Post Occupancy Evaluation: operational performance of a refurbished office building

This blog was written by Dr Michelle Agha-Hossein BEng (Hons), EngD, Sustainable Building Consultant for BSRIA's Sustainable Construction Group

This blog was written by Dr Michelle Agha-Hossein BEng (Hons), EngD,
Sustainable Building Consultant for BSRIA’s Sustainable Construction Group

My Engineering Doctorate study aimed to investigate how and to what extent office building refurbishment can help to improve occupants’ satisfaction, perceived productivity and well-being while optimising building’s operational performance.

A case study approach and a “diagnostic” post-occupancy evaluation style of framework were adopted in this study to evaluate the performance of a recently refurbished 5-storey office building in detail and find opportunities to reduce the gap, if any. The study divided the workplace’s environment into three categories: ‘physical conditions’, ‘interior use of space’ and ‘indoor facilities’. Employee surveys and interviews revealed that interior use of space was the most important aspect of the building influencing occupants’ perceived productivity, well-being and enjoyment at work (happiness) while the improvement of the indoor facilities had no significant effect.

The study also concluded that issues with the physical conditions (such as noise and temperature) causes negative effects on perceived productivity but improving this aspect to a higher level than it is required would not necessarily increase perceived productivity. In contrast, improving the interior use of space aspect of a workplace would increase employees’ perceived productivity proportionally.  These results, however, should be considered with cautious as employee’s satisfaction surveys and interviews revealed that employees’ levels of expectation might have affected their levels of satisfaction with their new work environment.  This could cause some bias in the results of buildings’ performance evaluation. A potential

Old working environment

Old working environment

solution to this issue is to measure occupants’ expectations for their future workplace at the design stage to try to fulfil these expectations as much as possible. How well the new work environment met occupants’ expectations is another factor that should be measured at the post-occupancy stage.

It was also noted that the occupants density at the building was low at the time of the study (17.7m2/person) and that the space was not fully and effectively utilised and more than 50% of the workstations were often not in use. The link between improving space utilisation and the building’s energy consumption as well as its occupants’ perceived

New working environment

New working environment

productivity and well-being merits further investigation. These results are important in the projects where increasing productivity is a key and the budget is limited.

In terms of energy performance and CO2 emission, it was revealed that the actual emission of the building was three times more than the design target. Most of the low cost opportunities identified to reduce the gap were related to the building management and control as well as occupants’ behaviour. I will be doing a webinar very soon on simple energy efficiency tips related to building management and control and occupants’ behaviour. Watch BSRIA’s website for more details about this webinar. 

Betting on the general election? Think again

This post was written by Julia Evans, BSRIA Chief Executive

This post was written by Julia Evans, BSRIA Chief Executive

There are number of ways of predicting the outcome of the general election and an equal number of ways of being wildly incorrect. Bookmakers across the land are considering the 7th May to be a field day equal only to the Grand National in terms of punter cash finding its way through the betting shop door and not finding its way out again.

The one thing that seems sure is that the outcome is likely to be uncertain with both a three way coalition and a rerun of the election in the Autumn both being seen as possibilities.  So, where does that leave construction and building services?

Just as education and the health service are perennials in political manifestos so construction has some constant themes. Although construction rarely makes front page news there are a number of issues that seem likely to make the political headlines. Maybe for reasons of one-upmanship, as in who is promising to build the most houses? It’s the Liberal Democrats, since you ask; who are promising 300,000 new houses a year and an assurance that they’ll all be energy efficient. Or the startling alignment and collaboration between the three main political parties who are promising to work together on climate change, which in itself is surely not a bad thing?

But what of the perennials that effect construction?

Representation at senior levels seemed threatened at one point by questions being asked about the continuation of the role of Chief Construction Advisor, this is now resolved at least for the next two years. However other things are less easy to solve – the impending skills shortage, the delivery of low carbon retrofit and the lurking influence of increasing devolution will all play their part. As will continuing pressure on late payment practices, poor treatment of supply chain and the weakening of centrally funded research programmes.

The uncertainty caused by the impending election has been felt in the slackening of demand for construction since the turn of the year, the recent results of our quarterly consultants survey suggested that there has been a halt in new work as we wait for a new government. This has also been seen in a reduction in the immediate pre-election period of house building starts just at a time when we need to be addressing the national shortfall.

So back to my punt at the bookies, I think I will put my money back in my pocket and find something more predictable to spend it on, maybe something in preparation for the barbeque summer?

Nearly there – delivering the Level 2 BIM tools. Will they be what we were expecting?

We are just a few weeks away now from the first deliverables from the Innovate UK’s competition to deliver the last two key components of UK BIM Level 2 – a digital plan of work (dPoW) and an industry-wide classification system.  The ‘soft’ launch is scheduled for the 8th April 2015 at the BIM Show Live event in Manchester, with the ‘hard’ launch planned for some time in June.

With the very short time frame for the work, the opportunities for consultation with the industry have been limited and what will be delivered will largely represent the views of NBS and the other project partners.  There has been some dialogue with a group representing a number of the institutions and institutes, but it is not clear at this point how much influence they have had.  Also, there have been a number of presentations and webinars over the last few months showing progress to date.

As you would expect, there has been a significant amount of feedback from the institutions’ body, including a CIBSE team from its BIM Group.  The CIBSE team has tried to look at how these new tools will work throughout the life of the asset, and has looked wider than just the 3D modelling aspects of the output.

Three key issues have come to light with the classification structure being prepared.  Firstly, it must be capable of classifying multi-services systems or elements.  A good example would be a multi-services co-ordination drawing.  Historically, classification systems such as Uniclass have only classified up to ‘types of systems’ – ventilation and air conditioning services and electrical power and lighting services are two such examples.  Combining services in an application is common and the new classification system needs to be able to accommodate this.

Secondly, it is important to be able to classify things other than those associated with a 3D modelling environment.  A wide variety of documents will be generated throughout the life of an asset and these all need to be classified in order to be stored and subsequently made available for reuse.   Obvious examples are reports, correspondence, drawings and specifications but could equally include EIRs.

The third aspect is the continuity of classification.  It is suggested that the Elements table would be used at the early stages of a project to describe needs – Heating would be an example.  As the project progresses and more detail develops, this might become Low Temperature Hot Water Heating Systems from the Systems table.  Although this looks sensible in theory, there must be a connection between these two tables as a cornerstone of BIM is to build on information and not throw it away and start again.  Therefore, the first part of the Elements table should match the corresponding Systems table entries to achieve this.  The alternative is that the Systems table is used throughout with subsequent pairs of characters being added to reflect the increasing level of information as the project progresses.

We have discussed these issues with NBS recently and it will be interesting to see how the new classification structure accommodates them.  Realistically, it is probably too late to see them reflected in the April or June releases, but more are planned for later in the year.  If these issues are addressed I believe that it will be a significant step towards providing a classification system that works for all those involved.

A key factor in the success of the Innovate UK project will be the way in which the outputs are disseminated.  They could be the best dPoW and classification system in the world but unless they are adequately explained they might not be adopted into common use.  The phrase ‘winning hearts and minds’ seems appropriate in this case and its importance should not be underestimated.

Using Robotic Total Stations to drive down the cost of construction

Since the days of the Latham report in 1994 there has been a desire to cut the cost of construction, mainly by finding more efficient ways of doing things. Of course, there will always be people who stick rigidly to the principle that ‘the old ways are the best’, but there are many more who are more open-minded – not least in terms of making use of new technologies.

Having said that, there is one particular technology that has not yet been embraced in the UK, despite the significant financial and time benefits that have been shown time and again in the USA and other countries.

I am referring to the use of Robotic Total Stations (RTSs) for laying out building services – as an alternative to the traditional ‘tape measure, spirit level and theodolite’ approach.

This blog considers the limitations of traditional methods and explains how RTS technology can help to overcome them. It also explores some of the reasons that this technology has not yet been widely adopted in the UK.

Are the old ways the best?

Traditionally, the layout of building services on site has involved a team working from the building drawings, using a tape measure, spirit level and theodolite to identify attachment points for pipework, cable trays etc.

Unfortunately, this system doesn’t work particularly well with complex buildings, buildings with curved walls, buildings with prefabricated materials, BIM or non-orthogonal spaces. In fact there is a huge margin for error, resulting from the following challenges:

  • Ensuring the reference point is right
  • Making sure the tape measure doesn’t move
  • Making sure the string doesn’t move on arcs
  • Ensuring the theodolite is level
  • Making sure the degree in which you are measuring is exact

Every small mistake can lead to potentially serious consequences. For example, being a few degrees out on an angle can mean that pre-fabricated systems don’t fit when the time comes to install them.

Similarly, incorrect layout can result in clashes with other building elements or services, thereby disrupting the construction schedule, generating remedial works and wasting materials, time and money.

Even when everything goes smoothly, the traditional approach is laborious and time-consuming and any delays can affect the work of other teams.

Plus, when changes need to be made, methods of recording reasons (obstruction etc.) and evidence (photographs etc.) are recorded additionally to any drawings they are working from.

These reasons are sometimes reported to the design team (if there is one) to amend the drawings or model; at other times, these records are filed separately for the purposes of finger-pointing at a later date.

Either way, it takes a long time for this information to be reflected in the designs, if at all, which means other contractors or labour forces won’t see the changes until they’re updated.  Working from paper also has the potential for loss or damage.

Furthermore, these issues are going to become more serious with the wider use of Building Information Modelling.

An alternative approach

Robotic Total Stations (RTS) allow layout to be completed by only one person, rather than the classic layout team.

To begin construction layout, a tablet with software controls the RTS and is loaded with a 2D drawing or 3D building model. Site survey points from the job site are identified in the model and are used to locate the RTS on the project site and in the model.

Once the RTS is located, the person operating the RTS can view the model on the tablet computer and select the points to be marked.  Once selected, the RTS will tell the operator their precise distance from the point (if using a stake) and then guide the user to the point with directions indicating forward/backward or left/right movement.  The operator then stakes the mark and moves to the next one.

A more advanced RTS feature is Visual Layout  which marks the layout point with a laser (removing the need for the stake); the operator then only has to follow the laser to each point and mark the location.

Basically, the RTS does all the work while the operator follows its laser, marking each point to within a distance of millimetres from the 2D/3D model point.

This can be used for the accurate positioning of multiple trades at the same time, ensuring no delays on site.

So what are the benefits?

Improved efficiency.

RTSs use the same 2D drawings or 3D building models as other trades involved in the project, so collaboration is simpler and quicker.

Enhanced accuracy.

Layout coordinates can be accessed directly from the building model and changes to layout positions can be recorded at the time of layout and documented with reasons and photographs.

Fewer mistakes.

The RTS works directly from the building model. There are no manual measuring processes involved. Points to be marked are extremely accurate and their purpose is referenced to the operator via their tablet device.

Reduced paperwork.

Using the RTS on a job is a paperless process, meaning there is no risk of losing documents or spilling coffee on them.

Reduced labour costs.

The RTS only needs one person to operate it and that one person is also capable of increasing layout productivity by up to five times.

Improved quality control.

RTSs can be used as a sophisticated tool in a QA/QC process, both pre- and post-installation.

BIM-to-Field

As we move to more sophisticated BIM processes – such as 4D & 5D BIM that includes building production models and which consider the constraints of a construction site (equipment capacity, working methods etc.), model based estimating and more – a live link to the field is needed.

This link, in part, can be provided with the use of an RTS, allowing responsible parties to track works as they are completed and referenced against the original model, applying changes where necessary and allowing the tracking of works ready for access by the next stage in the construction process.

So why aren’t we using them?

Companies across the US have used RTSs on construction sites for many years now. They’ve been highly popular with MEP contractors and revolutionised layout processes and BIM progression; so why don’t we use them?

A lot of it simply comes down to misconceptions about the technology and its uses.

Return on investment.

Implementing RTS technology requires capital investment and many companies feel that because they don’t have dedicated layout teams they won’t see a good return on their investment.

However, the relative simplicity of RTS technology means that any member of the MEP team can carry out accurate layouts, so the contractor can make better use of the workforce.

Also, RTS eliminates manual errors so that the most highly skilled and best trained individuals can be allocated to the more complex tasks, while lower skilled operatives do the laying out.

In addition there are considerable time savings that could ultimately reduce the number of operatives required on the project, thus reducing labour costs.

You can calculate your own ROI here

The savings cited for RTS do not have any real impact on the bottom line.

This is simply not true. Savings from the use of an RTS can be seen in:

  • Reduced remedial works due to increase in QC/QA documentation and recording – an immediate reduction in cost.
  • Improved efficiency whilst on site – reduction in labour cost.
  • Fewer errors in MEP element locations (another remedial work saving) – an immediate reduction in cost.
  • Reduced resource required to complete works – an immediate reduction in cost.

MEP designs evolve during installation so that the drawings do not represent the actual situation.

Perhaps this is true today, but if you are working this way now, you won’t be for long. For medium and large projects MEP data and detailed design will be as essential as structural design as the industry assimilates the BIM process.

UK BIM deadlines are looming now and businesses looking to grow, or large businesses looking to remain profitable, will need to ensure they can work in these parameters – and soon.

Clashes between services do not occur when the same contractor is doing all of the MEP work.

On small projects it is often possible to ‘work around’ any clashes between services. However, on larger projects it is not enough to ask for one element to be placed over/below/around another, as this may then run into a second clash with a third element.

This second work around would involve a wider rectification, which may infringe on another element, and so on until a solution cannot be made.  Eventually, it may occur that an MEP element then interferes with the installation of another contractor’s or team’s work.

Also, when ‘working around’ an issue, we create problems when considering building maintenance post-construction, as MEP elements will deviate from their logical course.

UK construction techniques do not lend themselves to using an RTS.

While it’s true there are some differences between UK and US construction methods, there are many more areas where RTS can deliver the same benefits to UK contractors as it is already doing for US contractors.

Conclusion

While any investment in new technology clearly requires careful consideration, I hope it is now clear for the reasons stated above that RTS is certainly worthy of that consideration. The potential benefits to MEP contractors are enormous, so surely it’s worth taking the time to keep an open mind and take a closer look.

Follow this link to see a demonstration video or, if you’d like to see this technology in action, book onto a Trimble road show event to compare this with a traditional approach.

Author Profile
This blog was written by Chris Slinn, MEP Business Development at  Amtech, a Trimble company, a manufacturer of specialist software for the building services industry.

Why the industry needs to be uncomfortable with current ways of working

This blog was written by Richard Ogden, Chairman of Buildoffsite

This blog was written by Richard Ogden, Chairman of BuildOffsite

I am delighted to have this opportunity to contribute a blog – particularly at a time when a hugely influential industry like BSRIA is exploring the need for the industry to change its processes.

I have worked in the construction industry for more than 40 years – as client, contractor and property manager. In all that time there has been an almost constant call from voices drawn from right across the industry, from Government and from the media for the industry at large to change its processes and ways of working. To do things differently – to work collaboratively – to partner – to adopt innovative processes – to invest in and adopt new technologies and project management practices and so on. The reason for this clamour is always the same – the need to improve performance and productivity, the need to be less wasteful and more sustainable, to improve the image of the industry, to deliver better value assets, and to make the industry a better and safer place in which to work.

All good and well intentioned stuff but it does seem to be a peculiar feature of the construction industry. I don’t for example hear anything similar coming out of the automotive or consumer products sectors. Industries where investing in change/innovation is constantly being driven by the unforgiving hard edge of competition. OK- I hear (but do not accept) the mantra that construction is in some way different from other industries and frankly I recognise that there is still a whole lot of life left in this view of the industry. I am certainly not going to beat myself up in challenging this position when there is so much more constructive work to be done.

The case for change within construction often comes wrapped up within the covers of a report from an industry or Government appointed committee together with recommendations for action plus of course a set of targets. Inevitably before long yet another report will come delivered by yet another committee having chewed over an almost identical bone which will have come up with broadly similar proposals and another set of targets. All seamless and without any sense of continuity of message or indeed continuity of action.

Don’t get me wrong I am not against this approach as a mechanism to stimulate discussion and debate and indeed I was a member of the Movement for Innovation. However, it’s just that I don’t see much in the way of connection between broad based calls for change and the practical decision taking that goes on day in day out within individual construction businesses looking to win work and improve profitability and competitiveness. Close coupled to this is the reality that the status quo is for many a very comfortable place in which to operate. Unless there is a pressing need for a company to do things differently the chances are that sticking to the knitting will be an attractive option. Why break step if your competitors are operating in much the same way and if business is good.

In my experience it is only when individuals decide that they are uncomfortable with or no longer willing to simply go along with the way things are that meaningful change is likely to happen. If enough individual businesses decide to do things differently then there is the prospect that a sizeable part of the industry will change how it works – not because a report has made recommendations but because they are convinced of the need. Encouraging more decision takers within the industry to be uncomfortable and then encouraging the uncomfortable to take decisive action is how substantive change can happen.

Sometimes change becomes necessary if a business is to survive and prosper. When I worked for a client the cost of construction delivered traditionally became more and more expensive until the point was reached where the business could no longer afford to invest in new construction projects because the cost was not justified by the revenue that the investment would deliver. Think about that for a minute we were a serial client wanting to invest in new construction to help grow our business and to create jobs but the harsh reality was that we had been priced out of the UK market. I suspect that it will not be long before this phenomenon reappears in some sectors of the UK market.

Our decision was quick in coming – if the traditional industry was not able or willing to provide us with the built assets at a price we could afford and to deliver within the timescale in which we needed the assets then we would change our construction model and our supply chains and take on board the challenge of stripping out a significant amount of the waste that we knew to exist within the traditional industry in order to deliver the projects at a price that worked for us and within a timeframe that was acceptable to us. Working in close collaboration with our project partners we demonstrated that it was possible to simplify processes, strip out waste, adopt standardisation as much as possible and most importantly take that essential step of maximising the use of factory made offsite solutions to minimise the need for construction work to be carried out on site. Constructing on site from a set of commodity materials and products is inevitably going to be uncertain and potentially challenging involving low levels of site based productivity, indifferent quality and uncertainty of build programme.

The results we achieved were powerfully impressive in terms of the cash savings made, the additional value we gained and the much faster build times that we achieved. All this – including protecting the margins of our suppliers – was achieved by minimising all forms of waste. That was just fine as far as I was concerned because as a client given the choice I would not want to pay for waste and inefficient processes. I would want to pay for right first time quality, build programmes that are realistic and cost in use that is meaningful.

The learning acquired as a result of this forced change stood my company in good stead and became our standard construction practice. Our approach was also taken up by many other leading clients.

We were not talking about rocket science. The steps we followed involved a relatively simple approach including: giving clear leadership; being sure about what we wanted to achieve; listening to our suppliers and encouraging their advice; being collectively prepared to rethink every aspect of construction – absolutely no sacred cows; not being prepared to accept the message that this or that couldn’t be done – it usually can; be open minded; recognising that there will always be scope to do things even better next time around.

This approach and in particular a recognition that other than for site specific elements it is almost always better to assemble building and civil engineering structures on site is fundamental to the work programme that Buildoffsite has been advocating for more than 10 years. Together with our Membership we will continue to make the case for the increased use of offsite solutions based on sharing information on the innovative projects that our Members have delivered, working together to develop new innovative solutions, promoting new technologies and encouraging the take up of information modelling and the application of lean principles to identify opportunities for introducing more efficient processes.

I am delighted that our Membership continues to grow bringing together leading clients, suppliers, investors, skills and research organisations and so on. The common denominator is that our Membership and those organisations we work with to partner knowledge transfer are all committed to do things better – at a practical level to make change happen and to support continuous improvement.

Front cover imageThe case for offsite solutions will be proven to the satisfaction of clients and suppliers by the tangible project benefits delivered by projects that incorporate offsite methods. This applies just as much to the delivery of building services as it does to all other construction elements. However, there will be no free lunch. An approach based on the use of offsite solutions will need to deserve to be commercially successful. If offsite solutions fail to be competitive with traditional methods on whatever basis the customer deems appropriate then they will not be adopted.  That is precisely how markets should operate. However, I hope that in comparing the performance of offsite solutions with traditional solutions the assessment will include all relevant factors that impact on value including time, cost, quality and cost in use. For example it can still be the case that the precise cost of a potential offsite solution will be compared with the theoretical and highly uncertain predicted cost of traditional construction. As construction inflation increases this simplistic method of assessing project value is likely to become increasingly unreliable. We are working closely with the industry’s professional institutions to improve the understanding of offsite construction and to support the development of new skills.

I have no doubt that the case for offsite solutions will continue to grow and the market will expand rapidly across all sectors. I also have no doubt that we have only just started to scratch the surface in terms of our understanding of what can be achieved in reducing cost, improving client value and improving the performance of the industry. Remaining open minded and being committed to challenge the status quo will continue to drive innovation and to effect the changes that we are called on to support.

If I can pass on one final suggestion it would be to encourage everyone in the industry to be uncomfortable with current ways of working. If we could achieve this we would be well positioned to move on to effecting change.

If anyone wants to learn more about Buildoffsite check out our web site www.buildoffsite.com

BSRIA Diamond Group Forum – A glimpse of the future?

How buildings can improve productivity and wellbeing will continue to be one of the most researched questions over the next decade. This touches all aspects of building design, construction, use, and maintenance. It also relates to the relationship of buildings with their immediate environment as well as their connection to the wider world. There is a lot changing in this industry and the players need to be aware of this and decide how they will respond. They need to evolve, move up the value chain, embrace new technologies, develop the necessary processes, and build the necessary skills.

60th anniversary finalsmallResponding to this, BSRIA held a 60th anniversary “Diamond Group Forum” with senior executives at the AHR Expo in Chicago in January to discuss and debate the changing landscape around the design and use of buildings, their evolution, and to uncover how the heating, ventilation and air conditioning (HVAC) and building controls industry should be shaped in future in order to best respond to client needs and prepare for the positive and profitable development of the businesses that support it.

The event brought together approximately 30 senior executives from major players representing a mix of manufacturers, specifiers and end users in the industry. The forum, which was opened by BSRIA CEO, Julia Evans facilitated active debate and networking.

Following three summary presentations on HVAC and smart control technology by experts from BSRIA World Market Intelligence, the participants broke out into several workshop groups to address the following key questions:

  1. What do you think are the biggest, most relevant changes in buildings now and over the next 10 years?
  2. What will be the impact on our industry?
  3. What products and services will be required in the future?

The majority of participants were from North American organisations, with a small number from Europe and Asia. So it may be assumed that the many insightful conclusions had a North American focus, even though many relate to issues of international relevance. Amongst the many topics discussed, some of the main conclusions are summarised below.

Participants concluded that the march of green construction and sustainability will continue, aided by regulation and integrated building design. Increasingly, buildings will need to adapt to people – up to now it has been the other way around! The Internet of Things is already seen as a reality and combined with analytics and big data, has the potential to deliver radically improved value for building owners and occupants, whilst spawning a host of new value streams for suppliers.

The team still see some barriers, such as how best to finance projects and there is continued concern around grid stability and energy prices.

New challenges will undoubtedly appear, not least the need to understand how new building designs work and to understand the challenge of more complex building systems. There is often a disconnect between building use and how control systems are applied and this needs to be addressed. At the same time there is a need for smarter, integrated construction practices.

One of the most important challenges facing the industry is the shortage of people educated to understand the new types of technology. This needs to be tackled and new ways need to be found for engaging the younger generation with our industry.

New competitors will enter the market, not least from the IT and software fields and industry needs to develop new partnerships, for example to bridge the gap between the HVAC and the IT world.

Smart technology, in the form of smart, self-learning and self-diagnosing products is emerging as well as building data capture, software based analytics and an increasing proportion of applications going to the “cloud”.

There is a growing need for devices to be interconnected and converged on to common platforms and networks, with increased adoption of standards for open connectivity. Cybersecurity for building systems is currently a major weakness and consequently has moved rapidly up the agenda.  It represents a threat to development of the building controls industry but can be turned into a new business opportunity.

Suppliers need to sell solutions and focus more on life cycle costing. A migration of controls onto the HVAC equipment, delivered as a single package, with a simple man machine interface, is expected to become more prolific. In the next stage, these packaged solutions will be connected to the cloud and the service business model may have to change in the future.

Above all, the products of the future should be designed with the small and medium building retrofit market in mind. These represent the vast majority of buildings and floor space.

A second Diamond Group Forum will be held at the ISH exhibition in Frankfurt on Tuesday 10th March for senior executives of top BSRIA clients. For more information contact Jeremy.towler@bsria.co.uk

BSRIA Blue Book available as an App

Front coverBSRIA are pleased to announce the launch of an App version of our popular Blue Book.  The App is free to download from the App-store and is available in both iOS and Android formats.

BSRIA’s ever popular Blue Book is an annual databook which continues to provide you with hard-to-find facts about Building Services.  It contains tables of useful technical data, annual building running costs, legislation, key industry contacts, key BSRIA experts, list of BSRIA members, Maintenance KPIs, BSRIA training courses; building services industry statistics, BSRIA publications, services and financial data

As technology moves forward so does the way we work, we’re no longer an industry who is focused on paperwork instead we are now a mobile based industry using tablets, laptops, e-readers as well as the trusty mobile so why would you want a hardcopy Blue Book when you can have all of our information at the click of a button?

BSRIA’s Information and Knowledge Manager, Jayne Sunley, said “The Blue Book contains key industry and technical information to help professionals day to day therefore the App will be a welcome addition to the mobile of anybody working in the Built Environment”.

The Blue Book is available to download now from Apple and Android stores, simply search ‘BSRIA’. Alternatively you can download the interactive PDF here.

Disparate Calls For Disparate Measures

Mark Glitherow

Key Account Manager at Trend

I’m Mark Glitherow, Key Account Manager at Trend, and in this blog I’ll explain why devising and implementing an energy management strategy across a number of disparate buildings needn’t be as daunting as it first appears.

It is obvious that all organisations should be looking to optimise their energy use in order to reduce their carbon footprints and save money. Yet developing a cohesive strategy that will achieve this objective is usually considered easier said than done, especially when a number of disparate buildings are involved. It can be enough to strike fear into the hearts of those charged with such a task, but I’m convinced that by tackling the issue systematically, immediate savings can be made.

Healthcare estates and educational establishments are two prime examples of environments where it is necessary to monitor and manage energy use across buildings of different shapes, sizes and ages. However, the chances are that each building on an estate will have some kind of Building Energy Management System (BEMS) already installed and one of the best ways to review the way they are being used and identify ways to make improvements is through a comprehensive energy audit.

A thorough and professionally conducted audit should ask probing questions, drill down to the finer details and provide guidance about implementing an appropriate new technologies like variable speed drives (VSDs), for example. It is often the case that adjustments can be made to the BEMS during the audit visit itself that will deliver immediate savings, while component parts can be checked to make sure they are working correctly.

Where having an audit really comes into its own though is in its ability to help construct an energy management plan that features a prioritised summary of activities that should be carried out in the short, medium and long-terms. It will help break the project down into ‘bite sized chunks’ that initially focus on gathering utilities based data, identifying wastage, and then prioritising ways to reduce overall energy consumption.

An energy audit can lead to some outstanding results, such as those experienced by Sidmouth Hospital in Devon. During a Trend engineer’s time on-site, improvements to its BEMS settings were made which included altering heating times in intermittently occupied areas from 24 hours a day to only between 06:00 and 22:00, and reducing heating setpoints to 21°C. These relatively simple actions resulted in an estimated £7,000 of savings per annum and a reduction of over 43 tonnes of CO2.

The ability to control and monitor energy use from a central location makes life much easier and one way that this can be achieved is by using an existing IT network infrastructure. As all buildings on an estate will usually be able to ‘talk to each other’ via a campus area network, it should be possible to for the BEMS to operate over this medium.

Rather than putting it off, get the ball rolling by recognising the need for an energy management plan and configuring targets that are achievable. BEMS are at the forefront of the drive towards greater energy efficiency and the cost savings and environmental benefits that can be experienced as a result of investing in and optimising this technology are considerable. You might find that they are in easier reach than perhaps initially thought!

You can read more BSRIA blogs about BEMS here.  BSRIA’s WMI team also produce a BEMS market report –Building Energy Management Systems (BEMS) in Europe and the USA – which is available to buy from the BSRIA website. 

Are they ready yet? – Delivering the Level 2 BIM tools

TSB SBRI Competition – A digital tool for building information modelling

TSB SBRI Competition – A digital tool for building information modelling

As you will no doubt have seen the UK Government has refined its BIM Level 2 requirements over past months and now describes them in terms of compliance with a number of documents and tools (see earlier blog article on 7 pillars).  Most of these are already available and the last ones are currently being prepared.  In September 2014 RIBA Enterprises was awarded the contract by Innovate UK (formerly the Technology Strategy Board) to develop a digital plan of work (dPoW), an accompanying classification structure and a digital interface through which to access it all. The first phase is due for delivery in April this year, with further releases planned for later in the year.  The work is being carried out by NBS, a company wholely owned by RIBA Enterprises and which is best known for producing the NBS specification writing product.

This work is very important and the outcome has the potential to be of benefit to parties throughout the construction and operation markets.  The dPoW will provide assistance for clients in preparing their employer’s information requirements (EIR), and also for the supply chain in preparing BIM execution plans (BEP), their response to the EIRs.  It will also describe the data and information manufacturers need to include with their products to meet BIM requirements.

The classification system being provided needs to enable information and data to be labelled in a consistent manner, making it readily available for reuse. It must be as suitable for infrastructure as it is for buildings, and must be applicable for use throughout the life of the asset.  The solution is based on Uniclass2, a proposed development of the original Uniclass structure.  Uniclass2 was issued for consultation in 2013, and it is hoped that the comments received in response have been considered in developing the new solution.

A number of webinars have been presented by NBS recently, describing progress to date and more are scheduled for next month.  The recent webinars focused on demonstrating the overall arrangement of the tool and showing a little more detail of a number of selected aspects.  Unfortunately, classification wasn’t included in this round but more information on this was promised for future events.

A lot of progress has been made but it was clear that there is still a huge amount of work to be done before the April delivery date.  It is important that the output from RIBA Enterprises and NBS is informed by the need of the industry rather than their commercial links to their existing products,  so take the opportunity to visit the NBS website and look at the work they are doing.  Above all comment on what you see.  It might be the only chance you get.

Should Building Managers worry about scary movies?

threatsBuilding managers thinking of films to see this winter may give some thought to a previously little known comedy largely set in North Korea.

The successful cyber-attacks on Sony, one of the world’s best known corporations, and which lives and breathes digital technology, resulted in the release of reams of sensitive information, and led  Sony to delay the opening of the film. All this may on the face of it have little to do with the nuts and bolts of building automation, but it does fire another warning shot across the industry’s bows.

We have known for some time that buildings are vulnerable to cyber-attack. Not only can they be major targets in themselves, but they often offer an easy “back” door” into an organisation’s wider IT network. The successful attack on Target stores in the USA gained access via the company’s HVAC system which in turn allowed them into the more lucrative customer data records. BSRIA research shows that, in the USA for example, over 90% of all larger buildings (i.e. those with more than half a million square feet of space – or c. 50,000 m2) have some kind of building automation and control system (BACS), and many are to some degree at risk.

What is striking is that in so many successful attacks on buildings or infrastructure the problem had less to do with the cyber-protection systems in place than with the way in which they were being maintained and operated. At Target, alerts were generated but not acted on until after much of the damage was done. The earlier attack on Google’s Australian offices in Sydney were linked to the fact that an older version of the Tridium platform was still in use.

Many organisations lack effective processes and procedures, which in turn is linked to the fact that, even within the same organisation, building services and IT tend still to work in separate, parallel worlds.

All of this is compounded by the fact that BACS systems increasingly have at least one foot in the Cloud, and often several. Almost all major suppliers of BACS and Building Energy Management Systems (BEMS) offer at least the option of cloud based analytics, and the ability to access and manage multiple buildings remotely is seen as almost a “must-have” – outside of industries which have traditionally been hypersensitive about security. The cloud brings huge technical, social and financial benefits, but also greatly increases risk, as does the general spread of IT based functionality through buildings and devices, a process that the ‘internet of things’ is set to expand exponentially.

Major suppliers of BACS systems are talking publically about ways of addressing the challenge, and companies like Lynxspring are establishing a reputation in this area. In the UK the Institute of Engineering and Technology (IET) issued a Code of Practice for Cyber Security in the Built Environment in November 2014.

This blog was written by BSRIA's Henry Lawson

This blog was written by BSRIA’s Henry Lawson

Cyber-attacks tend to be motivated by political, ideological, or financial motives, or by a combination of mischief and malice. On all these scores, major buildings remain vulnerable especially when they are associated with prominent organisations, whether private or public.

In the latest edition of BSRIA’s market briefing Threats / Opportunities for Building Automation Systems, we look further at the cyber threat and what is being done to counter it. The study also looks at other major trends that are changing the profile and prospects of building automation. These include the development of more intelligent HVAC systems, (whether Direct Expansion or VRF based), the growth of ‘smart homes’ solution which are also snapping at the heels of the BACS market at the “lower end” of commercial buildings, the growing importance of building analytics and big data, and the rise of potential new global players, especially in countries like China and India.

We will be following these and other emerging trends through the course of 2015. It should be as exciting anything that Hollywood has to offer, for rest assured: The cyber threat (and much else) is coming to a building near you soon.

 

Additional Sources:

http://techcrunch.com/2014/08/05/smart-buildings-expose-companies-to-a-new-kind-of-cyber-attack/

The Institute of Engineering and Technology (IET) guidelines.

http://www.theiet.org/resources/standards/cyber-cop.cfm

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