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.

Government Soft Landings

This is a blog by Peter Corbett, Principal Quality Inspector at Essex County Council

This is a blog by Peter Corbett, Principal Quality Inspector at Essex County Council

As a Local Authority employee I am well aware of the push for both savings and value for money, it is therefore reassuring to see the importance the Government is affording their version of ‘Soft Landings’.

The Cabinet Office sees soft landings as the ‘golden thread’ of BIM, rather than a delivery tool, and is looking for three key benefits from its implementation, those being; Improved Environmental Performance, Improved Financial Performance and Improved Functionality and Effectiveness.

The Government’s Soft Landings policy drawn up in September 2012 recognised that ‘The ongoing maintenance and operational cost of a building during its lifecycle far outweighs the original capital cost of construction, and GSL identifies the need for this to be recognised through early engagement in the design process.

To help the development of GSL a stewardship group was formed to which all government departments and agencies were invited. This group generally meets quarterly with around twenty department and agencies represented. It seeks to update the GSL implementation progress across departments, develop training ideas and determine ways of measuring the benefits that could be gained from the process.

GSL has been the archetypal snowball, steadily gathering pace as it moves toward 2016 when the Cabinet Office has asked for its adoption by all central government departments and agencies, and gradually increasing in size, as with each stewardship meeting more departments and agencies are in attendance.

I was fortunate enough to receive an invite to the last GSL stewardship meeting through my links with the BSRIA Soft Landings User Group and as a Local Authority representative, and was encouraged to see the enthusiastic approach to soft landings from some of the more engaged departments, they like ourselves see the advantages soft landings could offer (albeit from an FM focussed approach that more considers the ‘In Use’ benefits) and are eager for the evidence of this that case studies and their like could provide. Of course as with most matters concerning Central & indeed Local Government the journey is never straight-forward, and as could probably be expected the speed of soft landings adoption varies greatly both in levels of commitment and of development between each Government department and agency.

So what next for GSL? On Friday 7th November there was a GSL supply chain engagement day, to which all Government departments and agencies were invited and encouraged to extend invites to their design, construction and facilities management partners. Attendees were treated to seminars on what Government Soft Landings actually are, why they should be used and how they should be implemented, as well as what training and ongoing support could be provided.

Soft_Landings_logo-highIt was fairly evident from the nature of the questions from Government department representatives that there remains a lot of work to do to obtain both a participative and consistent approach across all departments, as well as the difficulty in impressing on the supply chain providers that success on a project is not merely about building to budget and programme. As pointed out by one contractors’ representative ‘We know of Soft Landings, but that’s where our knowledge ends’, a better description of what GSL actually is was requested with examples of what ‘success’ actually looks like, and also recognition that there is a clear shift from Capex to Opex in the governments construction expectations. All evidence that there is still much to do to achieve wider engagement in soft landings throughout the industry.

But there remains a high level of commitment to soft landings from the Government as evidenced by this event, and this is likely to soon have an impact on those of us in Local Government. In my own Authority we have been using the principles of soft landings in order to help improve the delivery of our projects in areas that have proved problematic; this has predominantly centred on the handover and defects resolution stages, and also end-user training on their new building. For us the ethos of soft landings has been extremely beneficial, but we have been fortunate enough to get the buy-in from our framework of contractors, again some contractors are more engaged with the practice than others, however with the Governments push for the use of soft landings it should encourage everyone’s participation in the process, and hopefully to the benefit of all involved; commissioner, client and contractor.

 

Blogger profile

My working career began early 1980’s in civil engineering, after taking various qualifications I moved into construction after an acquaintance encouraged me to become a clerk of works at the age of 21.  I joined Essex County Council initially as an assistant clerk of works and have remained with the authority for almost thirty years, latterly as the authorities Principal Quality Inspector. I have more recently acted as the construction performance manager on Essex County Council’s Contractors Framework, for which I am undertaking the role of Soft Landings champion. I am a Fellow of the Institute of Clerks of Works and the Construction Inspectorate having first joined the organisation in the 1990’s.

Think in £s not kWhs and Start Reaping the Rewards

Steve Browning is Marketing Manager of Trend Controls, a BSRIA member company

Steve Browning is Marketing Manager of Trend Controls, a BSRIA member company

Often considered an unwelcome expense, the truth is that investing in energy saving initiatives offers significant financial benefits, as well as enhancing an organisation’s environmental credentials. I’m Steve Browning, marketing manager of Trend Control Systems and in this blog I will explain how a Building Energy Management System (BEMS) can increase the bottom line.

Although better energy management and the need to reduce carbon emissions are both moving to the forefront of the corporate agenda, they are doing so far too slowly. Rising prices, combined with the increasing scarcity of resources and a growing raft of environmental legislation, means that addressing the issue of how energy is used is no longer just an option, but something that requires serious attention by all businesses.

To put the issue into perspective, the long-term framework outlined by the Department of Energy and Climate Change (DECC) sets out plans for achieving the reductions stated in the Climate Change Act 2008. When compared to 1990 levels, this equates to a reduction of at least 34 per cent by 2020 and at least 80 per cent by 2050. As they are responsible for 17 per cent of the UK’s carbon emissions, the nation’s 1.8 million non-domestic buildings are at the very heart of meeting this challenge.

The government is also ramping up the pressure to comply. In addition to the CRC Energy Efficiency Scheme, the Climate Change Levy (CCL), Air Conditioning Assessments, Display Energy Certificates (DECs) and Energy Performance Certificates (EPCs), earlier this year the Energy Savings Opportunity Scheme (ESOS) was introduced to address the requirements laid out in Article 8 of the European Union (EU) Energy Efficiency Directive.

It means that ‘large enterprises’ employing 250 or more staff, or that have an annual turnover of in excess of around £42m and an annual balance sheet total of around £36m, must complete regular energy audits. The first must be undertaken by 5th December 2015, and then at least every four years.

The government hopes that ESOS will drive the take-up of energy efficiency measures amongst businesses, enhancing their competitiveness and contributing to the wider growth agenda. Furthermore, for organisations wishing to comply with increasingly popular international standards such as ISO 50001, a certified energy management system (EnMS) must be in place.

It is therefore a constant source of bemusement and irritation to me that some organisations aren’t making the obvious correlation between investing in technology that can reduce energy use and saving money. By failing to ensure that energy is being used as well as it could be they are, quite literally, paying the price.

One reason for this could be that for energy bills are often low compared to items such as wages, research and development, and property rental. However, companies must consider other issues such as brand reputation, employee expectations and competitive positioning, while customers expect them to play an active role in reducing the carbon footprint of their operations and products.

Even more frustrating is that in many circumstances it doesn’t even involve a vast capital outlay on new technology – for example, by simply maximising the potential of an existing BEMS energy savings of 10-20 per cent are easily achievable. This could equate to a 0.1-0.4 per cent saving on a company’s total cost base, instantly increasing profitability.

When a BEMS is first commissioned it is configured around an existing building layout and occupancy patterns. These can change over time and incorrectly configured time clocks and setpoints, new layouts, and repartitioning can all lead to poor control and energy wastage.

Failure to maintain a BEMS on an ongoing basis will result in degradation of the building’s energy performance. In order to rectify this, it is advisable to undertake an audit that ascertains what can be achieved and identify any energy saving opportunities. While items such as boilers, chillers, air conditioning, and pumps can be checked to make sure they are working correctly, any maintenance issues to do with the BEMS itself or the building services equipment use can also be addressed.

BEMS providers will be able to offer expert advice on how to enhance the operation of plant by installing items such as variable speed drives. The investment can pay for itself in a matter of months – for instance a centrifugal pump or fan running at 80 per cent speed consumes only half of the energy compared to one running at full speed.

It is critical to achieve stakeholder buy-in for any business enhancement programme and by using a standard Internet browser, software based packages are available that act as a window to a BEMS. It is also possible to access utility meter readings from a BEMS and present a continually updated record of a building’s energy consumption and carbon emissions – showing employees and visitors whether they are on, below or above performance targets.

Hopefully, I have demonstrated that reducing carbon emissions and lowering energy expenditure are closely linked. The savings that can be made through the use of a correctly specified and maintained BEMS are considerable and will help achieve compliance with environmental legislation. My advice is to take action before it is no longer a choice!Trend_RGB SMALL

For further information please call Trend Marketing on 01403 211888 or email marketing@trendcontrols.com. Trend are the main sponsors of this year’s BSRIA Briefing – Smarter ways to better buildings.

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. 

Safety in Building Services Design

This is a guest post by Richard Tudor of WSP

This is a guest post by Richard Tudor of WSP

Space, and the cost of providing space, for plant and building services  distribution is at a premium and designers often come under pressure to reduce the spatial requirements for building services installations. In order to discharge their obligations, designers must take care to provide safe means of access for installation, maintenance and equipment replacement.  In addition designers need to be aware of the regulations and legislation requirements that a design may impose on the installer and end user as a design solution can often impose additional legal

responsibilities, particularly in undertaking associated operation and maintenance activities. However, the active and continuing attention to safe access issues, throughout the design stages, is not always achieved as the designers’ attention can often concentrate on what is perceived to be more immediate concerns.

BSRIA’s publication Safety in Building Services Design BG55/2014 has just been published which provides guidance on designing for safety in both new and refurbishment projects.

The publication is aimed at designers and includes information on:

  • relevant legislation including CDM
  • hazards and risks including managing risk in the design process
  • understanding space requirements and access provision
  • designing for maintenance
  • plant room design
  • communication of risk information including representation of risk information on drawings
BG55/2014 Safety in Building Services Design

BG55/2014 Safety in Building Services Design

However, the diversity in type, configuration and possible location of plant, means it is not possible for this publication to give definitive guidance for all installations.

The publication provides a practical guide to assist the design process, aid design reviews together with providing a better understanding in designing for safety.  For example, included in the publication is a checklist on the considerations in designing for health and safety which can be used as part of the technical design quality review process.  In the pdf version of the publication this is included in an editable Excel format. Influencing factors, considerations and space requirement data useful in the design decision process with respect to providing safe access are highlighted in the publication.

The poor provision of safe access for maintenance could result in an increased likelihood of cutting corners or omission of maintenance and repair activities. This in turn, could result in building services failures that could adversely affect safety, legal compliance, productivity and quality of the environment.

BSRIA launches a new course on the 12th November 2014 providing guidance in designing for health and safety in the space planning of building services with respect to operation, maintenance and plant replacement. The course is intended for professionals involved in the design of building services but is equally relevant to contractors and other professionals within the industry. Young engineers in particular would benefit from the course.

On completion of the course delegates will be able to:

  • understand the specific considerations with respect to designing for safety for building services
  • identify discipline specific considerations in designing for safety
  • challenge designs in relation to health and safety in the design, construction and operations of building services so as to improve performance
  • understand relevant H&S legislation, codes of practice and guidance
  • understand the relationship between building services design and maintenance operations
  • understand the management of hazard and risk together with control strategies
  • locate information relating to health and safety to assist in design process
  • understand the consequences of failing to manage health and safety effectively
  • understand the importance of communication and provision of information in the design process

Richard Tudor is a Senior Technical Director at WSP and has been an integral part of the WSP Group Technical Centre for over 14 years. His responsibilities include technical quality, specification development, technical knowledge management, delivering training, designing for safety, providing technical support, and improving project delivery.

Smartening up the City

This blog was written by BSRIA's Henry Lawson

This blog was written by BSRIA’s Henry Lawson

There are some leaps in technology that seize the mind and imprint themselves indelibly on the memory. There can hardly be anyone over the age of 50 who doesn’t recall their grainy view of the first man on the Moon, and people who are quite a bit younger will remember when, say, paying a bill or booking a holiday online was still a novel experience.

There are other changes which, while they are already having far more impact on our lives than the Moon landings, seem to have crept up on us, almost by stealth. The advent of the Smart City looks very much like being one of the latter.

The Seminar Smart Cities and the Internet of Things, which BSRIA attended on 16th July, helped to flesh out some of these. One key factor is of course the sheer all-encompassing variety and complexity and scale of a modern city, as reflected in the technology required to support it. This was underlined by the presentations on the range of “smart” cities, from major building consultants, to companies working closely with utilities, to data analytics companies.

This points to a pluralistic approach where different companies collaborate, each contributing their own particular skills, rather than one where a mega-corporation tries to orchestrate everything.  As one speaker pointed out, the smart car alone is likely to involve motor manufacturers, battery and power specialists, grid utilities, digital IT specialists, and the advertising and public relations industry (interestingly, two of the three first people I spoke to represented public relations companies). And that is before one gets on to the subject of the role of city and national authorities.

While the seminar focussed, understandably, on the elements that comprise the “Internet of Things”, making up ‘the nuts and bolts’ of the smart city, it also convinced me that we need to pay more attention to the wider social, political and economic context.

What makes a city smart? Given the combination of complexity and subjectivity, that is always going to be a hard question to answer. Nonetheless a group of academic institutions did rank 75 smart cities across Europe based on the “smartness” of their approach to the economy, mobility, the environment, people, living and governance.

When I measured the ranking of smart cities in each country against that country’s average income, I was struck, but not that surprised, that there was an almost linear correlation between a country’s wealth, and the ranking of its ‘smartest’ city. Thus at one extreme Luxembourg, easily the richest country in Europe, and second richest in the world, was also judged to have the smartest city. Lowest ranked was Bulgaria, which also had the lowest per capita income of all the countries on the list. Most other countries were in a ‘logical’ position in between.

Smartening up the city

One can of course argue whether smart cities are mainly a cause or a consequence of a country’s wealth. Up until now I suspect it is mainly a matter of richer countries being able to afford more advanced technology, not least because the relative economic pecking order has not changed that much in the past 25 years, i.e.. since before the smart city era really got underway, indeed if anything the countries on the bottom right of our chart have been catching up economically, which could be why countries like Romania, Slovakia and Slovenia are doing better in the smart city stakes than their income might suggest.

Luxembourg is of course unusual in one other significant respect. In terms of size, and population, it is about the size of a city, and is politically and economically very much focussed on its eponymous capital city. This raises a question sometimes posed in other contexts: Is the “city state” making a comeback, and could this have a bearing on the development of the smart city? In this respect it surely speaks volumes that Singapore, probably the closest entity to a city state in the modern world is not only highly productive economically but frequently cited in the history of the smart city, going back to the days when it pioneered road pricing more than a generation ago, and one of the cities mentioned in this seminar.

If you are laying down the guidelines for a smart city then there are clearly advantages in having an authority with the resources and powers of a government, combined with the local knowledge and accessibility of a city.  But given that splitting up the world into hundreds if not thousands of new ‘city states’ does not look like a viable option, what can be done to create a framework in which smart cities can flourish in a way that is responsive to their citizens’ needs?

Even in larger countries, the Mayors of major cities are often heavyweight national figures, enjoying wide ranging  powers. This applies to cities like New York, Berlin, Paris and, more recently London. One of the most interesting developments in Britain is the growing recognition that while London is already in effect a global economic power, other cities have been struggling to keep up. While this problem long pre-dates the smart city, it speaks volumes that, with a general election due next year, all of the major parties are now committing to giving more powers to major cities outside of the capital, possibly with more directly elected mayors.

Given the nature of democratic politics there is still no guarantee that this will happen, especially given governments’ traditional reluctance to hand over power, but with Scotland likely to enjoy greater autonomy even if it votes to remain in the UK, the pressure to devolve more power to cities and regions in the rest of the UK will be that much greater.

Even this would not of itself promote smart cities, but it would mean that city mayors or leaders seeking to promote and coordinate smart city developments, and companies and interest groups looking for partners, would have much more powerful instruments within their grasp.

BSRIA’s Worldwide Market Intelligence team produces an annual report into Smart Technologies. To find out more go to our website

A forward thinking attitude to energy management

Chris Monson, Strategic Marketing Manager of Trend

Chris Monson, Strategic Marketing Manager of Trend

Given that in parts of the world like Europe and North America some 40% of all energy used is consumed by buildings, both companies and wider society are increasingly focussing on the energy performance of their buildings, and how to improve it.

Building Energy Management Systems (or BEMS) are computer-based systems that help to manage, control and monitor building technical services (HVAC, lighting etc.) and the energy consumption of devices used by the building. They provide the information and the tools that building managers need both to understand the energy usage of their buildings and to control and improve their buildings’ energy performance. 

I’m Chris Monson, strategic marketing manager at Trend Control Systems, and I’d like to welcome you to the latest in a series of blogs where I, along with my colleagues, examine the issues affecting the building controls industry and the use of Building Energy Management Systems (BEMS).

It strikes me as somewhat bizarre that in an age where owners, managers and occupiers of commercial premises are under tremendous pressure to operate as energy efficiently as possible, so few developers recognise the long-term value of installing a fully featured BEMS at the construction stage. Such is the value and relevance of this technology, that to my mind it should be considered as important as other elements of the building services infrastructure that are designed in as a matter of course.

BEMS facilitate greater energy efficiency and the cost savings and the environmental benefits that can be experienced as a result of investment in this technology are considerable. A fully integrated solution can have up to 84 per cent of a building’s energy consuming devices directly under its control, offering greater visibility of energy use by monitoring services such as heating, ventilation, air conditioning (HVAC) and lighting.

According to the Carbon Trust 25 per cent of a building’s energy is used in lighting, and it is estimated that around a third of the energy consumed in this way in non-domestic buildings could be saved by utilising technology that automatically turns off lights when space is unoccupied. In addition, air conditioning can increase a building’s energy consumption and associated carbon emissions by up to 100 per cent, making it imperative that its use is tightly controlled.

So why isn’t the design and installation of a BEMS happening in the initial stages of a construction project? I’m afraid that the answer comes down to a combination of cost and lack of foresight. However, to fully understand why these two factors are proving so prohibitive to BEMS implementation, we need to understand a little more about the mind-set of the developer.

Developers tend to fall into two broad groups – there are those that configure buildings for others to inhabit and others who design and build premises for their own use.

When it comes to the former, the main driver is to save costs at the construction phase and little thought is given to the building’s future occupants and how they use the building. As there are no regulations stating that a BEMS must be installed, there’s a strong possibility that it won’t be. However, this lack of forward thinking leads to future occupants having to cope with inadequate visibility and control of their energy usage and, therefore, higher overheads and a larger carbon footprint.

Regarding the second group, it often comes down to the failure of owners to specify the need for a BEMS at procurement stage and make sure that they have systems in place that will maximise the energy saving potential of the building. While this type of developer will also have one eye on the cost of the project, the increased capital costs of installing BEMS is easily countered by the return on investment (ROI), with an average payback of just three and a half years.

Whichever way you look at it, the fact is that on a ROI basis early stage BEMS implementation makes sound economic sense. It can form less than one per cent of the total construction expenditure and energy savings of 10-20 per cent can be achieved when compared to controlling each aspect of a building’s infrastructure separately. The benefits don’t stop there either, as if it is incorporated with smart metering, tariff changes can be used to offer a strategic approach to energy management and control, and the data produced gives clear signposts for potential improvements.

I firmly believe that in the current business climate to construct a new build property without a comprehensive BEMS borders on foolhardiness. Organisations are faced with growing pressure to demonstrate carbon reduction policies and do all they can to lower their energy use.

Despite the controversy surrounding the introduction of the CRC Energy Efficiency Scheme, it is here to stay and is likely to extend its scope to incorporate more businesses in the future. In addition, The Climate Change Levy (CCL), Display Energy Certificates (DECs) and Energy Performance Certificates (EPCs) also affect businesses, while compliance with certification standards such as ISO 50001 put the onus on companies to demonstrate continual improvement in this area.

It should also be remembered that building occupiers are demanding greater visibility and transparency of their energy consumption and need access to data. A failure to meet this demand could mean that prospective tenants decide to go elsewhere.

Standardisation is playing an ever more prominent role and the most significant is EN 15232, which describes methods for evaluating the influence of building automation and technical building management on the energy consumption of buildings. It enables building owners and energy users to assess the present degree of efficiency of a BEMS and provides a good overview of the benefits to be expected from a control system upgrade. The use of efficiency factors means that the expected profitability of an investment can be accurately calculated and I’m pleased that a growing number of organisations are reviewing this document and implementing some of the best practice guidance it offers.

There are those who feel that regulation is the only way to make sure that BEMS are installed at the point of initial construction, although others are reluctant to see the introduction of more onerous legislation on an already pressured construction sector. At this stage I think that regulation shouldn’t be necessary if a long-term approach to energy efficiency is factored in and the benefits of a BEMS are recognised by more developers in the initial stages of a project.

Trend_RGB SMALLFor further information please call Trend Marketing on 01403 211888 or email marketing@trendcontrols.com. Trend are the main sponsors of this year’s BSRIA Briefing – Smarter ways to better buildings.

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. 

Best & Worst Practices Please!

Julia Evans, BSRIA Chief Executive

Julia Evans, BSRIA Chief Executive

BSRIA recently held a workshop on behalf of DECC identifying priorities to promote low carbon heating and cooling in non-domestic buildings as part of the development of its low carbon heat strategy.  Attendees were drawn from both the Young Engineers and Energy and Sustainability BSRIA networks.  Personal thanks to AECOM’s Ant Wilson for chairing the event.

It was a busy day.  It recognised that both new and existing buildings have a pivotal role in reducing greenhouse gas emissions, and by 2050 one of the key requirements will continue to be how we provide heating and cooling.

BSRIA’s Peter Tse and Ian Orme both gave excellent presentations which drew on both good and poor practices identified from more than 50 independently assessed case studies.  These, I felt, answered the questions “what does good practice look like”, as well as “what are the consequences when its not followed”.

The workshop session resulted in many suggestions as to priorities for the future.  There were a couple which caught my eye.

In response to the suggestion that one of the priorities for DECC should be identifying independently assessed best practice and developing exemplars of new technologies, a number of delegates felt that instances of “bad practice” were even more helpful.  It seemed to me that a priority for at least a part of the audience was to know what to avoid doing.  Perhaps this reflects the industry’s receptiveness to messages about risk, and that we often learn most when we make mistakes.  The emphasis on “independent assessment” also resonated.  Many have become sceptical about instances of self-identified “best practice”, and BSRIA’s independent guidance on what works, and what does not, is there to assist the industry do things better.

Another of the workshop themes was on “skills shortages”.  After many years of recession, construction companies have euphemistically “right sized”, and this means that we have lost a lot of great talent from the industry.  Now that there are green shoots of recovery in construction, there is already talk of an exacerbated “skills gap”.  This gap makes it even more challenging for the industry to deliver buildings which meet the needs of their occupiers and where innovation is required to help tackle climate change, and meet the UK’s commitment to “zero carbon” and “very low energy” buildings. This reminded me of another of BSRIA’s strengths – training provision.

BSRIA's 2014/15 Training Brochure

BSRIA’s 2014/15 Training Brochure

Finally there was an astute observation that our recent quest for low carbon buildings has meant that we have worried less about the efficient use of energy, with the net outcome that we can end up with an EPC A rating for carbon design, but a DEC G rating for energy in use.  The move to policies that move us to buildings which are both zero carbon and nearly zero energy use will hopefully remedy this, although I suspect this particular journey may contain further unintended consequences before we reach that goal.

The workshop identified many requirements if we are to create environmentally conscious buildings that meet user needs, and importantly maintain these elements over the life of the building.

BSRIA’s mission remains to “make buildings better”.  As part of my role, I’m listening to our members and the industry what they expect from BSRIA.  I’d like to extend this offer to you, so if you have ideas about BSRIA’s future role, please send them to me: Julia.evans@bsria.co.uk.

To learn more about the BSRIA workshop you can download all the presentations from our website. 

The “Seven pillars of (BIM) wisdom”

In 2011 the report for the Government Construction Client Group defined Level 2 BIM as being:

“Managed 3D environment held in separate discipline “BIM” tools with attached data….”

However, as a consequence of ongoing development of the processes and tools available, and feedback from early adopter projects and other industry experience, the Government has recently refined its definition of Level 2 BIM as having the following seven components:

  1. PAS 1192-2:2013 is available to download for free from BSI

    PAS 1192-2:2013 is available to download for free from BSI

    PAS 1192-2:2013 Specification for information management for the capital/delivery phase of assets using buildinginformation modelling

  2. PAS 1192-3:2014 Specification for information management for the operational phase of assets using building information modelling
  3. BS 1192-4 Collaborative production of information. Part 4: Fulfilling employers information exchange requirements using COBie – Code of practice (due to be published Summer 2014)
  4. Building Information Model (BIM) Protocol
  5. GSL (Government Soft Landings)
  6. Digital Plan of Work (in preparation)
  7. Classification (in preparation)

 

1. PAS 1192-2:2013 builds on the processes described in BS 1192-2007, and introduces new concepts such as employer’s information requirements (EIR) – the employer’s expression what information they require from the project and the format it should be in, and BIM execution plans (BEP) – the supply chain’s response to the EIR showing how it will meet its requirements.

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Buildings – Plugging the Performance Gap

This blog was written by BSRIA's Henry Lawson

This blog was written by BSRIA’s Henry Lawson

What do The Titanic, London’s Millennium Bridge, and The Leaning Tower of Pisa have in common? One answer is that as structures they all failed to “perform” as expected. The Titanic, designed with the latest technology to achieve a success  rate of approximately 100% safe Atlantic  transits, actually achieved a disappointing 0%. The Millennium Bridge, fine and inspiring though it was, failed to take account the consequences of perfectly natural, if little understood, human behaviour – the tendency to walk in sync on a naturally moving structure – with potentially alarming consequences. It had to be radically re-engineered before reopening in 2002.

The Leaning Tower of Pisa, which I was able to climb last month, failed in the most fundamental requirement of most buildings – staying permanently upright – though in some-ways of course this very failure was the secret of its long term success and certainly the main reason that people like me still pay good money to climb it more than 800 years after it first started leaning.

When buildings fail to deliver the intended results, we talk about a “performance gap”. While this can embrace many areas including cost, safety and comfort, we tend to talk about this particularly where energy performance is concerned. This reflects the fact that energy performance is at least ostensibly a goal of most of those involved in the design, construction and management of buildings, and that as energy prices rise and concerns over the impact of greenhouse gas emissions become more acute, the sense of urgency can only increase.

Some of the reasons for this are highlighted in a useful new book “How Much Energy Does Your Building Use?” by Liz Reason (Dō Sustainability) whose launch I attended in London last week. The book highlights examples of buildings initially hailed as energy efficient which spectacularly failed to live up to their reputation. It also shows how these failings can emerge at any stage of the building process from initial planning and design through construction, commissioning and occupation and operation, and considers how these problems and shortcomings can best  be addressed and avoided.

What I want to focus on here is one central question: How do we know how our building is actually performing, let alone how it is likely to perform in future? The key here is information, which needs to be collected and then analysed, not just to show us any obvious performance issues but also point to potential problems or just unusual patterns that deserve further investigation and explanation.

This points to a central role for Building Energy Management Systems (BEMS). These are offered by a wide range of suppliers, including most of the major Building Automation providers, and present wide ranging functionality. Central to almost all of them is the collection and analysis of data, sometimes in prodigious volumes. A well implemented BEMS enables you to keep track of what your building is actually doing, irrespective of what it was intended or expected to achieve.

'Performance gaps' in buildings are nothing new...

‘Performance gaps’ in buildings are nothing new…

Another way in which the performance gap points towards BEMS is that while the value of BEMS has been widely recognised for some time in the retrofit market, especially for the huge mass of buildings constructed in 1960 – 1990, there has sometimes been a tendency to assume that more recent buildings, being generally built to much higher standards, can, to a degree, “look after themselves”. If a building really is “zero energy” then what is there to manage, at least from an energy point of view?

However, if there are basic failings in the design itself, the way it has been implemented or commissioned, or the way the building is operated in relation to its actual usage, then the performance gap can loom up large and un-ecological as a fire-breathing dragon. Sometimes the failings can be obvious: a stiflingly uncomfortable office can jump up and hit you as much as a wildly wobbling bridge. But in other instances, energy wastage is less obvious. Real performance issues emerge only when the actual data is collected and analysed over time.

This month BSRIA publishes the latest update of the study “BEMS Market 2014 Q2 :Developments in Europe and the USA”, a study which, with its regular quarterly updates, helps you to keep up to speed with the newest developments in this exciting and important area.

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