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Engineering, Technology & Applied Science Research Vol. 11, No. 3, 2021, 7223-7227 7223 
 

www.etasr.com Alani & Mahjoob: Corruption Risk Analysis at the Project Planning Stage in the Iraqi Construction … 

 

Corruption Risk Analysis at the Project Planning 

Stage in the Iraqi Construction Sector using the 

Bowtie Methodology  
 

Semaa Hazim Najim Alani 

Civil Engineering Department 
University of Baghdad 

Baghdad, Iraq 

S.Najim0901@coeng.uobaghdad.edu.iq 

Ahmed Mohammed Raoof Mahjoob 

Civil Engineering Department 
University of Baghdad 

Baghdad, Iraq 

ahmed.mahjoob@coeng.uobaghdad.edu.iq

 

Abstract-In this paper, the bowtie method was utilized by a 

multidisciplinary team in the Federal Board of Supreme Audit 

(FBSA)for the purpose of managing corruption risks threatening 

the Iraqi construction sector. Corruption in Iraq is a widespread 

phenomenon that threatens to degrade society and halt the wheel 
of economic development, so it must be reduced through 

appropriate strategies. A total of eleven corruption risks have 

been identified by the involved parties in corruption and were 

analyzed by using probability and impact matrix and their 

priority has been ranked. Bowtie analysis was conducted on four 

factors with high score risk in causing corruption in the planning 

stage. The number and effectiveness of the existing proactive 

measures to prevent threats from resulting in corruption and 
were examined for each threat. 

Keywords-corruption risk; bowtie; prevention; risk analysis 

I. INTRODUCTION  

Corruption is an old phenomenon that threatens the 
administrative apparatus in Iraq. As it was stated in the reports 
of Transparency International [1], Iraq is third among 180 
countries in corruption and the phenomenon is increasing. The 
phenomenon of corruption largely stands in the way of the 
process of construction and progress at all economic levels. It 
costs money, time, energy, and impedes the performance of 
responsibilities and the fulfillment of jobs and services. 
Corruption can be defined as a social habit which is deep-
rooted in mankind's history. It is considered to be comparable 
to other crime types, which occur likely in the procurement of 
works through local authorities along with the complexity to 
monitor the expenditures of a project [2]. Authors in [3] 
provided a thorough overview of the corruption causes from 
certain studies in identified construction management journals 
for addressing the already-indicated issues. Forty-four 
corruption causes were indicated from a total of 37 publications 
and were examined with regard to current corruption factors, 
thematic categorizations of observed variables, and yearly 
trends of publications. The major causes were bad 
professionalism, ethical standards, close relationships, bad 
working and industrial conditions, insufficient sanctions, and 
bad role models. Authors in [4] identified factors which lead to 
fraudulent practices in every stage of the construction life 

cycle. Those extracted fraudulent aspects have been mapped 
into a matrix form for checking the factor's similarities. A total 
of 42 contributing factors were verified and divided into 5 
phases of the construction project life-cycle. With regard to the 
frequency, the main factors with regard to each stage were 
project approvals in the stage of planning, collusions between 
public officers and tenderers in the stage of design and 
tendering, insufficient compliances with the design for audit 
and report in the stage of construction, avoiding difficulties in 
the contract inspections in the stage of finishing, and utilizing 
sub-standard materials and services in the stage of 
maintenance. 

II. LITERATURE REVIEW 

Corruption is one of the biggest problems the governments 
face and it stands as an obstacle to sustainable development. 
Most projects in Iraq have suffered high deviations in cost, 
time, and quality which lead to wasting public money through 
exploiting public officers or authorities to achieve personal 
benefits that destroy the country's economy. Authors in [5] 
proposed a model for the performance and application control 
of rational decision-making with the best use of available 
resources and ongoing performance monitoring at all stages of 
the implementation of projects in order to eliminate aspects of 
financial and administrative corruption and reduce wastage in 
one of the most important formations carried out by the 
government in Iraq. Authors in [6] developed an Artificial 
Neural Network (ANN) model for assessing the collusion risks 
in the construction projects in China. The ANN has been 
utilized in a real life metro project, while the evaluated results 
established a complete framework regarding the collusive 
practices in the construction projects in China, that includes a 
total of 20 collusive practices associated with all the 
contracting entities. Authors in [7] presented the critical risk 
factors for design-build projects in the construction industry in 
Vietnam, factors affecting the on schedule implementation 
completion. The top 3 critical risk factors were: delays in 
project approval and licensing, interest rate fluctuations, and 
design or technical specifications deficiency and changes. 
Authors in [8] stated time overrun in construction projects is a 
very dangerous issue in developed countries. A quantitative 

Corresponding author: Semaa Hazim Najim Alani



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approach was adopted to present the main causes of time 
overrun in the construction projects in Pakistan and the RIW 
(Relative Importance Weight) approach was used for collecting 
data. 

The precise beginnings of the bowtie method are unclear 
[9], but it probably was originated in the 1970s via the Imperial 
Chemical Industries (ICI). The first company integrating 
bowties totally in business practices is the Royal Dutch/Shell 
Group. Now, the use of bowties has been spread between 
nations, industries, and companies. Authors in [10] indicated 
that the bowtie analysis is a qualitative risk-assessment 
methodology providing an approach of efficient 
communication in complicated risk situations in simple 
graphical formats that shows the relations between damage 
escalation potential and the unwanted events' causes. 

III. METHODOLOGY 

The methodology that will be used in this paper is as 
follows:  

• Identification of the corruption risks during the conception 
(planning) stage, which actually occurred in some 
completed construction projects by reviewing the Quarterly 
reports of the FBSA of projects from 2004-2013 and after 
some interviews with construction industry experts. 

• Distribution of a prepared questionnaire on the FBSA staff 
in order to determine the probability and the effect of such 
risks.  

• Implementing qualitative risk analysis on the corruption 
risks by using a probability - impact matrix to identify the 
priority of these risks.  

• Application of bowtie methodology on these risks (threats). 

IV. RISK RATING 

A. Risk Probability 

For each of the risk occurrences, the probability must be set 
at a single value which is representing the best team judgment 
from the provided available data. In addition, the team must not 
be considering the effect while assessing the probability. The 
probability values and terms utilized in a 5-point scale to suit 
the likelihood of getting the risk can be seen in Table I [11]. 
Other classifications can be used according to what suits a 
project. 

TABLE I.  RISK PROBABILITY 

Term Value Risk probability (%) 

(1) Very high 0.9 > 70 

(2) High 0.7 50-70 

(3) Moderate 0.5 30-50 

(4) Low 0.3 10-30 

(5) Very low 0.1 0-10 

 

B. Risk Impact  

The risk impact is measuring the consequences on the 
project when a risk occurs. A scale that is comparable to the 
one of risk probabilities should be set up with regard to risk 
impact (Table II [12]). 

TABLE II.  RISK IMPACT 

Term Value 

(1) Very high 0.8 

(2) High 0.4 

(3) Moderate 0.2 

(4) Low 0.1 

(5) Very low 0.05 

 

C. Probability and Impact Matrix  

A probability and impact matrix has been utilized for 
looking up a combined risk rating, also referred to as the risk 
score, with regard to specific combinations related to 
probability and impact values. In addition, the score was 
utilized for prioritizing the risks for later activities of risk 
management. A graphical probability and impact matrix is 
efficiently communicating the relative severity regarding risk 
scores. The module is addressing the details regarding 
evaluating the risks and impacts, along with the way for 
applying such measures. Furthermore, a measure regarding the 
risk effect might be evaluated via multiplying risk probability 
(P) by risk impact (I) for producing risk score (RS) with regard 
to each one of the risks. 

RS=P×I      (1) 

In the heat map of Figure 1, the resulting high risks are 
colored red, the moderate risks yellow, and the low risks green 
[12]. 

 

 
Fig. 1.  Probability and impact matrix (heat map). 

D. The Questionnaire  

A questionnaire survey has been carried out for obtaining 
perception-based data related to corruption measurement items 
from 2 viewpoints, which are (1) probability (the occurrence 
possibility regarding each one of the measurement items), and 
(2) severity (the consequence's impact regarding each one of 
the measurement items), with the use of a 5-point Likert scale 
from 1 for very high to 5 for very low. About 60 questionnaire 
forms about corruption risk were distributed by hand to 
resident engineer's offices of FBSA projects in Iraq. Twenty 
two answered forms were not considered because they were 
partially answered and 8 were not received. A total of 30 
answered questionnaires were considered. The responders 
belong to senior management staff, having 8 to 40 years of 



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experience. Table III shows some details about the 
questionnaire responders whose responses were considered in 
this study. 

E. Responders Characteristics Summary  

Table III shows the experience of the respondents, Table IV 
their level of education, and Table V the scientific areas of their 
education.  

TABLE III.  RESPONDENTS' EXPERIENCE 

No. Experience (years) Frequency % 

1 8-14 8 27 

2 15-18 15 50 

3 20-22 3 10 

4 36-40 4 13 

 Total 30 100% 

TABLE IV.  RESPONDENTS' LEVEL OF EDUCATION 

No. Level of education Frequency % 

1 B.Sc. 18 60 

2 Diploma 1 3 

3 M.Sc. 7 23 

4 Ph.D. 2 7 

5 CPA 2 7 

 total 30 100% 

TABLE V.  RESPONDENTS' SCIENTIFIC AREAS 

No. Area Frequency % 

1 Civil Engineering  15 50 

2 Mechanical Engineering  4 13.33 

3 Electrical Engineering  2 6.67 

4 Architecture Engineering  1 3.33 

5 Law  5 16.67 

6 Control and Auditing  2 6.67 

7 Accounting  1 3.33 

 Total  30 100 

 

V. RESULTS 

The areas of risk concern at the stage of planning came 
from project documents and are provided in Table VI and 
Figure 2. 

We can see that the CR3 (the estimated cost of the project 
compared to the building area was exaggerated) is ranked at the 
first place with a risk score of 0.4196, which makes it a high 
risk rating. This result is in contrast with the findings in [15]. 
The second ranked risk is CR2 (there is a lack of a careful 
study of the estimated cost of the project within the feasibility 
study report), scoring 0.3067, which also makes it a high risk 
which leads to inaccurate cost estimations of the project. This 
result is in line with the findings of [14]. The third risk CR6 
(there is no ownership of the land on which the project is 
located, and some lands were transgressed) scored 0.1956, 
which is also a high risk rating, in line with the findings in [2]. 
The fourth risk is CR1 (there is no technical and economic 
feasibility study to the project) that scored 0.182, which is a 
high risk rating, and is one of the requirements for approving 
the financial allocations for the implementation of any project. 
This result is in contradiction to Article (A-3) of the 
instructions for implementation of governmental contracts No. 
1 in 2008 [13] and is line with the findings of [15]. 

TABLE VI.  CORRUPTION RISKS RATING IN THE PLANNING STAGE 

ID 
Involved 

parties 
Corruption risk 

Risk 

score 

Risk 

rating 
Rank 

CR1 Client 

No technical and economic 

feasibility study to the 

project. 

0.182 High 4 

CR2 Client 

There is a lack of a careful 

study of the estimated cost 

of the project within the 

feasibility study report. 

0.3067 High 2 

CR3 Client 

The estimated cost of the 

project compared to the 

building area is 

exaggerated. 

0.4196 High 1 

CR4 Client 

The technical and economic 

feasibility study has not 

been sent out to the 

Ministry of Planning for the 

purpose of obtaining 

approval to include the 

project in the investment 

budget table. 

0.0472 Low 9 

CR5 Client 

There is no holistic vision 

in the department about the 

project requirements to be 

translated and escalated 

according to a careful 

planning process into 

engineering plans. 

0.1469 Moderate 7 

CR6 Client 

There is no ownership of 

the land on which the 

project is located, and some 

lands were transgressed 

0.1956 High 3 

CR7 Client 

The work is divided into 

several contracts and a 

feasibility study is prepared 

with an estimated cost for 

each contract, even though 

the project was included in 

the ministry’s plan 

according to one feasibility 

study and one holistic cost. 

0.176 Moderate 5 

CR8 Client 

A technical study has not 

been prepared about the 

contracting party’s ability 

to provide the necessary 

staff. 

0.0261 Low 11 

CR9 
Client, 

consultant 

Soil was investigated for 

the project long before the 

work was carried out. This 

leads to geological changes 

to the site's soil, and this 

causes these investigations 

mismatch the reality of the 

project. 

0.1493 Moderate 6 

CR10 Client 

Project planning that 

requires a true 

contemplation and practical 

forecasting is poor. 

0.0496 Low 8 

CR11 Client 

The project in the 

investment budget is 

included before specifying 

estimated and total costs of 

the project that was later 

completed. 

0.0271 Low 10 

 

The fifth risk is CR7 (the work is divided into several 
contracts and a feasibility study is prepared with an estimated 
cost for each contract, even though the project was included in 



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the ministry’s plan according to one feasibility study and one 
holistic cost) that scored 0.176 which is a moderate risk rating. 
This result is in line with the findings in [2]. The sixth risk is 
CR9 (soil was investigated for the project long before the work 
was carried out), scoring 0.1493 which is a moderate risk 
rating. This result is in line with the findings in [2]. The 
seventh risk is CR5 (there is no holistic vision in the 
department about the project requirements to be translated and 
escalated according to a careful planning process into 
engineering plans) that scored 0.1469 which is a moderate risk 
rating. This result is in line with the findings in [15]. 

 

 
Fig. 2.  The risk score for the corruption risk in planning stage. 

The other risks have low risks ratings. CR10 (project 
planning that requires a true contemplation and practical 
forecasting is poor) scored 0.0496, CR4 (the technical and 
economic feasibility study has not been sent out to the Ministry 
of Planning for the purpose of obtaining approval to include the 
project in the investment budget table) scored 0.0472 in line 
with the findings in [2], CR11 (the project in the investment 
budget is included before specifying estimated and total costs 
of the project that was later completed-in contradiction to the 
instructions for implementation of governmental contracts (No. 
1) in 2008 that stated that an updated study on the estimated 
cost or the required contract to be executed within the 
feasibility study for the purpose is to be used as a standard 
when analyzing bids and awarding contracts) scored 0.0271, 
and CR8 (a technical study has not been prepared about 
contracting party's ability to provide the necessary staff) scored 
0.0261. 

VI. APPLICATION OF BOWTIE XP ON THE CORRUPTION RISK 

After identifying the probability and impact (consequence) 
for each risk, the corruption risks in the planning stage of 
construction project were ranked. It was adopted that the risks 
with low and moderate rating can usually be managed using 
routine procedures, and the BowTie XP software [16] was 
applied on the risks with high rating. In a bowtie, the 
representation is that a threat (on diagram's left hand side) 
causes the top event (hazard release), which results in a 
consequence (harm to someone of something). We than have 
the opportunity to put in preventive barriers on diagram's left 
hand side to prevent the hazards, and barriers on diagram's 
right hand side to mitigate the harm from occurring. Practical 
recommendations for combating or eliminating the identified 
hazards were led via applying bowtie methodology, which 
leads to excellent understanding regarding the hazard 

protection and prevention needed for corruption risks in the 
sector construction. The causal factors that were used in 
BowTie XP to manage corruption risks threatening the 
construction sector in the planning stage were identified by a 
multidisciplinary team in the FBSA as the prevention barrier, 
effectiveness, and barrier type for each causal factor (threat), 
and corrective barrier, effectiveness, and barrier type for each 
consequence as shown in Figure 3.  

To the best of our knowledge, the current research is the 
first one that uses the application of bowtie methodology with 
corruption risk in the construction sector.  

 

 

Fig. 3.  Bowtie diagram of corruption risks in the planning stage . 



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VII. CONCLUSION 

The bowtie methodology is considered to have high 
flexibility regarding corruption risk management. At the same 
time, its adaptability might be improved by the use of some 
adequate tools. On the basis of the system approach, bowtie 
methodology helps auditors and managers responsible for 
creating the project plan with the necessary requirements from 
the estimation cost of the project, offering a technical and 
economic feasibility study. The conception of threats, 
consequences, and barriers in the bowtie diagrams facilitate the 
comprehension regarding the protection and prevention actions 
needed for corruption risks. Typically, the bowtie has the 
ability to be vital in managing the corruption risks that we can 
process before they appear by taking proactive actions for these 
threats. The bowtie methodology was used to demonstrate the 
effectiveness of corruption risk management in construction 
projects in Iraq. The use of BowTie software assists in the 
analysis and management of hazard and risks in any sector. It 
provides reports and documents all information that will be 
used in risk management and supports the audits in the 
government institutions.  

VIII. RISK MANAGEMENT RECOMMENDATIONS 

A set of recommendations regarding risk management for 
corruption-related risks follows: 

• A study combining bowtie methodology and simulation 
model should be conducted. 

• There is a need to identify the corruption risks in other 
stages of the construction sector and appropriate 
quantitative risk analysis should be conducted. 

• The application of the bowtie methodology should be 
expanded in other sectors such as the safety risk 
management in construction projects. 

ACKNOWLEDGEMENT 

This paper was produced in cooperation with the 
Department of Civil Engineering, University of Baghdad. 

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