, designers, and the contractor and their ability to meet commitment dates. Programmes are updated to communicate actual project status from time to time, keep the programme relevant as a useful management tool, record actual performance of all parties alike, record changes to the original plan and support forensic or prospective delay analysis. When no frequency is specified, it is unlikely that a contractor will submit updated CPMs to the employer until extensions of time are granted or significant changes to scope or sequence are incorporated into the project. The minimum data required to properly update a programme would be percentage complete, remaining duration (%), actual start, and actual finish.

        8. Records

        Once the program update is done then changes need to be recorded. When good record keeping procedures are established and maintained, contract administrators are often able to access key information quickly and in a timely enough manner to respond to crises and manage problems at the time they arise. Many standard forms require contractors to provide notice of an intention to make a claim for time and/or money within a reasonable time after the event which gave rise to the claim. Records can be inspected by the employers representative from time to time. For each delay event an

        event analysis needs to be done.

      2. QUESTIONNAIRE SURVEY

        The Survey is designed based on the objective of the study to find out the causes of delays in construction projects and effect of the delays on overall project. The Survey is framed in such a way that the personal view of different people involved in different projects (Architect, Consultant, Owner, Project manager, Contractor) is collected and analyzed. This questionnaire consists of 63 causes of delay on which a detailed analysis will be carried out by using statistical concept. These causes are classified into nine groups according to the sources of delay: Factors related to Project, Owner, Contractor, Consultant, Architect/design-team, materials, equipment, manpower (labor), and external factors.

        1. Questionnaire format

          Respondents are asked to fill What is the frequency of occurrence for this cause?. The frequency of occurrence was categorized as follows: always, often, sometimes and rarely (on 4 to 1 point scale). Respondents are required to fill the respective places with only scale points (1, 2, 3 and 4) of their opinion.

          Frequency of Occurrence

          Always (4): Generally occurs in all the projects (70%-100%). Often (3): Occurs in 5 to 7 projects out of 10 projects (50%-

          70%).

          Sometimes (2): Occurs in 1 to 5 projects out of 10 projects

          (10%-50%).

          Rarely (1): Occurs only 1 time out of 10 projects (>10%). The questionnaire format is provided in appendix

        2. Respondents profile

        The questionnaires were distributed to Owners, Project Manager, Architect, Consultants and Contractors of Indian construction industry. The respondents involved in the survey had several years of experience in handling various types of projects. The characteristics of the respondents participated in survey are summarized below. Population sample of 35 was used in this survey. A total sample of 31 was deployed.

        Result of respondents

        10

        8

        6

        4

        2

        0

        Fig. 1. Result of respodents

        working experience

        50

        40

        30

        20

        10

        0

        less than 10 11-15 years 16-20years 20 years and years above

        Fig. 2. Working experience

      3. QUESTIONNARIE SURVEY RESULTS

The collected responses from different categories of people involved in construction project gives the major causes of delay factor faced in the construction process. The mean of each group of question is calculated using Relative Importance Index to calculate the ranking and the percentage of delay cause in the building. The final result showing the contribution of different factors on the delay of a construction project is shown below

No

Cause Of Delay

Points

Rank %

Group

1

Very short original contract duration

20

17

Project team

2

Legal disputes between parties

55

46

3

Inadequate definition of substantial

completion

50

42

4

Ineffective delay penalties

35

29

5

Types of construction contract

40

33

6

Types of project bidding

55

46

7

Payment delay

70

58

Owner

8

Delay in delivering the site

57

48

9

Change order

80

67

10

Late approval of design document

51

43

11

Late approval of sample material

54

45

12

Lack of communication

82

68

13

Late decision making

40

33

14

Conflicts between partners

30

25

15

Unavailability of incentives for contractor for finishing ahead of schedule

45

38

16

Suspension of work

20

17

17

Financing difficulty

72

60

Contractor

18

Conflicts with sub-contractor

50

42

19

Rework

70

58

20

Poor site management and supervision

60

50

21

Poor coordination with labor and

subcontractor

65

54

22

Ineffective planning and scheduling

60

50

23

Improper construction method

40

33

24

Delay in sub-contractor work

45

38

25

Lack of knowledge

50

42

26

Frequent change of subcontractor

45

38

27

Poor qualification of technical staff

52

43

28

Site mobilization delay

52

43

29

Inspection and testing delays

52

43

Consultant

30

Approval delay

45

38

31

Poor communication

62

52

32

Conflict between consultant & architect

45

38

33

Lack of experience

45

38

34

Errors in design document

50

42

Architect

35

Delay in producing design documents

65

54

36

Inadequate details in drawing

51

43

37

Insufficient data collection & survey

45

38

38

Misunderstanding of owners requirement

45

38

TABLE I. RANKING FOR DELAY CAUSES

39

Unused advanced design software

52

43

40

Shortage of material

70

58

41

Change in specification

60

50

42

Late delivery

65

54

43

Damaged of required material

45

38

Materials

44

Delay in manufacturing

54

45

45

Late procurement

60

50

46

Lack of material availability

54

45

47

Shortage of equipment

61

51

Equipment

48

Equipment break down

62

52

49

Poor operator skill

50

42

50

Low productivity & efficiency

52

43

51

Lack of high technology equipment

65

54

52

Shortage of labor

71

59

Labor

53

Personal conflicts

50

42

54

Lack of knowledge

60

50

55

Lack of communication

72

60

56

Lack of skilled labor

80

67

57

Poor soil condition

45

38

External Factors

58

Delay in obtaining permits

76

63

59

Climatic factor

75

63

60

Unavailability of utilities

44

37

61

Accidents during construction

42

35

62

Changes in government regulation

65

54

63

Delay in final inspection

60

50

  1. Highest percentage of delay group

    From the above finding and analysis using ranking method the group which is more responsible for the delay in the project is find out. According to the survey result it is found that resources are the main reason for the delay in the project along with external factors it is then followed by Contractor, then Owner and the others.

    External Factors

    Labor Equipment Material Architect

    Consultant Contractor

    Owner Project Group

    0 20 40 60 80

    Points

    Fig. 3. Highest percentage of delay group

  2. Template to evaluate time delay

    Causes of delay

    Recommendations

    Weather condition

    Conducting detailed and perfect surveys towards the field condition and previous weather data

    External factors

    Monitor the work done by the earlier contractors to make sure that delays outside your control are recognized and documented.

    Lack of funds

    Optimize cash flow in accordance with the requirements and make sure fund needed for project is available to execute the project

    Deviation of scheduling

    Develop detailed and accurate schedule to facilitate easy and controlled scheduled execution

    Lack of communication

    Planning and applying Management Information System(MIS)

    Poor decision making process

    Conduct routine/regular coordination meeting and develop a procedure regarding decision making.

    Lack of coordination / Wrong delegation of authority

    Develop a good, simple and easy to understand system to regulate coordination procedures and responsibility of units. Make organization chart with detail job description which includes responsibilities and roles of each function

    Lack of inspection

    Provide separate technical staff or site manager for periodic inspection and monitoring work process which includes starting late, late submission of drawings, mistakes or errors, resource availability, etc. then proper record has to be maintained to detect risk and mitigate.

    Improper planning

    Understand the level of supply and demand to produce detail planning and schedule.

    Implement automatic machine work to avoid shortage of labor such as automatic plastering machine, wall painting, precast concrete wall, etc.

    Lack of knowledge

    Contractor needs to aware of new technology and techniques to reduce time duration for activity or labor force

    Lack of facilities at site

    Site management should be properly done to ensure proper resource; basic facilities for worker are available to increase productivity by doing detail study in site condition.

    Poor selection of vendors

    Consider supplier daily capacity and material quality for selecting vendors to avoid delay and conflicts.

    Labor shortage

    Early workforce planning is essential for owners and contractors to effectively manage project labor risks. Then providing incentives/awards for workers like best employer of the year/ month so that productivity and quality of work will be increased.

    Skilled labor shortage

    Providing training and upgrade skills to use new technology and techniques for unskilled labors to increase productivity and efficiency of the worker.

    The tools to evaluate and analysis time delay factors are CPM and PERT. The collected data from the tools should be filled in template for event analysis.

    TABLE II. EVENT ANALYSIS SHEET

    DESCRIPTION

    FORMULA

    VALUE

    Planned quantity

    PQ

    Planned duration

    PD

    Planned productivity

    PP

    Total budget

    TB

    Cost per unit

    C

    TB/PQ

    Actual quantity

    AQ

    Actual duration

    AD

    Actual productivity

    AP

    Planned value

    PV, BCWS

    (AD*TB)/PD

    Actual cost

    AC, ACWP

    C*AQ

    Earned Value (EV)

    BCWP

    EV = PV x(

    AP/PP)

    Cost Variance

    CV

    EV-AC

    (BCWP -ACWP)

    Cost Variance %

    CV%

    CV/EV

    Cost Performance

    Indicator

    CPI

    EV/AC

    To Complete Cost

    Performance Indicator

    TCPI

    (TB-EV)/(TB-

    AC)

    Schedule Variance

    SV

    EV-PV

    (BCWP- BCWS)

    Schedule Variance %

    SV%

    SV/PV

    (SV/BCWS)

    Schedule Performance

    Indicator

    SPI

    EV/PV

    To Complete Schedule

    Performance Indicator

    TSPI

    (TB-EV) / (TB –

    PV)

    Budget At Completion

    BAC = TB

    Estimate At Completion

    EAC

    AC +(BAC- EV)

    Variance At Completion

    VAC

    BAC – EAC

    Planned % Completed

    PV / BAC

    % Completed Actual

    AC / EAC

  3. Recommendations

    From the survey it is found that contractor has the highest percentage of cause of delay followed by owner and then consultant. So recommendation to control major causes of delay are listed below

    TABLE III. RECOMMENDATIONS FOR MAJOR CAUSES OF DELAY CAUSES

    No

    Cause of delay

    Alway s

    Often

    Some times

    Rarely

    Group

    Original contract

    duration is too

    1

    short

    Legal disputes

    2

    between parties

    Inadequate

    3

    definition of substantial

    completion

    Project team

    Ineffective delay

    4

    penalties

    Types of

    construction

    5

    contract

    Type of project

    6

    bidding

    Delay in progress

    7

    payment by owner

    Delay to furnish

    and deliver the

    site to the

    contractor by

    8

    owner

    Change order

    during

    9

    construction

    Late in approval

    1

    design document

    0

    by owner

    Delay in

    approving shop

    1

    drawings and

    1

    sample material

    Owner

    Lack of

    communication

    1

    between owner

    2

    and contractor

    Slowness in

    1

    decision making

    3

    process

    Conflicts between

    1

    joint ownership of

    4

    the project

    Unavailability of

    incentives for

    contractor for

    1

    finishing ahead of

    5

    schedule

    1

    Suspension of

    6

    work by owner

    Difficulties in

    1

    financing project

    7

    by contractor

    Conflicts in

    1

    subcontractor

    schedule in execution of the

    Contra ctor

    8

    project

    Rework due to

    1

    errors during

    9

    construction

  4. Conclusion

The major causes of delay which is found repeating in almost every project are external factors, financial difficulties, shortage of labor, insufficient labor productivity, owner interference and improper planning. After analyzing the data it is clear that the contribution of Contractor in delay of the construction project is high then followed by client then consultant side and others. Resource allocation is the main criteria for doing schedule planning to allocate duration for each activity included in the project so that delay in the construction project can be reduced.

ACKNOWLEDGMENT (Heading 5)

I extend my gratitude to our Faculty Head Dr. A. Lilly Rose, M. Arch., PhD, Head of the Department Dr. N. Jothilakshmy, B. Arch; M.T.P., PhD, Assoc. Prof.T.Vennila M.Arch, Mr.S.Kavin Kumar and Assoc. Prof. Ar. K. Suresh Babu for their helpful suggestions and comments during my project presentation. Mr.K.Gopala Krishnan, Mr.Karthik Mohan, Mr.G.Hemanth kumar and my parents for their help and support to complete the project.

REFERENCES

  1. Aditi Dinakar Delay Analysis in Construction Project, IJETAE, Vol. 4, No. 5, May 2014

  2. Aftab Hameed Memon, Contractor Perspective On Time Overrun Factors In Malaysian Construction Projects, IJSET, Vol. 3, No. 3, 2014

  3. Ashwini Arun Salunkhe & Rahul S. Patil, Effect of Construction Delays on Project Time Overrun: Indian Scenario, IJRET, eISSN: 2319-1163 | pISSN: 2321-7308

  4. Construction Delay Analysis Methods, http://www.forensisgroup.com/expert-articles/construction-delay- analysis-methods, 2013

  5. Roger Gibson Construction delays: Extension of time and prolongation claims

  6. Desai Megha & Dr Bhatt Rajiv, A Methodology For Ranking of Causes of Delay For Residential Construction Projects In Indian Context , IJETAE, Vol. 3, No. 3, March 2013

  7. Enas Fathi Taher & R.K. Pandey, Study of Delay in Project Planning and Design Stage of Civil Engineering Projects, IJEAT, Vol. 2, No.3,

    February 2013

  8. Owolabi James D & *Amusan Lekan M. Oloke C., Causes And Effect of Delay on Project Construction Delivery Time IJER, Vol. 2 No. 4 April 2014

  9. P. J. Keane & A. F. Caletka, Delay Analysis in Construction Contracts, A John Wiley & Sons, Ltd., Publication 2008, United Kingdom

  10. Songül Dayi Schedule Delay Analysis In Construction Projects: A Case Study Using Time Impact Analysis Method, The Graduate School Of Natural And Applied Sciences of middle East Technical University, December 2010

  11. Theodore J. Trauner Jr., Construction Delays: Understanding Them Clearly, Analyzing Them Correctly, 2009

APPENDIX

Name

Date

Designation

Work Experience Email Id

Location

2

0

Conflict between contractor and other parties

2

1

Poor site management and

supervision

2

2

Poor communication and coordination with labor and

subcontractor

2

3

Ineffective planning and scheduling of project by

contractor

2

4

Improper construction method

implemented by contractor

2

5

Delay in subcontractor

work

2

6

Lack of

knowledge

2

7

Frequent change of subcontractor because of their

inefficient work

2

8

Poor qualification of technical staff

2

9

Delay in site mobilization related to

subcontractor

3

0

Delay in performing inspection and testing by

consultant

Consul tant

3

1

Delay in approving major changes in the scope of work by

consultant

3

2

Inflexibility of

consultant

3

3

Poor communication between consultant &

others

3

4

Late in reviewing & approving design document

by consultant

3

5

Conflict between consultant and architect

3

6

Inadequate experience of

consultant

3

7

Mistakes in design document

Archit ect

3

8

Delay in

producing design documents

3

9

Unclear and inadequate details in drawing

4

0

Insufficient data collection &

survey before doing

4

1

Misunderstanding

of owners requirement

4

2

Unused of advanced design software

4

3

Shortage of

material

Materi als

4

4

Change in material type &

specification during consultant

4

5

Delay in material

delivery

4

6

Damaged of sorted material while they are

need urgently

4

7

Delay in manufacturing

special building material

4

8

Late procurement

of material

4

9

Lack of selected material availability in

market

5

0

Shortage of

equipment

Equip ment

5

1

Equipment break

down

5

2

Low level of equipment operator skill

5

3

Low productivity & efficiency of

the equipment

5

4

Lack of high technology mechanical

equipment

5

5

Shortage of labor

Labor

5

6

Low productivity level of labor

5

7

Personal conflicts

among labor

5

8

Lack of

knowledge

5

9

Lack of

communication

6

0

Lack of skilled

labor

6

1

Poor soil

condition

Extern al factors

6

2

Delay in obtaining permits

6

3

Climatic factor

6

4

Unavailability of utilities in site ( water, electricity,

telephone)

6

Accident during

5

construction

Changes in

6

government

6

regulation and law

Delay in

performing final

inspection and

6

certificate by third

7

party

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