Nov. 27, 2024
179 - Assurance in fire safety with Abhishek Chhabra
Discover the hidden backbone of fire safety with assurance industry expert Abhishek Chhabra as we unravel the essential frameworks that keep our buildings safe and sound. We explore the vital role of standards, accreditations, and testing mechanisms in fostering trust and compliance within the construction industry. It is not easy to talk about, but I assure you (pun intended) that Abhishek can talk about it in an engaging and fun way.
Gain a deeper understanding of the current landscape of fire safety engineering, where an urgent demand for robust credential assurance matches the scarcity of professionals. Delve into the complexities of establishing a comprehensive competence regime for the industry. Learn why the accuracy and repeatability of fire testing methods are indispensable in maintaining market trust and product safety. Through our conversation, we highlight the critical need for standards like ISO 17024, ISO 17025, ISO 17020 and 17065, ensuring that everyone, from designers to facility managers, is equipped with the necessary certifications.
As global safety standards evolve, the distinction between liability and responsibility becomes increasingly crucial.
At the end of the episode, we also discuss performance-based design and the potentially transformative role of laboratories and inspection bodies in developing custom solutions, addressing the unique challenges of innovative engineering projects. Join us as we explore the vital importance of testing in delivering reliable performance outcomes, particularly in an era when safety cannot be compromised.
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The Fire Science Show is produced by the Fire Science Media in collaboration with OFR Consultants. Thank you to the podcast sponsor for their continuous support towards our mission.
Chapters
00:00 - Assurance Industry in Fire Safety
17:51 - Ensuring Competence in Fire Safety
33:19 - Assurance Mechanisms in Fire Safety
43:36 - The Value of Standards-Based Assurance
Transcript
WEBVTT
00:00:00.020 --> 00:00:01.786
Hello everybody, welcome to the Fire Science Show.
00:00:01.786 --> 00:00:08.031
Every transaction in the world is done on the promise of some value going to be delivered.
00:00:08.031 --> 00:00:12.086
Podcasting is done based on the trust that the value is gonna be delivered.
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You trust me that I'm gonna deliver my content.
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However, compared with the world of fire science, engineering and construction industry out there, I don't really have anything to show you to prove you that the podcast is going to be of value.
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You have to trust me.
00:00:29.307 --> 00:00:34.704
You can assess the speaker, you can tap into opinions of others, but that's pretty much it.
00:00:34.704 --> 00:00:39.780
That's the trust, and we're not building buildings on the same promise.
00:00:39.780 --> 00:00:48.215
You're not going to pick the fire damper or fire doors based on a promise someone made that, someone bought them and someone liked them.
00:00:48.215 --> 00:01:01.411
You need something, some kind of a real physical proof that the transaction you're going to make trading money for value is going to work, and the thing I've described is something called the assurance industry.
00:01:01.411 --> 00:01:08.924
The assurance industry industry that's everywhere around us.
00:01:08.924 --> 00:01:11.992
That makes us sure that what is being purchased and delivered is something that we are expecting to get.
00:01:11.992 --> 00:01:14.543
Now we rarely think about it from this perspective.
00:01:14.543 --> 00:01:38.367
My fire safety engineering is mostly in the design stage, and I know most of the listeners of the Fire Science Show would be practicing fire safety engineers on that stage of the construction projects and we just, you know, pick solutions, we give fire resistance to the walls, we choose the indexes and stuff, and then those things somehow appear on the building and part of the fire safety strategy of the building unfolds.
00:01:38.367 --> 00:01:56.233
Now there is a very much underappreciated framework, a system that makes sure that stuff that comes to our buildings is exactly what we wanted, what we needed, meets the criteria and will last with those criteria for the expected life of that building.
00:01:56.653 --> 00:02:08.762
In this podcast episode I am discovering this with assurance industry expert Abhishek Chhabra, who's located in Dubai and spent a lot of years in fire testing laboratories.
00:02:08.762 --> 00:02:38.050
Now he is a consultant for the assurance industry and Abhishek gives me a very technical but yet interesting description of what are the components of the assurance industry, how ISO standards create the pillars of that industry and what are the technical systems that are put in place to make sure that when you draw a line on your project, the wall that it represents is going to work well in the fire.
00:02:38.050 --> 00:02:46.281
I mean, this episode was a ridiculously difficult job because when you start talking about certification and ISO standards.
00:02:46.281 --> 00:03:00.951
There's a good chance that people will turn off after two minutes and I promise you and I don't have any assurance to cover that but I promise you this is good and this is important, and this is a holistic look on the systems that are all around us, that surround us.
00:03:00.951 --> 00:03:11.662
We're part of them, and when you look at them from this perspective, a lot of things that are happening in the space start to make a lot more sense, and for that you should listen to this episode.
00:03:11.662 --> 00:03:14.169
Anyway, I won't stop you from listening.
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I will spin the intro and let's jump into the episode.
00:03:16.822 --> 00:03:23.311
Welcome to the Fire science Show.
00:03:23.311 --> 00:03:26.756
My name is Wojciech Wegrzynski and I will be your host.
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This podcast is brought to you in collaboration with OFR Consultants.
00:03:46.270 --> 00:03:49.209
Ofr is the UK's leading fire risk consultancy.
00:03:49.209 --> 00:04:00.052
Its globally established team has developed a reputation for preeminent fire engineering expertise, with colleagues working across the world to help protect people, property and environment.
00:04:00.052 --> 00:04:15.852
Established in the UK in 2016 as a startup business of two highly experienced fire engineering consultants, the business has grown phenomenally in just seven years, with offices across the country in seven locations, from Edinburgh to Bath, and now employing more than 100 professionals.
00:04:15.852 --> 00:04:27.524
Colleagues are on a mission to continually explore the challenges that fire creates for clients and society, applying the best research, experience and diligence for effective tailored fire safety solutions.
00:04:27.524 --> 00:04:38.163
In 2024, ofr will grow its team once more and is always keen to hear from industry professionals who would like to collaborate on fire safety futures.
00:04:38.163 --> 00:04:41.151
This year, get in touch at ofrconsultantscom.
00:04:42.079 --> 00:04:53.865
Hello everybody, I am joined here today by Abhishek Chhabra, director for International Outreach in two organizations, afcia and FCA, and assurance expert located in Dubai.
00:04:53.865 --> 00:04:55.711
Hello, abhishek, good to have you in the podcast.
00:04:55.711 --> 00:04:57.908
Hello, hello, very, very good morning.
00:04:57.908 --> 00:05:10.608
You've proposed an interesting topic for this podcast, which are the compliance regime and the compliance in fire safety overall, but I'm more interested about you being an assurance industry expert.
00:05:10.608 --> 00:05:12.632
Let's probably start with that.
00:05:12.632 --> 00:05:16.810
So what is an assurance industry and how it relates to fire safety?
00:05:17.360 --> 00:05:25.252
So the assurance industry is the root for any buy-sell transaction anywhere in the world.
00:05:25.252 --> 00:05:41.093
Anything that is bought or sold, whether it's a product or a service, is always done so on a promise saying my product will perform in a given way, or my service or my workmanship will last for so many years.
00:05:41.093 --> 00:05:48.827
There is always a claim which arrives at, or helps to arrive at, the value of what the product is or what the service is.
00:05:48.827 --> 00:06:03.466
And the assurance industry is this ubiquitous industry that is all around us in the form of standards, in the form of accreditations, in the form of testing, inspection, certification.
00:06:03.466 --> 00:06:18.387
All of these various constructs add on to create the assurance industry, or create the framework of the assurance industry, and it is ever prevalent everywhere, and, I think, much more than in the past.
00:06:18.387 --> 00:06:29.024
Now, within the fire safety world, the assurance industry, or the tools coming from the assurance industry, are becoming more and more important.
00:06:29.024 --> 00:06:42.675
This is kind of on the back of governments, private organizations, insurance companies, property owners, businesses, all feeling a greater need to assure fire safety.
00:06:43.581 --> 00:06:50.540
I like how you define it, because it seems I'm also a part of this industry, just never thought about it from this high-level perspective.
00:06:50.540 --> 00:07:00.079
And I especially like the words promise and value, because that, exactly for me, that's what design process is Like.
00:07:00.079 --> 00:07:17.600
We are crafting a promise, a promise of fire safety for the building, and the value is how much of that fire safety we can bring, and indeed there is an entire industry that makes sure that this value is brought to the building that's being designed.
00:07:17.600 --> 00:07:26.975
So that's quite a long path from something being designed in a building to something being built into a building.
00:07:26.975 --> 00:07:27.334
Right?
00:07:27.334 --> 00:07:31.550
Can you tell me a little bit more about this pathway from your perspective?
00:07:31.550 --> 00:07:39.827
How much of stuff is happening in the background, from design replacing a line on the drawing to something really being executed in a building?
00:07:40.300 --> 00:07:45.333
Sure, I mean, this is an intriguing and exciting and a very vast subject.
00:07:45.333 --> 00:07:56.891
You know, I had earlier thought that I will talk a little bit more about the you know assurance industry and the standards used, but your question is taking me to a jump ahead and then I'll come back to this.
00:07:56.891 --> 00:08:06.553
Let me take an example from FCIA, one of the bodies I represent, which is a 25-year-old association from North America.
00:08:06.553 --> 00:08:17.192
Originally and originally it was a fire stock contractors international association and now it has grown to become an association for the passive fire protection industry.
00:08:17.192 --> 00:08:32.214
And they prophesize a very interesting concept which answers your question, and this concept is called the DIIM philosophy, which is design, install, inspect, maintain.
00:08:32.214 --> 00:08:55.294
And this kind of quality management system-based ideology covers this whole cycle that when we are designing containment or passive fire protection in any kind of building or infrastructure, it starts with correct design, which should follow the prescriptive or non-prescriptive approach.
00:08:55.294 --> 00:09:24.796
But it has to be designed as per some standard methods and the standards, of course, have evolved based on empirical knowledge, data and analysis of past accidents, incidents, experiments, and hence these design needs to be done by people who are knowledgeable for design, who have been qualified for design, who have some sort of a credentialing mechanism for design.
00:09:25.015 --> 00:09:33.761
Again, in this element, the assurance industry comes into play Again.
00:09:33.761 --> 00:09:38.511
When we talk of installation, we need to make sure that the products, the materials, the systems have some sort of an assurance.
00:09:38.511 --> 00:09:40.160
Have they been tested?
00:09:40.160 --> 00:09:43.986
Is testing alone enough to assure?
00:09:43.986 --> 00:09:48.514
No, because testing is always done on golden samples, as we say.
00:09:48.514 --> 00:10:05.835
The assurance requires what is a higher level of assurance done by certification and listing, where there is a third party who will audit the factory of the manufacturer and make sure that the products are correctly manufactured repetitively.
00:10:06.600 --> 00:10:20.133
An installation again calls for the competence of the installer, who should be able to understand design, who should be able to understand materials and proof of assurance.
00:10:20.133 --> 00:10:23.519
Is it certified compliant to a given standard?
00:10:23.519 --> 00:10:32.168
As well, as the installer needs to be qualified to match these three things One, the design of a specific building.
00:10:32.168 --> 00:10:37.192
Two, how it was originally tested for compliance to that design.
00:10:37.192 --> 00:10:51.006
And three, the skill required to reproduce it in the given project or building and be able to have the backbone to raise a red flag and say this is not okay, I cannot install this.
00:10:51.006 --> 00:10:55.764
So this is design and install where assurance kind of views it.
00:10:56.404 --> 00:10:59.773
And then we talk about inspection, which has to be independent.
00:10:59.773 --> 00:11:06.913
You cannot have a contractor or a person who has done the installation inspect their own work.
00:11:06.913 --> 00:11:25.470
This inspection has to be done by someone who is independent of the buy-sell arrangement, so it cannot be linked with the contractor and whoever the contractor is getting paid by or paid for, and the inspector needs to have a standard-based qualification to do it.
00:11:25.470 --> 00:11:47.609
And this all of this is just till the handover of a project or a building, and the real story starts actually after that, when the users start using the infrastructure or building in their own way, in their own sense, do the modification, saying hey, I need a pipe here, I need an opening here, I need to connect internet or whatever.
00:11:47.609 --> 00:11:50.909
And that's where the maintenance bit comes in.
00:11:50.909 --> 00:11:52.745
Who is authorized to maintain?
00:11:52.745 --> 00:11:59.261
And do they have all the information from design to construction to now?
00:11:59.261 --> 00:12:09.870
So the D-I-I-M philosophy then kind of addresses your point that there is a whole broad brush range to the whole life cycle of a project.
00:12:10.677 --> 00:12:21.498
I really like that philosophy because a lot of people would not appreciate how much happens after the design, like for many of us fire safety engineers.
00:12:21.498 --> 00:12:24.498
You know, having designed a building, that's it.
00:12:24.498 --> 00:12:25.419
We're done.
00:12:25.419 --> 00:12:29.636
We've put up the fire safety strategy, I've designed my smoke control system.
00:12:29.636 --> 00:12:34.557
I told them how many cubic meters per hour they need and I'm kind of done.
00:12:34.557 --> 00:12:40.958
But actually from that point to the point where it's executed on the building, as a whole story.
00:12:41.490 --> 00:13:01.513
And then I'm not designing this to work on on just day one of the building, I'm designing it to to work over the life cycle of the building, which will be 50, 100, the, the tunnels that I'm designing are immortal, actually, like no one's gonna commission out a tunnel because of the, the important role they play in the society.
00:13:01.552 --> 00:13:08.956
In germany we have a virtue age of railway tunnel over 100 years and they just get refurbished and that it's.
00:13:08.956 --> 00:13:13.436
They're never gonna be removed because they are critical, so they're immortal.
00:13:13.436 --> 00:13:16.767
So yeah, there is a lack of appreciation for that craft.
00:13:16.767 --> 00:13:20.072
I I'm very sure for that, having worked as a designer and having worked as a part of appreciation for that craft.
00:13:20.072 --> 00:13:33.130
I I'm very sure for that, having worked as a designer and having worked as a part of this insurance industry, as a part of an accredited fire laboratory, and someone who who did a few audits not not that many, but they did a few very, very interesting.
00:13:33.130 --> 00:13:51.657
I also like how often you bring the the people in that, because each of these DIIM included a specific person or a specific group of people with very, very specific competencies, can you elaborate on those competencies and the need for that 100%.
00:13:51.797 --> 00:13:56.955
I mean, let me weave in some standardization into this, which is very, very important.
00:13:56.955 --> 00:14:08.721
So there are a lot of standards which are out of the family of what we call the ISO 17,000 family, the ISO 17,000 family.
00:14:09.041 --> 00:14:11.671
The ones that you get audited for all the time.
00:14:12.552 --> 00:14:23.865
Yes, but even as someone who is in the industry of assurance, as you have been, you know part of the lab, part of inspection.
00:14:23.865 --> 00:14:28.070
There is some likelihood that you know some of these standards.
00:14:28.070 --> 00:14:47.119
You know the 17,000 series is managed by a subgroup which is the CASCO group of ISO, which is the conformity assessment group of ISO, which is the conformity assessment and ranging from you know 17,011, it goes up to great details 17,000, I think 50 or 60, 70, 80.
00:14:47.119 --> 00:14:53.056
I can't remember the numbers, but there are close to probably 20 standards which are very critical.
00:14:53.056 --> 00:15:00.318
These go on to define the assurance industry's mechanisms, how management systems, et cetera, etc.
00:15:00.318 --> 00:15:00.600
Etc.
00:15:00.600 --> 00:15:22.306
But I will put four today in perspective which I feel are the pillars of our industry, very, very specific to the fire safety industry and all the fire engineers who are listening or other people who are listening, which is 17,020, 17,024, 25, and 65.
00:15:22.769 --> 00:15:25.219
So 20 is operation of bodies performed.
00:15:25.219 --> 00:15:26.817
I have a cheat sheet.
00:15:26.817 --> 00:15:33.062
Iso 17020 is the operation of bodies performing inspection.
00:15:33.062 --> 00:15:41.741
Iso 17025 is testing and calibration laboratories yes, that's what I'm getting myself audited all the time for.
00:15:41.741 --> 00:15:49.476
17024, operating certification of people, and you said 65.
00:15:49.476 --> 00:15:55.783
Yes, that is ISO 17065, body certifying products, processes and services.
00:15:55.783 --> 00:16:00.841
So those, you would say, are the four pillars for our industry out of the ISO family.
00:16:01.431 --> 00:16:02.636
I mean very, very strong.
00:16:02.636 --> 00:16:09.657
There are others which kind of get weaved in in some of the other points, but these are the key pillars.
00:16:09.657 --> 00:16:52.490
So any designer who wants to design something that would last as long as a tunnel that you doffed off, or needs to have built-in assurance mechanisms, saying what they thought over countless day and night meetings, thinking about design philosophy, of how they will ensure that the design will have the fire safety built in If they use these four standards correctly in their documentation, referencing specifications, the assurance bumps up by so many percentage points that the insurance industry in the world would get very, very excited about because all their formulas would line up very quickly.
00:16:52.490 --> 00:16:57.423
So I will not start in the numerological order of 2024.
00:16:57.669 --> 00:17:03.293
I will start with 2025, which is a standard known to you, probably well enough.
00:17:03.293 --> 00:17:11.035
But 25 starts with calibration, which means that the method of measurement needs to be accurate.
00:17:11.035 --> 00:17:18.752
This is the starting point, before we even get into the fact that the testing methodology has to be repeatable.
00:17:18.752 --> 00:17:34.083
So 17 or 25, two key points assuring that the method of measurement is accurate and assuring that the measurement itself is not just accurate but also repeatable, whether it is a piece of a cloth or a chemical or a gypsum board or a fire door.
00:17:34.083 --> 00:17:49.696
They will always perform the tests of chemical, physical, fire tests, whatever and make sure the assurance is correct.
00:17:50.529 --> 00:17:51.493
It's very like.
00:17:51.493 --> 00:18:04.195
This conversation is really funny to me because this is something that's so fundamental, like it's so endowed in you as a someone doing fire testing in a laboratory or responsible for a laboratory.
00:18:04.195 --> 00:18:05.458
It's so obvious.
00:18:05.458 --> 00:18:19.603
But now, now, when you point this out, when when you, you know, point your finger at those standards, they realize that there must be so many people who have no clue that these systems are put in place and they're so profound.
00:18:19.603 --> 00:18:24.758
Actually, even the simple thing that you said, the method is accurate and repeatable.
00:18:24.758 --> 00:18:26.856
That's like a cornerstone.
00:18:26.856 --> 00:18:30.798
If we don't have that, how can you compare to products on the market?
00:18:30.798 --> 00:18:32.416
How can you put anything on the market?
00:18:32.416 --> 00:18:38.849
How can you put any trust in a product that you have obtained from the market and put inside of the building?
00:18:38.849 --> 00:18:55.190
So, indeed, for those who've never been a part of this type of assurance regime, focus up, because this is important and this affects all of us all the time, as designers, as fire safety engineers, whatever role you're in the industry.
00:18:55.190 --> 00:19:00.103
Sorry, I broke your chain of thought, but it was a reflection.
00:19:00.930 --> 00:19:05.041
This is most important and that's why I kind of chose to start with this one.
00:19:05.041 --> 00:19:09.519
I will move then now back to 17 or 24.
00:19:09.519 --> 00:19:14.009
It is the standard for bodies who are operating.
00:19:14.009 --> 00:19:42.912
Certification of persons and this, you know, suddenly comes into context nowadays much more in countries like United Kingdom, several other countries who worked on a very structure-based implementation of laws is when we talk of people who are to be held accountable, who will be liable by a specific number for what they do need to be certified, which means I'm talking of designers.
00:19:42.912 --> 00:19:56.104
When you have a business or a set of individuals who the businesses trust to design, they need to hold a certification which again is assured by a third party.
00:19:56.104 --> 00:20:06.178
So when the designer says that this building is fire safe for 1000 years, who is authorizing the designer to say this?
00:20:06.178 --> 00:20:13.656
It is a certification body, often coming out of trade associations, who form these standards.
00:20:13.757 --> 00:20:24.778
From a practical point of view, that what are the minimum qualifications that are required for the personnel who are practicing any given profession?
00:20:24.778 --> 00:20:39.400
You and I know that there are bodies of architects, there are guilds of various trades, people who come together who write what is the minimum requirement for you to be called a plumber, a technician, electrician, etc.
00:20:39.400 --> 00:20:44.438
But there is a need for an independent certification program.
00:20:44.438 --> 00:20:49.549
Who is a certified electrician, a plumber, a fire designer?
00:20:49.549 --> 00:20:55.252
This certification program is run as per 17024.
00:20:55.252 --> 00:21:07.480
So this is the second pillar, which is all pervasive, that whichever individual you want to talk about as a function, whether it's a consultant, it could 17.024.
00:21:07.480 --> 00:21:35.604
So you will have various conformity bodies, businesses who are, you know, for example, likes of the big certification bodies like UAL, intertech, sgs, bureau, veritas, tuv, a-plus, and you know there's a very long list of companies.
00:21:35.604 --> 00:21:43.174
I hope my friends in all those businesses who I did not name don't get back to me, but this is what I can remember right now.
00:21:43.174 --> 00:21:46.182
So you have a slew of these companies all over the world.
00:21:46.182 --> 00:21:53.290
Sometimes these are government bodies within a country who do this and there is a whole kind of industry around this.
00:21:53.891 --> 00:21:54.672
So this is people.
00:21:54.672 --> 00:21:56.232
Now people are covered.
00:21:56.232 --> 00:22:00.634
And this when I say people are covered, people are covered across design.
00:22:00.634 --> 00:22:03.958
People are covered within testing.
00:22:03.958 --> 00:22:05.278
Are they competent?
00:22:05.278 --> 00:22:07.960
People are covered as contractors.
00:22:07.960 --> 00:22:11.021
People are covered as inspectors.
00:22:11.021 --> 00:22:19.567
People are covered as facility managers or FM company across the cycle of the construction.
00:22:19.567 --> 00:22:25.009
Whoever, as an individual or fund, has liability should have some sort of insurance.
00:22:25.349 --> 00:22:43.942
What you bring now is something that's also in the middle of a very passionate discussion within the community, because designers, yes, they would be certified through their guilds or through other measures that give you ability to practice the work of a designer or an engineer.
00:22:43.942 --> 00:22:48.856
In some countries it will be protected, in some it's not, but usually you would expect some sort of that.
00:22:48.856 --> 00:23:00.195
But for fire safety engineers, I don't really know a good competence regime and it's something that we absolutely need and we don't have that.
00:23:00.195 --> 00:23:02.178
It's something that has to be built.
00:23:02.178 --> 00:23:06.662
We don't have a fire safety engineers guild that can, you know, give you that.
00:23:06.662 --> 00:23:11.981
And I contemplated for a long time, why is that?
00:23:11.981 --> 00:23:14.978
And two things are problematic.
00:23:14.978 --> 00:23:17.290
One is the scope, so there are these SFP core competencies.
00:23:17.290 --> 00:23:18.892
One is the scope, so there are these SFP core competencies.
00:23:18.951 --> 00:23:25.257
But, for example, I've had an episode with Jimmy Johnson on SFP core competencies who's a fire safety engineer?
00:23:25.257 --> 00:23:29.621
And they are so vast Like it's almost impossible that you have all of them.
00:23:29.621 --> 00:23:37.967
It's so many industries, it's like you would have to have a PhD in fire safety engineering to have at least a glimpse of all of them.
00:23:37.967 --> 00:23:44.834
And the other thing is that fire safety engineers are pretty scarce within the country.
00:23:44.834 --> 00:23:48.942
So we're not having an international accreditation scheme, cross-country.
00:23:49.451 --> 00:24:06.621
It would be regulated at the level of a country because the security, the safety, you know, each country is independent in how they rule their own system and you have maybe a few hundred fire safety engineers in that country, so that's like you may have 100,000 architects right.
00:24:06.621 --> 00:24:11.794
So that's a big group of people, big industry, to regulate A few hundred fire safety engineers.
00:24:11.794 --> 00:24:13.820
We don't even know who those people are.
00:24:13.820 --> 00:24:15.375
You know they do something with fire.
00:24:15.375 --> 00:24:16.372
No one knows what they do.
00:24:16.372 --> 00:24:30.234
So I find you know, at the same time, a huge need for this assurance of the credentials of fire safety engineers in particular, and I feel we don't have it and I'm wondering if we will have it.
00:24:30.576 --> 00:24:38.700
I am very excited and happy that both of us are having this conversation, so I'm thankful to you giving me this opportunity.
00:24:38.700 --> 00:24:49.056
I'm thankful to each and every listener who will listen to this, because, you know, progress of solving problems comes by these kinds of conversations.
00:24:49.056 --> 00:25:04.694
So what you say is a problem or a challenge being tackled head on by various people, and I would be very excited to have this conversation further to support all of them on how this problem can be solved.
00:25:04.694 --> 00:25:06.439
You talked about SFPE.
00:25:06.439 --> 00:25:07.903
Absolutely, you know.
00:25:07.903 --> 00:25:19.882
They have developed you know this not oceans, but galaxies of information and we are at this time, if I'm not wrong, when we talk of SFPE, we are only in-depth about design.
00:25:19.882 --> 00:25:27.923
To some extent we are talking about installation, inspection, meet, but it is much strong focus on design.
00:25:27.923 --> 00:25:52.798
So I'll come back to the associations that I work for, and I'm very excited to have chosen to work for them, because they have solved this exact problem that you're talking of already to a considerable extent by being able to create as well as deliver systems cut across the laws and politics and standards of nations.
00:25:52.798 --> 00:25:55.016
So brace for this.
00:25:55.016 --> 00:25:58.000
This is going to be very interesting what I'm about to tell you.
00:25:58.651 --> 00:26:10.423
The National Fireproofing NFCA Association created a handbook of accepted knowledge and the FCA worked on what is called the Manual of Practice for Fire Stopping.
00:26:10.423 --> 00:26:43.630
This is, you know, a large, voluminous book in its eighth edition that has been progressively becoming standard neutral, and this is very exciting when I say standard and code neutral, which means this document is able to teach anyone who needs to design, install, inspect or maintain fire stopping by explaining a broad spectrum of technologies of fire stopping, which is materials, systems, solutions across manufacturers.
00:26:43.630 --> 00:27:01.557
But it starts with setting a base for teaching the individual how to read drawings, how to read the assurance documentation whether it is certification and listing done on the directory of Intertech or UL or FM and the drawing of the project.
00:27:01.557 --> 00:27:06.261
So three pieces are taught very, very well across standards.
00:27:06.261 --> 00:27:39.517
So whether you are looking at an ASTM standard or a UL standard in North America, or you are looking at a BS or an EN standard in Europe or UK, or you are looking at standards very recently published in Brazil or India, where we are, you would be surprised and people are aware of this, that there are fire resistance test methods for testing through penetration fire stops, perimeter fire barriers, as per Indian standards, as per Brazilian standards.
00:27:39.917 --> 00:27:42.671
So the document, which is the manual of practice.
00:27:42.671 --> 00:28:08.602
The teaching practice now has been progressing so well that it is cutting across what you mentioned, the politiki or the country level mechanisms, which means we have a training mechanism in order to impart training and then we have a credentialing mechanism which is run by international businesses, companies like UL and FM, and international accreditation bodies.
00:28:08.602 --> 00:28:40.329
So now we have mechanisms in place on the basis of this education system that has progressed over a period of time and saying that this is something that can be directly adopted by contracts, by governments, by quasi-government bodies, saying if we have a person who is credentialed, we can be assured that they know how to design a fire stop, we can be assured how they are installing a fire stop, we can be assured how they are inspecting a fire stop, how they are maintaining a fire stop.
00:28:40.329 --> 00:28:52.740
So this model now is getting expanded to fire doors, to partition systems, to fire rated glazing and just about everything in passive fire protection.
00:28:53.130 --> 00:28:58.138
I think the way how it's subdivided into specific products even.
00:28:58.138 --> 00:29:06.155
I think that's the key for success in that scheme, because if you think about the holistic fire safety engineering, it's such a broad discipline.
00:29:06.155 --> 00:29:10.540
The more you narrow it down, the easier it is to put a regime in place.
00:29:10.540 --> 00:29:29.299
If you have a person that has to be competent for designing fire doors as placing them in a building, that's fairly simple to define what the person needs to know, what the person needs to understand and what the person should do in their professional practice, and then, based on that, provide professional accreditation.
00:29:29.299 --> 00:29:34.221
For that part, when you talk about fire safety engineer, I don't have a clue what fire safety engineer does.
00:29:34.691 --> 00:29:37.459
In every country the fire safety engineer will be doing a different thing.
00:29:37.459 --> 00:29:41.180
You know, in the US the fire safety engineer may be a code consultant.
00:29:41.180 --> 00:29:44.058
In the UK they will be obsessed with fire strategy.
00:29:44.058 --> 00:30:00.691
In Poland they will have 70 clauses of code that they will have to watch for and, you know, juggle between them to make sure that the building is compliant with the building law, or if they want to go away from the low, they will have to figure out a specific thing.
00:30:00.691 --> 00:30:08.932
So the idea of having pieces of knowledge defining what is the competency that you can teach from.
00:30:08.932 --> 00:30:09.814
That's important.
00:30:10.295 --> 00:30:15.814
If you want to execute, we need to have the means to teach In fire safety engineering in general.
00:30:15.814 --> 00:30:30.349
If you just wanted you know a holistic fire safety engineer accreditation scheme, that manual, I mean you cannot go and do an exam from the entire SFP handbook, right, that would be a killer.
00:30:30.349 --> 00:30:39.722
But nevertheless, this is an interesting pathway and I think our colleagues who are working towards those schemes should follow those ideas.
00:30:39.722 --> 00:30:44.342
How different parts or subparts of our industry have solved the problem for them.
00:30:44.342 --> 00:30:56.722
And definitely in the install inspection areas, there's a ton of people who get those accreditation and get those credentials that confirm that they are fit to do the job.
00:30:56.971 --> 00:31:06.340
So you know, to answer your pertinent and important point of view, which is the spread of responsibility, the spread of, you know, definition itself.
00:31:06.340 --> 00:31:07.463
Who is a fire engineer?
00:31:07.463 --> 00:31:10.390
Excuse me, you know like depends where you're sitting.
00:31:10.390 --> 00:31:23.153
The fire engineer could be an MEP engineer, which is mechanical electrical plumbing, or a cord consultant, both or none electrical plumbing or a cord consult, both or none.
00:31:23.153 --> 00:31:35.903
So I would like to bring in two perspectives which help clarify this answer whenever you are sitting, and these two perspectives are what I call as the key drivers of assurance in the world, in any industry that you work.
00:31:35.903 --> 00:31:46.063
And these two drivers stem from what is more important in a given country Is law more important or money more important?
00:31:46.063 --> 00:32:01.183
This is a perspective which is very deep sometimes, but in any place that you are sitting in, which could be a municipal body or a municipality of a country, city or a state, in this microcosm environment, what is stronger?
00:32:01.183 --> 00:32:03.255
Is money stronger or law stronger?
00:32:03.255 --> 00:32:09.211
And this is where the definitions of all that you are talking of come into play.
00:32:09.612 --> 00:32:34.222
So, if you have a microcosm of, let's say, the hospitality industry, which is hotels all over the world, we know that there are certain and several large international brand names of hotels, who would swear by the fact that if it's a property with my company's flag on it, then you know these 30 things.
00:32:34.222 --> 00:32:37.832
You can question them and fire safety is one of them.
00:32:37.832 --> 00:32:38.792
They stand by it.
00:32:38.792 --> 00:32:57.963
If we talk of healthcare hospitals, for example, you have several competing international accreditation bodies, like the Joint Commission or so many others, who provide the branding or the name or the trustability to a hospital that they function.
00:32:57.963 --> 00:33:18.179
They again call in these resources and answer the questions of who is a fire engineer, who is a contractor, what they are supposed to do, and all over the world these definitions are becoming firmer and firmer and I am encouraging all the people to use standardization.
00:33:19.020 --> 00:33:21.565
When we talk of these four ISO standards.
00:33:21.565 --> 00:33:38.250
It is so much easy to define liability and responsibility, and when we talk of liability and responsibility as two words, then the core directives which we started off earlier saying is it money or law?
00:33:38.250 --> 00:33:50.012
So if you have a project backed by money, which is the money of a financial institution, insurance industry, when they see a standard trail, who is responsible for what?
00:33:50.012 --> 00:33:59.809
They know where the money can go or from whom the money can be taken in case of an incident or an accident, and exactly the same mechanisms is used by law.
00:33:59.809 --> 00:34:08.065
So if someone wants to punish a business or an individual, then this standard based traceability comes in handy.
00:34:08.445 --> 00:34:16.271
Let's go back to your pillars and I'm rushing because I'm worried we'll run out of time but there were two more inspection, certification.
00:34:16.271 --> 00:34:17.400
Let's try inspection maybe.
00:34:17.661 --> 00:34:23.494
Sorry, I will talk about certification first because, okay, let's do certification first.
00:34:23.494 --> 00:34:27.090
Then yes, because inspection without certification is no good.
00:34:27.090 --> 00:34:31.472
When we test a product and you are very familiar with testing.
00:34:31.661 --> 00:34:32.960
I am very familiar with testing.
00:34:32.960 --> 00:34:44.847
We know that the test sample, whatever it could be a fire door, a sealant, a gypsum board, a cloth, a chemical, a food item, anything they know it has gone for a test.
00:34:44.847 --> 00:34:50.112
The manufacturer typically would know or the sender of the sample knows this will be tested.
00:34:50.112 --> 00:34:54.188
So you present the best case To prevent this scenario.
00:34:54.188 --> 00:35:01.688
As a means of assurance, the mechanism of certification has come into play, which is 17065.
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