International Journal of Engineering Materials and Manufacture (2018) 3(4) 182-189 
 https://doi.org/10.26776/ijemm.03.04.2018.02 

 
Akshoy Ranjan Paul1 and Firoz Alam2  
 
1Department of Applied Mechanics 
Motilal Nehru National Institute of Technology Allahabad 
Allahabad, India. 
E-mail: arpaul2k@gmail.com 
 
2School of Aerospace, Mechanical and Manufacturing Engineering 
RMIT University, Melbourne, Australia 
E-mail: firoz.alam@rmit.edu.au 
 
Reference: Paul, A. R. and Alam, F. (2018). Compliance of Boiler Standards and Industrial Safety in Indian Subcontinent. 
International Journal of Engineering Materials and Manufacture, 3(4), 182-189. 

 
 

Compliance of Boiler Standards and Industrial Safety in Indian Subcontinent 
 
 
Akshoy Ranjan Paul and Firoz Alam  
 

 

Received: 15 August 2018 
Accepted: 29 September 2018 
Published: 01 December 2018 
Publisher: Deer Hill Publications 
© 2018 The Author(s) 
Creative Commons: CC BY 4.0 

 
 
ABSTRACT 
The economic development and industrialisation necessitate the use of boilers/pressure vessels. With the increase of 
boiler numbers and uses, the boiler explosion is rising. The non-compliance of standards and regulations, poor 
operation, maintenance, repair and safety-awareness are considered to be the integral part of boiler accidents. Human 
error and poor maintenance are responsible for nearly 50% of the global boiler explosions. The fatalities due to 
boiler explosions are sky rocketing in the Indian subcontinent. The paper has reviewed the global boiler explosions 
fatalities with a special emphasis on boiler accidents occurred in the Indian subcontinent and suggested some remedial 
actions.  
 
Keywords: Boiler, Pressure vessel, Industrial safety, Standards, Indian subcontinent  
 
 
1 INTRODUCTION 
The tragic stories associated with the boiler/pressure vessel explosions are made frequently the major headlines in 
print and electronic media. Nevertheless, many more such stories go unreported and overlooked. The boiler/pressure 
vessel explosions cause massive devastations regardless of their size or scope. The boiler explosions have significant 
consequences in developing nations as the explosions not only destroy property and human lives but also ruin 
livelihoods, and often the sole bread earners of poor families. A generation’s dream is lost through the tragedies. 
Most tragedies could have been easily prevented if standards and guidelines were properly developed, understood, 
practised and enforced. 

Boilers/pressure vessels are widely used in industries (power plants, chemical and fertilizer industries, paper mills, 
sugar mills, cotton mills, jute mills, rice mills, pharmaceuticals, textiles and garments industries) and homes and offices 
(water heating, central heating, cooking, and sanitation, etc.). Usually, a pressure vessel with the steam pressure 
ranging from 0.07 to 2 MPa is called boiler, and above 2 MPa is called steam generator. As per Australian Standard 
AS2593:2004 (Reconfirmed 2016) a boiler is defined as “An Arrangement of vessels and interconnecting parts, 
wherein steam or other vapour is generated, or water or other liquid is heated at a pressure above that of the 
atmosphere by the application of fire or the products of combustion or process, or by electrical or solar means. It 
also includes valves, gauges, fittings and controls directly associated with the boiler and, where consistent with the 
requirements of AS2593:2004 (Reconfirmed 2016), includes the boiler setting and associated equipment. It does not 
include fully flooded systems or pressurized systems where the water or other liquid is heated to a temperature lower 
than the normal atmospheric boiling temperature of the liquid” [1].  
A typical boiler classification is shown in Figure 1. Boilers can be classified based on many parameters including boiler 
axis, passage, fabrication / manufacturing method, fuel source, working pressure and circulation method.  The 
pressure vessel is usually made of steel (or alloy steel). The rapid uses of boilers began with the industrialisation and 
economic development. Hence, there is an increase of boiler hazards (serious injuries, deaths and destruction of 
properties). Today, boiler explosion is considered one of major threats to the industrial safety. It is significantly worst 



Compliance of Boiler Standards and Industrial Safety in Indian Subcontinent 

183 

in developing countries especially in the Indian subcontinent (India, Bangladesh and Pakistan). The primary objective 
of this paper is to highlight the alarming human deaths and injuries due to boiler explosions in the Indian subcontinent 
and some remedial actions that can be undertaken to minimise these losses. In vaporised condition, the volume of 
water is more than 1,000 times larger than that of liquid form. This highly pressurised water steam can rapture the 
metal shell and/or disintegrate the poorly welded or rusted joint leading to a violent eruption of the pressurized 
steam causing death, injury and destruction of property (sometimes entire building along with its occupants). For 
example, a boiler explosion in R. B. Groover shoe factory in Brockton near Boston at Massachusetts, USA killed 58 
people and injured over 150 people in 1905. The explosion was so intense that boiler parts ripped through the floors 
and levelled the four-story wooden building turning it into a crematorium [3]. The Groover shoe factory before and 
after the boiler explosion is shown in Figure 2. The Groover disaster triggered the formulation of the US national 
boiler code/standard (by ASME) governing the safe design, construction, operation and maintenance of boilers [3,4]. 
Today most national and international standards are primarily based on ASME boiler standards.  
 
2 BOILER EXPLOSIONS IN INDIAN SUBCONTINENT 
Boiler accidents and loss of lives are not new in the Indian subcontinent. The British India’s Boiler Regulation was the 
catapult of a tragic boiler explosion in Kolkata in 1863. The Bengal Council passed a bill in 1864 to inspect the steam 
boilers in and around Kolkata. Other Indian provinces later followed, and eventually the British established a uniform 
set of regulations in 1923 called ‘Indian Boilers Act 1923’, which covers inspections, penalties and conditions for 
material procurement.  
    Boiler/pressure vessel explosions data is difficult to obtain as most industries keep boiler accident/incident data in 
house and unreported. This practice is associated with the non-compliance of national boiler standards, corruptions, 
and legal litigations [2,11].  As there is no reliable boiler explosion data on Indian sub-continent is currently available 
in the public domain, the authors have used the boiler/pressure vessel incident reports’ database of the US 
Occupational Safety and Health Administration (OSHA), National Board of Boiler and Pressure Vessel Inspectors 
(NBBPVI) and Wisconsin Boilers Inspectors Association (WBIA) [5,6,7,11]. Only incidents/accidents data applicable 
to the boiler/pressure vessel are used in this study. The OSHA and NBBPVI maintain US data while the WBIA keeps 
a record on global events that reported in print/electronic media. The authors have analysed the global 
boiler/pressure vessel accident/incident reported data from 2012 to 2017. 
 
 

 
 

Figure 1: Boiler classifications, adapted from [2] 

Boiler Classification

Fire Tube Boilers

Water Tube Boilers

Shop-Assembled Boilers 

Packaged Boilers 

Horizontal Boilers

Vertical Boilers

Inclined Boilers

Based on Boiler Axis

Based on Nature of 
Fuel Source used

Based on Method of 
Fabrication

Based on Passage 
through Boiler Tubes

Natural Circulation Boilers 

High Pressure Boilers 

Low Pressure Boilers 

Solid Fuel Fired Boilers

Oil Fired Boilers 

Gas Fired Boilers 

Forced Circulation Boilers 

Based on Working 
Pressure

Based on Circulation 
Method



Paul and Alam (2018): International Journal of Engineering Materials and Manufacture, 3(4), 182-189 

184 

 
 

 
 

Figure 2: Boiler explosion at Groover shoe factory, adapted from [3,4,5]. (a) Groover Shoe Factory before the Boiler 
explosion on 20 March 1905, (b) Groover Shoe Factory after the Boiler explosion 
 
 
A recent tragic boiler explosion at Multifabs garments factory at Kasimpur (near Gazipur) in Bangladesh killed 13 
people and seriously injured over 50 people on 3 July 2017 [8]. The intensity of the explosion was so severe that it 
destroyed the concrete-built garment building as shown in Figure 3. Most victims are poor workers including the 
boiler operator. Two recent boiler explosions, one at a pharmaceutical unit of Probace Enterprises at Dombivli in 
Thane (India) on 26 May 2016 killed five and injured over 140 people (Figure 4). The blast has destroyed two 
buildings and partially destroyed three more buildings. The blast intensity shattered the window panes of all buildings 
within 1.5 km radius [9]. The other explosion was at National Thermal Power Company (NTPC)’s Unchahar 550 
MW thermal power plant in Rae Bareli, Uttar Pradesh, India on 1 November 2017. The explosion killed 32 people 
and critically injured 97 people [10]. The boiler destruction images are shown in Figure 5. The number of global 
death and injury due to boiler/pressure vessel explosions is shown in Figure 6. The numbers of deaths in the Indian 
subcontinent (Bangladesh, India and Pakistan) are progressively higher compared to the rest of the world since 2012. 
For example, the death numbers in developed countries (e.g. USA, Germany, UK, Belgium and Bulgaria) are only 20 
compared to 248 deaths in Bangladesh, India and Pakistan over the same period. The boiler explosion death is 12.4 
times higher in the Indian subcontinent than the rest of the world. A total of 726 people were severely injured in 

a 

b 



Compliance of Boiler Standards and Industrial Safety in Indian Subcontinent 

185 

Bangladesh, India and Pakistan as compared to only 366 people globally. Again, the subcontinent boiler explosions 
caused nearly two times more severe injuries than the rest of the world. Figure 7 also shows an increased trend of 
death and injury in the subcontinent since 2012. 

The number of catastrophic boiler explosions and fatalities are increasing progressively in India and Bangladesh 
since 2012, which is shown in Figure 7. It is alarming to note that over 76% global deaths due to boiler explosions 
occurred in the subcontinent. India topped the list with 34% of the global death, closely followed by Bangladesh 
(21%) and Pakistan (21%).  The boiler explosion death in India is higher than Bangladesh or Pakistan as India’s 
registered boiler numbers are significantly larger compared to Bangladesh and Pakistan combined. India, Bangladesh 
and Pakistan are also responsible for over 66% global boiler explosion related human injuries compared to the rest 
of the world’s 34% (Figure 8). India again leads with 33% followed by Bangladesh (19%) and Pakistan (14%). 

In 1973, there were over 20,000 industrial boilers including roughly 500 power boilers in India [14,17,20]. Most 
boilers used in textile industries, followed by rice mills, distilleries, engineering and chemical industries. The percentage 
of shell boilers was largest being about 78%, water tube 14.5%, and package 7.5% [14]. It is believed to be the 
boilers number in India in 2018 is over 100,000. 
 

 
 

Figure 3: Boiler explosion at Multifabs garments factory, Kasimpur (near Gazipur), Bangladesh [8] 
 

 
 

Figure 4: Boiler explosion at Probace Enterprises pharmaceutical unit at Dombivli, India [9] 



Paul and Alam (2018): International Journal of Engineering Materials and Manufacture, 3(4), 182-189 

186 

 
 

 
 

Figure 5: Boiler explosion at NTPC’s Unchahar thermal power plant in Rae Bareli, Uttar Pradesh, India, adapted 
from [12, 13]. (a) Boiler explosion at NTPC power plant, (b) Fiery destruction after boiler explosion 
 
 

In Bangladesh, there are over 10,000 registered boilers. Additionally, there are over 2,000 boilers unregistered in 
Bangladesh [15]. The Boiler Inspection Department of Bangladesh has only 7 inspectors and a chief inspector to 
inspect over 6,500 registered operational boilers (out of 10,000) throughout the country [16]. Over 47 years ago in 
1971, there were 700 registered boilers and four boiler inspectors and a chief boiler inspector. Now after 47 years, 
the number of inspectors increased to 7 from 4 but boiler number has increased to over 10,000 [15]. The number 
ratio of boilers and boiler inspection is 1250 (in 2018) and 140 (in 1971). This figure clearly indicates why Bangladesh 
has become one of the leading countries (2nd in South Asia after India) for boiler explosion deaths and injuries. 
Currently, each of seven boiler inspectors is assigned to inspect on average of 100 boilers per month. However, in 
reality, they can hardly inspect one-third of assigned boilers. As a result, the defective and registration-expired boilers 
continue to operate. There is no strict compliance of boiler standards for the material, design, and construction in 
Bangladesh, despite locally manufactured boilers are increasingly filling gap of boiler needs along with imported in 
Bangladesh. 

Pakistan Boiler Act is based on Indian Boiler Act 1923. Like India, each province has boiler board who undertakes 
boiler registration, inspection and certification. At present, no data is available in public domain about the registered 
boiler numbers in Pakistan. However, it is believed that the number should be at least 8,000 to 10,000. 
  

a 

b 



Compliance of Boiler Standards and Industrial Safety in Indian Subcontinent 

187 

3 DISCUSSIONS 
The demand for industrial and domestic boilers has been increasing in all countries of Asia led by China, India, Japan, 
South Korea, Indonesia, Bangladesh, Vietnam, Pakistan, Philippines, Thailand and Malaysia. A recent study 
undertaken by Global Market Insights has revealed that the global boiler market (industrial, utility, commercial and 
residential) is expected to be over US$50 billion by 2024 [17, 18, 19, 20, 21]. In the subcontinent, India has the largest 
boiler market with annual growth of 24% followed by Bangladesh and Pakistan. Indian boiler market is mainly 
driven by energy and power industries [20]. The garment and textile sector are the main clientele for boilers in 
Bangladesh. About 70% of the boiler requirements of the garment and textile sectors are met through domestic 
manufacturing units. Poultry, feed mills, pharmaceuticals, food industries, auto rice mills, packaging, printing and 
leather industries are the major industries in Bangladesh that require boilers. Large boilers in Bangladesh are mostly 
imported. With the sustained growth in garments and textile industries in Bangladesh at an annual rate of 7%, there 
are large demands for boilers, which are expected to increase at a rate higher than the global demand of 4% [17]. 

After reviewing the Boiler Act 1923 and Boiler Regulations of India (1950), Boiler Regulations of Bangladesh (1951 
amended in 2007) and Pakistan (1951), it is noted that all these countries have identical framework based on historical 
‘Indian Boiler Act 1923’. Office of the Chief Inspector of Boilers is the main regulatory body to look after the 
regulatory aspects of this sector in these countries. It also conducts registration of boilers, inspection and recommends 
for repairs, etc. The Boiler Board- as a high-powered technical body reviews/approves technical standards, designs, 
testing and inspection of boilers. Trained manpower and equipment strength of the office are inadequate to operate 
effectively while ensuring safe operation and maintenance of boilers. 'The Boiler Act 1923’ is old and other regulatory 
frameworks are also outdated. The boiler rules/regulations and standards need continuous upgradation as new 
materials, technologies, control and monitoring systems are emerged. The boiler standards developed by ASME 
(USA), Standards Australia (AS), International Organization for Standardization (ISO) and other developed countries 
are being reviewed and updated regularly. The Boiler Act 1923 needs to be thoroughly revised and updated as per 
ASME (USA) and Standards Australia as these two standards are most up to date and incorporated all necessary 
aspects starting from design, manufacture, inspection & certification, operation, maintenance and repair. 

Some major issues with the boiler are proper operation, maintenance and repair. It is specially so in the Indian 
subcontinent. According to the US National Fire Protection Association (NFPA), the boiler explosions in the US are 
caused by the operator error (47%), insufficient purge (39%), control failure (11%), and equipment failure (3%) 
[22]. No such data is available for the Indian subcontinent. Therefore, the awareness about the boiler explosion 
should be part of core values in operating a boiler. In addition to the full compliance of national standards and boiler 
regulations, the boiler user should: a) have qualified personnel on site to manage the boiler, b) run scheduled 
preparedness drills, and c) undertake regular boiler checks and services. 
 
 

 
 

Figure 6: World-wide boiler explosion fatalities from 2012 to 2017, adapted from [5, 11] 
 

0

20

40

60

80

100

120

140

Death Injured Death Injured Death Injured Death Injured Death Injured Death Injured

2012 2013 2014 2015 2016 2017

N
um

be
r 

of
 p

eo
pl

e 

Bangladesh
India
Pakistan
Rest of the World



Paul and Alam (2018): International Journal of Engineering Materials and Manufacture, 3(4), 182-189 

188 

 
 
 

Figure 7: Deaths due to boiler explosions in Indian subcontinent from 2012 to 2017 
 
 
 
 
 
 

 
 

Figure 8: Injuries due to boiler explosions in Indian subcontinent from 2012 to 2017 
 
 
 
There appears to be a knowledge gap among industrial managers about boiler regulations and safety in the Indian 
subcontinent. Boilers rules in these countries cover features such as inspections and certification, registration, accident 
investigation, penalties etc. The rules particularly cover the holding of examinations and awarding competency 
certificates to boiler attendants and boiler engineers and even welders. Those assigned to boilers need to be fully 
conversant with their operations to avoid exposing themselves and others to risk of accidents. However, these rules 
are often flaunted/ violated while implementing on the grass root levels. The public and private sectors using 
industrial, utility and commercial boilers must recognise that the function of these laws is not merely to regulate 
business and industrial activity, but to avoid accidents, injuries, illnesses and loss of property. 
  

Boiler Explosion Death: 2012-2017 

Bangladesh (21%)

India (34%)

Pakistan (21%)

Rest of the World
(24%)

Boiler Explosion Injuries: 2012- 2017 

Bangladesh (19%)

India (33%)

Pakistan (14%)

Rest of the World
(34%)



Compliance of Boiler Standards and Industrial Safety in Indian Subcontinent 

189 

4 CONCLUSIONS 
Based on the present study, the following remedies are suggested to avert boiler related accidents and health hazards 
in the Indian subcontinent. 
 

1. Revise the boiler codes/standards and regulations in view of ASME (USA) and Standards Australia (AS). 
2. Create a pool of technical experts in boiler technology and operations to regulate the sector and maintain 

quality to avoid inherent risks. 
3. Strictly maintain Boiler Operation Log Program and Maintenance Log Program (on daily, weekly, monthly, 

semi-annual and annual basis). 
4. Arrange regular training programs on safety aspects for managers, engineers/operators, workers, welders 

working with the boilers. 
5. Develop a national database for boiler registrations, renewal, explosions, causes of explosions and remedial 

actions. 
6. Provide resources (skilled manpower, finance and equipment) to the National Boiler Board to carry out vested 

duties and responsibilities as per national standard and/or international standards.  
 
 
Acknowledgement 
The authors express their sincere gratitude and thanks to Professor Dr. M. A. Rashid Sarkar, Department of Mechanical 
Engineering, Bangladesh University of Engineering and Technology (BUET), Dhaka for sharing his knowledge on 
boiler operations in Bangladesh with us. 
 
 
REFERENCES 
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