Welcome to Risk Management 101, where we’re going to go through these basic concepts of risk management. We’re going to break it down into the constituent parts and then we’re going to build it up again and show you how it’s done. I’ve been involved in risk management, in project risk management, safety risk management, etc., for a long, long time. I hope that I can put my experience to good use, helping you in whatever you want to do with this information.
Maybe you’re getting an interview. Maybe you want to learn some basics and decide whether you want to know more about risk management or not. Whatever it might be, I think you’ll find this short session really useful. I hope you enjoy it and thanks for watching.
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Risk Management 101, Topics
- Hazard Identification;
- Hazard Analysis;
- Risk Estimation;
- Risk [and ALARP] Evaluation;
- Risk Reduction; and
- Risk Acceptance.
Risk Management 101, Transcript
Introduction
Hi everyone and welcome to Risk Management 101. We’re going to go through these basic concepts of risk management. We’re going to break it down into the constituent parts. Then we’re going to build it up again and show you how it’s done.
My name is Simon Di Nucci and I have a lot of experience working in risk management, project risk management, safety risk management, etc. I’m hoping that I can put my experience to good use, helping you in whatever you want to do with this information. Whether you’re going for an interview or you want to learn some basics. You can watch this video and decide if you want to know more about risk management or if you don’t need to. Whatever it might be, you’ll find this short session useful. I hope you enjoy it and thanks for watching.
Topics For This Session
Risk Management 101. So what does it all mean? We’re going to break risk management down into we’ve got six constituent parts. I’m using a particular standard that breaks it down this way. Other standards will do this in different ways. We’ll talk about that later. Here we’ve got risk management broken down into; hazard identification, hazard analysis, risk estimation, risk evaluation (and ALARP), risk reduction, and risk acceptance.
Risk Management
Let’s get right on to that. Risk management – what is it? It’s defined as “the systematic application of management policies, procedures, and practices to the tasks of hazard identification, hazard analysis, risk estimation, risk and ALARP evaluation, risk reduction, and risk acceptance”.
There are a couple of things to note here. We’re talking about management policies, procedures, and practices. The ‘how’ we do it. Whether it’s a high-level policy or low-level common practice. E.g. how things are done in our organization vs how the day-to-day tasks are done? And it’s also worth saying that when we talk about ‘hazards’, that’s a safety ‘ism’. If we were doing security risk management, we could be talking about ‘threats’. We can also be talking about ‘causes’ in day-to-day language. So, we can be talking about something causing a risk or leading to a risk. More on that later, but that’s an overview of what risk management is.
Part 1
Let’s look at it in a different way. For those of you who like a visual representation, here is a graph of the hierarchical breakdown. They need to happen in order, more or less, left to right. And as you can see, there’s a link between risk evaluation and risk reduction. We’ll come on to that. So, it’s not ‘or’ it’s a serial ‘this is what you have to do’. Sometimes they’re linked together more intimately.
Hazard Identification
First of all, hazard identification. So, this is the process where we identify and list hazards and accidents associated with the system. You may notice that some words here are in bold. Where a word is in bold, we are going to give the definition of what it is later.
These hazards could lead to an accident but are only associated with the system. That’s the scope. If we were talking about a system that was an airplane, a ship, or a computer, we would have a very different scope. There would also be a different way that maybe accidents would happen.
On a more practical level, how do we do hazard identification? I’m not going to go into any depth here, but there are certain classic ones. We can consult with our workers and inspect the workplace where they’re operating. In some countries, that’s a legal requirement (Including in Australia where I live). Another option is looking at historical data. And indeed, in some countries and in some industries, that’s a requirement. A requirement means we have to do that. And we can use special analysis techniques. Now, I’m not going to talk about any of those analysis techniques today. You can watch some other sessions on The Safety Artisan to see that.
Hazard Analysis
Having done hazard identification, we’ve asked ourselves ‘What could go wrong?’. We can put some more detail on and ask, ‘How could it go wrong? And how often?’. That kind of stuff. So, we want to go into more detail about the hazards and accidents associated with this particular system. And that will help us to define some accident sequences. We can start with something that creates a hazard and then the hazard may lead to an accident. And that’s what we’re talking about. Later, we will show that using graphics can be helpful.
But again, more on terminology. In different industries, we call it different things. We tend to say ‘accident’ in the UK and Australia. In the U.S., they might call it a ‘mishap’, which is trying to get away from the idea that something was accidental. Nobody meant it to happen. Mishap is a more generic term that avoids that implication. We also talk about ‘losses’ or we talk about ‘breaches’ in the security world. We have some issues where somebody has been able to get in somewhere that they should not. And we can talk about accident sequences. Or, in a more common language, we call it a sequence of events. That’s all it is.
Risk Estimation
Now we’re talking about the risk estimation. We’ve thought about our hazards and accidents and how they might progress from one to another. Let’s think about, ‘How big is the risk of this actually happening?’. Again, we’ll unpack this further later at the next level. But for now, we’re going to talk about the systematic use of available information. Systematic- so, ordered. We’re following a process. This isn’t somebody on their own taking a subjective view ‘Look, I think it’s not that’. It’s a process that is repeatable. We want to do something systematic. It’s thorough, it’s repeatable, and so it’s defendable. We can justify the conclusions that we’ve come to because we’ve done it with some rigour. We’ve done it in a systematic way. That’s important. Particularly if we’re talking about harm coming to people or big losses.
Risk and ALARP / SFARP Evaluation
Now, risk evaluation is just taking that estimated risk just now and comparing it to something and saying, “How serious is this risk?”. Is it something that is very low? If it’s very insignificant then we’re not bothered about it. We can live with it. We can accept it. Or is it bigger than that? Do we need to do something more about it? Again, we want to be systematic. We want to determine whether risk reduction is necessary. Is this acceptable as it is or is it too high and we need to reduce it? That’s the core of risk evaluation.
Tolerability
In this UK-based standard – we’re using terminology is found in different forms around the world. But in the UK, they talk about ‘tolerability’. We’re talking about the absolute level of risk. There probably is an upper limit that’s allowed in the law or in our industry. And there’s a lower limit that we’re aiming for. In an ideal world, we’d like all our risks to be low-level risks. That would be terrific.
So, that’s ‘tolerability’. And you might hear it called different things. And then within the UK system, there are three classes of ‘tolerability’ at risk. We could say it’s either ‘broadly acceptable’- it’s very low. It’s down in the target region where we like to get all our risks. It’s ‘tolerable’- we can expose people to this risk or we can live with this risk, but only if we’ve met certain other criteria. And then there’s the risk that it’s so big. It’s so far up there, that we can’t do that. We can’t have that under any circumstances. It’s unacceptable. You can imagine a traffic light system where we have categorized our risk.
ALARP / SFARP
And then there’s the test of whether our risk can be accepted in the UK. It’s called ALARP. We reduce the risk As Low As Reasonably Practicable. And in other places, you’ll see SFARP. We’ve eliminated or minimized the risk So Far As Is Reasonably Practicable. In the nuclear industry, they talk about ALARA: As Low As Reasonably Achievable. And then different laws use different tests. Whichever one you use, there’s a test that we have to say, “Can we accept the risk?” “Have we done enough risk reduction?”. And whatever you’ve put in those square brackets, that’s the test that you’re using. And that will vary from jurisdiction to jurisdiction. The basic concept of risk evaluation is estimating the level of risk. Then compare it to some standard or some regulation. Whatever it might be, that’s what we do. That’s risk evaluation.
Risk Reduction
We’ve asked, “Do we need to reduce risk further?”. And if we do, we need to do some risk reduction. Again, we’re being systematic. This is not some subjective thing where we go “I have done some stuff, it’ll be alright. That’s enough.”. We’re being a bit more rigorous than that. We’ve got a systematic process for reducing risk. And in many parts of the world, we’re directed to do things in a certain way.
Elimination
This is an illustration from an Australian regulation. In this regulation, we’re aiming to eliminate risk. We want to start with the most effective risk reduction measures. Elimination is “We’ve reduced the risk to zero”. That would be lovely if we could do that but we can’t always do that.
Substitution
What’s the next level? We could get rid of this risk by substituting something less risky. Imagine we’ve got a combustion engine powering something. The combustion engine needs flammable fuel and it produces toxic fumes. It could release carbon monoxide and CO2 and other things that we don’t want. We ask, “Can we get rid of that?”. Could we have an electric motor and have a battery instead? That might be a lot safer than the combustion engine. That is a substitution. There are still risks with electricity. But by doing this we’ve substituted something risky for something less risky.
Isolation
Or we could isolate the hazard. Let’s use the combustion engine as an example again. We can say, “I’ll put that in the fuel and the exhaust somewhere, a long way from people”. Then it’ll be a long way from where it can do harm or cause a loss.” And that’s another way of dealing with it.
Engineering Controls
Or we could say, “I’m going to reduce the risks through engineering controls”. We could put in something engineered. For example, we can put in a smoke detector. A very simple, therefore highly reliable, device. It’s certainly more reliable than a human. You can install one that can detect some noxious gases. It’s also good if it’s a carbon monoxide detector. Humans cannot detect carbon monoxide at all. (Except if you’ve got carbon monoxide poisoning, you’ll know about it. Carbon monoxide poisoning gives you terrible headaches and other symptoms.) But of course, that’s not a good way to detect that you’re breathing in poisonous gas. We do not want to do it that way.
So, we can have an engineering control to protect people. Or we can use an interlock. We can isolate things in a building or behind a wall or whatever. And if somebody opens the door, then that forces the thing to cut out so it’s no longer dangerous. There are different things for engineering controls that we can introduce. They do not rely on people. They work regardless of what any person does.
Administrative / Procedural Controls
Next on the list, we could reduce exposure to the hazard by using administrative controls. That’s giving somebody some rules to follow a procedure. “Do this. Don’t do that.” Now, that’s all good. We can give people warning signs and warn people not to approach something. But, of course, sometimes people break the rules for good reasons. Maybe they don’t understand. Or, maybe they don’t know the danger. Perhaps they’ve got to do something or maybe the procedure that we’ve given them doesn’t work very well. It’s too difficult to get the job done, so people cut corners. So, procedural protection can be weak. And a bit hit-and-miss sometimes.
Personal Protective Equipment
Finally, we can give people personal protective equipment. We can give them some eye protection. I’m wearing glasses because I’m short-sighted. But you can get some goggles to protect your eyes from damage. Damage like splashes, flying fragments, sparks, etc. We can have a hard hat so that if we’re on a building site and something drops from above on us that protects the old brain box.
It won’t stop the accident from happening, but it will help reduce the severity of the accident. That’s the least effective. We’re doing nothing to prevent the accident from happening. We’re reducing the severity in certain circumstances. For example, if you drop a ton of bricks on me, it doesn’t matter whether I’m wearing a hard hat or not. I’m still going to get crushed. But with one brick, I should be able to survive that if I’m wearing a hard hat.
Risk Acceptance
Let’s move on to risk acceptance. At some stage, if we have reduced the risk to a point where we can accept it. That is, we can live with it and we’ve decided that we’re going to need to do whatever it is that is exposing us to the risk. We need to use the system. For example, we want to get in our car to enable us to go from A to B quickly and independently. So, we’re going to accept the risk of driving in our car. We’ve decided we’re going to do that. We make risk-acceptance decisions every day, often without thinking about it. We get in a car every day on average and we don’t worry about the risk, but it’s always there. We’ve just decided to accept it.
But in this example, it’s not an individual deciding to do something on the spur of the moment. Nor is it based on personal experience. We’ve got a systematic process where a bunch of people come together. The relevant stakeholders agree that a risk has been assessed or has been estimated and has been evaluated. They agree that the risk reduction is good enough and that we will accept that risk. There’s a bit more to it than you and I saying “That’ll be alright.”
Part 2
Let’s summarise where we’ve got to. We’ve talked about these six components of risk management. That’s terrific. And as you can see, they all go together. Risk evaluation and risk reduction are more tightly coupled. That’s because when we do some risk reduction, we then re-evaluate the risk. We ask ‘Can we accept it?’. If the answer is ‘No.’ we need to do some more work. Then we do some more risk reduction. So those tend to be a bit more coupled together at the end. That’s the level we’ve got to. We’re now going to go to the next level.
So, we’re going to explain these things. We’ve talked about hazard identification and hazard analysis, but what is a hazard? And what is an accident? And what is an accident sequence? We’re going to unpack that a bit more. We’re going to take it to the next level. And throughout this, we’re talking about risk over and over again. Well, what is ‘risk’? We’re going to unpack that to the next level as well.
This is a safety standard. We’re talking about harm to people. How likely is that harm and how severe might it be? But it might be something else. It might be a loss or a security breach. Or a financial loss, a negative result for our project. We might find ourselves running late. Or we’re running over budget. We might be failing to meet quality requirements. Or we’re failing to deliver the full functionality that we said we would. Whatever it might be.
Hazard
So, let’s unpack this at the next level. A hazard is a term that we use, particularly in safety. As I say, we call it other things in different realms. But in the safety world, it’s a physical situation or it’s a state of a system.
As it says, it often follows from some initiating event that we may call a ‘cause’. The hazard may lead to an accident. However, the key thing to remember is once a hazard exists, an accident is possible, but it’s not certain. You can imagine the sort of cartoon banana skin on the pavement gag. Well, the banana skin is the hazard. In the cartoon, the cartoon character always steps on the banana skin. They always fall over the comic effect. But in the real world, nobody may tread on the banana skin and slip over. There could be nobody there to slip over all the banana skin. Or even if somebody does, they could catch themselves. Or they fall, but it’s on a soft surface and they don’t hurt themselves so there’s no harm.
So, the accident isn’t certain. And in fact, we can have what we call ‘non-accident’ outcomes. We can have harmless consequences. A hazard is an important midway step. I heard it called an accident waiting to happen, which is a helpful definition. An accident waiting to happen, but it doesn’t mean that the accident is inevitable.
Accident
But accidents can happen. Again, the ‘accident’, ‘mishap’, or ‘unintended event’. Something we did not want or a sequence of events that caused harm. And in this case, we’re talking about harm to people. And as I say, it might be a security breach. It might be a financial loss or reputational damage. Something might happen that is very embarrassing for an organization or an individual. Or again, we could have a hiccup with our project.
Harm
But in this case, we’re talking about harm. With this kind of standard, we’re using what you might call a body count approach to the harm. We’re talking about actual death, physical injury, or damage to the health of people.
This standard also considers the damage to property and the environment. Now, very often we are legally required to protect people and the environment from harm. Property less so. However, there will be financial implications of losses of property or damage to the systems. We don’t want that. But it’s not always criminally illegal to do that. Whereas usually, hurting people and damaging the environment is. So, this is ‘harm’. We do not want this thing to happen. We do not want this impact.
Safety is a much tougher business in this instance. If we have a problem with our project, it’s embarrassing but we could recover it. It’s more difficult to do that when we hurt somebody.
Risk
And always in these terms, we’re talking about ‘risk’. What is ‘risk’? Risk is a combination of two things. It’s a combination of the likelihood of harm or loss and the severity of that harm or loss. It’s those two things together. And we’ve got a very simple illustration here, a little table. And they’re often known as a risk matrix but don’t worry about that too much. Whatever you want to call it. We’ve got a little two by two table here and we’ve got likelihood in the white text and severity in the black.
Low Risk
We can imagine where there’s a risk where we have a low likelihood of a ‘low harm’ or a ‘low impact’ accident or outcome. We say, ‘That’s unlikely to happen, and even if it does not much is going to happen.’ It’s going to be a very small impact. So, we’d say that that’s a low risk.
Then at the other end of the spectrum, we can imagine something that has a high likelihood of happening. And that likelihood also has a high impact. Things that happen that we definitely do not want to happen. And we say, ‘That’s a high risk and that’s something that we are very, very concerned about.’
Medium Risk
And then in the middle, we could have a combination of an outcome that is quite likely, but it’s of low severity. Or it’s of high severity, but it’s unlikely to happen. And we say, ‘That’s a medium risk’.
Now, this is a very simplified matrix for teaching purposes only. In the real world, you will see matrices that are four by four, five by five, or even six by six, or combinations thereof. And in security where they talk about threat and vulnerability and the outcomes. Here, you might see multiple matrices used. They use multiple matrices to progressively build up a picture of the risk. They use matrices as building blocks. So, it may not be only one matrix used in a more complex thing you’ve got to model. But here we’ve got a nice, simple example. This illustrates what risk is. It’s a combination of severity and likelihood of harm or loss. And that’s what risk is, fundamentally. And if we have a firm grasp of these fundamentals, it’ll help us to reason and deal with almost anything. With enough application.
Accident Sequence
Now, let’s move on and talk about accident sequences. We’re talking about a progression in this case. We’re imagining a left-to-right path. A progression of events that results in an accident. This diagram, which looks like a bow tie, is meant to represent the idea that we can have one hazard. There might be many causes that lead to this hazard. There might be many different things that could create the hazard or initiate the hazard. And the hazard may have many different consequences.
Consequences
As I’ve said before, nothing at all may happen. That might be the consequence of the hazard. Most of the time that’s what’s going to happen. But there may be a variety of consequences. Somebody might get a minor injury or there might be a more serious accident where one or more people are killed. A good example of this is fire. So, the hazard is the fire. The causes might be various. We could be dealing with flammable chemicals, or a lightning strike, or an electricity arc flash. Or we could be dealing with very high temperatures where things spontaneously burst into flames. Or we could have a chemical in the presence of pure oxygen. Some things will spontaneously burst into flames in the presence of pure oxygen. So there’re a variety of causes that lead to the fire.
An Example
And the fire might be very small and burn itself out. It causes very little damage and nobody gets hurt. Or it might lead to a much bigger fire that, in theory, could kill lots of people. So, there’s a huge range of consequences potentially from one hazard. But the accident sequence is how we would describe and capture this progression. From initiating events to the hazard to the possible consequences. And by modeling the accident sequence, of course, we can think about how we could interrupt it.
Part 3
We’ve broken risk management down into those six constituent parts. We’ve gone to the next level, in that we’ve sort of gone down to the concepts that underpin these things. These hazards, the accidents, and the accident sequence. We’ve talked about risk itself and what we don’t want to happen. The harm, the loss, the financial loss, the embarrassment, the failed or late or budget project, a security breach, the undesired event, etc. We had an objective which was to do something safely or to complete a project and the risk is that that won’t happen. That there’ll be an impact on what we were trying to do that is negative. That is undesirable.
There are just only more concepts that we need to look at to complete the pattern, as you can see. We’ve been talking about the system. And we’ve been talking about doing things systematically. Then a system works in an operating environment. So, let’s unpack that.
System
First of all, we have a system. The system is going to be a combination of things. I wouldn’t call a pen or a pencil a system. It’s only got a couple of components. You could pull it apart. But it’s too simple to be worth calling it a system. We wouldn’t call it a pen system, would we? So, a system is something more complex. It’s a combination of things and we need to define the boundary. I’ll come back to that.
But within this boundary, we’ve got some different elements in the system that work together. Or they’re used together within a defined operating environment. So, we’re going to expose this system to a range of conditions in which it is designed to work. The intention is the system is going to do whatever it does to perform a given task. It can do one defined task or achieve a specific purpose.
I talked before about getting in our car. A car is complex enough to be called a system. We get in our car and we drive it on the roads. Or if we’ve got a four-wheel drive, we can drive Off-Road. Or we can use it in a more demanding operating environment to achieve a specific purpose. We want to transport ourselves, and sometimes some stuff, from A to B. That’s what we’re trying to do with the system.
Within the System
And within that system, we may have personnel/people, we may have procedures. A bunch of rules about how you drive a car legally in different countries. We’ve got materials and physical things – what the car is made of. We could have tools to repair it, and change wheels. We’ve got some other equipment, like a satnav. We’ve got facilities. We need to take a car somewhere to fill up with fuel or to recharge it. We’ve got services like garages, repairs, servicing, etc. And there could be some software in there as well. Of course, these days in the car, there’s software everywhere in most complex devices.
So, our system is a combination of lots of different things. These things are working together to achieve some kind of goal or some kind of result. There’s somewhere we want to get to. And it’s designed to work in a particular operating environment. Cars work on roads really well. Off-road cars can work on tracks. Put them in deep water, they tend not to work so well. So, let’s talk about that operating environment.
Operating Environment
What we’ve got here, is the total set of all external, natural, and induced conditions. (That’s external to the system, so outside the boundary.) So, it might be these conditions-. It might be natural or it might be generated by something else, which a system is exposed to at any given moment. We need to get a good understanding of the system, the operating environment, and what we want it to do.
If we have a good understanding of those three things, then we will be well on the way to being able to understand the risks associated with that system. That’s one of the key things with risk management. If you’ve got those three things, that’s crucial. You will not be able to do effective risk management if you don’t have a grasp of those things. And if you do have a thorough grasp of those things, it’s going to help you do effective risk management.
Conclusion
So, we’ve talked about risk management. We’ve broken it down into some big sections. Those six sections; the hazard identification; analysis; risk estimation; evaluation; reduction; and acceptance. We’ve seen how those things depend on only a few concepts. We’ve got the concepts of ‘hazards’, ‘risks’, and ‘accidents’. As well as the undesirable consequences that the risk might result in. The risk is measured based on the likelihood and severity of that harm or loss occurring.
When we’re dealing with a more complex system, we need to understand that system and the environment in which it operates. Of course, we’ve put it in that environment for a purpose. And that unpacking has allowed us to break down quite a big concept, risk management. A lot of people, like myself, spend years and years learning how to do this. It takes time to gain experience because it’s a complex thing. But if we break it down, we can understand what we’re doing. We can work our way down the fundamentals. And then if we’ve got a good grasp of the fundamentals, that supports getting the more complex stuff right. So, that’s what risk management is all about. That’s your risk management 101 and I hope that you find that helpful.
Copyright Statement
I just need to say briefly that those quotations from the standard. I can do that under a Creative Commons license. The CC4.0. That allows me to do that within limits that I am careful to observe. But this video presentation is copyrighted by the Safety Artisan.
For More…
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So, it just remains for me to say thanks very much for watching and I look forward to catching up with you again very soon.
End of Risk Management 101
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Meet the Author
Learn safety engineering with me, an industry professional with 25 years of experience, I have:
•Worked on aircraft, ships, submarines, ATMS, trains, and software;
•Tiny programs to some of the biggest (Eurofighter, Future Submarine);
•In the UK and Australia, on US and European programs;
•Taught safety to hundreds of people in the classroom, and thousands online;
•Presented on safety topics at several international conferences.