Now that we might be building primary schools again, what are the costs?
01 / INTRODUCTION
The Education Funding Agency has recently released the first batches of the 拢1.75bn privately financed schools programme, although the privately financed element has shrunk to 拢700m. In addition to this, the government did announce in May new capital funding of 拢300m.
Regardless of how these schools are funded, they will be released to the market in batches, with the first OJEU for the 拢122m Hertfordshire, Luton and Reading batch of seven schools due in June. Each of the geographically located batches will comprise a mixture of secondary and primary schools.
Then 鈥 Primary Capital Programme
During the days of the 黑洞社区 Schools for the Future (BSF) programme, primary schools were treated as the poor cousin to their more profitable and architecturally interesting secondary school relations. The 拢1.1bn Primary Capital Programme bore little relation to the more glamorous 拢55bn BSF programme, was in some cases rolled up into the BSF LEP, then quietly drifted away under the coalition government, its passing barely noticed behind the hubbub surrounding the cancellation of the BSF programme.
The stated aims of the Primary Capital Programme were to make additional funding available to enable local authorities to rebuild or take out of use the worst 5% of primary school buildings and to significantly improve at least half of all primary schools. Local authorities were encouraged to take a strategic approach to rebuilding, refurbishing or remodelling their primary schools to bring them up to 21st-century standards.
And now 鈥 Baseline designs
The Education Funding Agency has developed a series of 鈥渂aseline designs鈥. In total there are 14 baseline designs, six of them being primary schools. These range from a 105-place school with a 26 place nursery, through to a two-storey 630-place primary school. In the face of significant criticism from architects and educationalists among others, the Education Funding Agency has been at pains to state that baseline designs are purely illustrative of how the reduced space standards could be configured, and that it is up to individual design teams and contractors to develop their own designs.
The future
With the seemingly unending increase in birthrates, it is time that Primary schools move beyond the sticking plaster approach of portacabins and are instead provided with permanent, flexible, fit for purpose facilities that schools and pupils are proud of.
02 / EDUCATION CONSTRUCTION MARKET
The chart below shows the sharp increase in public funded schools work that occurred in 2009 and 2010 as the previous government pumped money into public sector building work to boost the economy. It also shows the equally sharp fall in activity that has characterised the sector since the end of 2011. Nevertheless, at the beginning of 2013, the amount being spent on publicly funded schools and colleges was still higher than all the years prior to 2008, despite the drop in prices that the industry has experienced since then.
It also shows that the height of privately funded education construction was 2006-8 when over 拢900m per quarter was being spent on schools and universities; since 2010 this figure has stabilised at a little under 拢600m per quarter.
The Spring 2013 Construction Industry Forecasts from the Construction Products Association (below) expects the trend of the last two years to continue. Following a 17% reduction (in constant price terms) in 2012, education construction activity in 2013 is expected to fall a further 10% before stabilising and showing minor growth in 2016-17.
03 / DESIGN ASPIRATIONS
The main design issues currently being addressed for schools in general (both primary and secondary) are to adapt to the new Priority School 黑洞社区 Programme OutputSpecification published by the Education Funding Agency, which is essentially replacing 黑洞社区 Bulletins previously used as guidance for school design, in particular acoustics and environmental design. The major driver is to provide naturally cross-ventilated energy efficient teaching spaces which perform acoustically with good natural daylighting.
Many contractor framework bidders have developed an affordable 鈥渒it of parts鈥 approach to structural frame and building service provision which allows for flexible adaptation on individual sites that can be tailored for specific teaching pedagogies.
The 鈥渒it of parts鈥 approach, often using standardised off-site manufactured components, allows spatial layouts for individual schools to follow the Baseline Design templates being published by the EFA (the latest batch of which have recently been published).
With the new PF2 procurement about to get under way, another layer of design criteria, including energy in use monitoring, with penalties imposed for buildings that exceed set targets, are also focusing the minds of environmental consultants. Only time will tell whether building to these new standards will be more successful than those that went before.
04 / PROCUREMENT ISSUES
With the serious shortfall in pupil places in so many regions around the country, the provision of temporary classrooms on a short to medium-term basis is no longer seen as a viable solution, writes Simon Cash.
Using their own and central government funds, local authorities are looking to new-build projects to provide a permanent and future-proofed response.
Given the pressure on funding, the key to a successful project is a clear brief and design that, when tested, is seen to be affordable and can be delivered to the desired programme. The link between the two is procurement. Without the right procurement route and robust procurement documents, it is easy for ambiguities, contradictions and loopholes to creep in that could lead to escalation of costs, delays and ultimately disputes. There are many issues that arise through the procurement process. So, what are the challenges?
Options appraisals
Even before a project is confirmed, options appraisals have to be carried out to establish which sites can be developed, or which existing schools are best suited for expansion. Due to the limited funds that local authorities have, these appraisals are often carried out using limited information, relying on assumptions.
With the appraisals over, new design teams are procured to develop the feasibility into a scheme that can be used to procure contractors. However, no two designers will have the same approach to developing solutions and the new team will invariably look at yet another alternative, taking the scheme back to first principles again. Both the procurement of a new design team and revisiting options uses valuable time in what is, more often than not, a tight programme.
Engaging designers to develop options appraisals, but with a break clause in the event that the scheme is not taken forward would save considerable time, which can be used to benefit the project elsewhere. Of course, continuity of design team avoids the need for taking a backward step when good work has already been carried out.
Assumptions
Further challenges arise from basing options appraisals on assumptions, when schemes are taken forward, surveys and investigations are carried out, or planners are consulted. The resulting information and feedback may throw up problems that would have led to an alternative solution had they been known at the time.
The impact is a squeeze on both costs and designs, to make sure the project works. This often also leads to a squeeze on the brief, which dilutes the school鈥檚 expectations of what they are getting from the project and leads to a testing relationship between school, local authority and consultant.
Therefore, it would be better to put more value and effort into the options appraisals to better inform the viability of the scheme, which will facilitate development of the design and selection of a robust procurement strategy further down the line.
Risk
Being risk averse, local authorities look to transfer as much risk to the contractor as possible. From the contractor鈥檚 point of view, they need to be able to quantify that risk, to allow them to make due allowance for whatever they have to assume responsibility. So, a more equitable way of approaching this thorny subject is to draw up a risk transfer schedule that identifies all the known risks and what information is available to the tenderers to allow then to make an informed decision on the commercial offer they make. Where it is considered that the information available is insufficient to evaluate the risk, the suggestion should be that the risk remains on the client side and put into the risk register. This will then inform the level of contingency that needs to be held out of the overall budget.
Design and build
The decision whether to follow a traditional or design-and-build route will often be dictated by programme needs or the desire to transfer risk to the contractor. The problem that contractors find with design and build is that many schemes are being taken to a level of design that does not give them the flexibility of applying their expertise in detailing designs to add value to the project. Where schemes are taken through to RIBA stage E or F, the level of detail is virtually to the standard of a traditionally procured project. On the other hand, where designs are tendered at RIBA stage C or D, the Employer鈥檚 Requirements do not adequately detail those aspects of the brief or design that are non-negotiable. This can lead to tensions between designers and contractors, with contractors鈥 proposals being rejected and arguments as to what the contractor should or should not be providing.
One way to strike a balance is to establish a schedule of non-negotiables as part of the briefing process and as the design develops. This schedule then forms part of the Employer鈥檚 Requirements and, where appropriate, the design is taken to a level of detail that allows the design team to be prescriptive.
For other elements of the scheme the design is only taken to a level that will allow the contractor the ability to offer best value, without compromising the overall project and brief.
Data sheets
In addition to the above, the development of detailed room data sheets for accommodation can go a long way to conveying the brief and are an easy reference document that all can refer to in the event that there is a question over the provisions within a specific space.
Preparation time
Invariably, school expansion projects need to be delivered by the start of the new academic year. This means that there can be several projects running in parallel, with tight timescales. Developing a realistic programme that everyone signs up to is a challenge, and the area that most often gets squeezed is the procurement of the contractor. However, in reality this is the time that will have the most critical bearing on the outcome of the project. Inadequate time for preparation and proper review of tender documents, short tender periods, insufficient time given to evaluate tenders, and a lack of appreciation of the time the local authorities鈥 decision making process takes, all result in contracts being awarded late against programmes.
This puts pressure on the construction phase and the contractor ends up taking on the risk for fear of losing the contract. A well-considered procurement programme that gives time to properly review documentation will highlight any weaknesses that can be addressed prior to getting into contract.
Simon Cash is director of cost management at Artelia UK
A typical low cost school
The featured school is a typical example of the new 鈥渓ow cost鈥 family of schools, and is loosely based on the Education Funding Agency鈥檚 baseline design for a 630 place primary school with nursery spaces over 4000m2 gross floor area.
It is constructed on a greenfield site, and is formed by a structural steel frame to maximise future flexibility and adaptability, shrouded with a thermally insulated and rendered block wall. Internally it consists of skimmed and painted double layer plasterboard partition walls, with tiled finished to WC areas.
Flooring is concrete screed, with a finish of tiles, carpets and sports flooring. Underfloor heating is supplied through a high efficiency gas fired boiler. BREEAM rating is 鈥渆xcellent鈥. The cost model does not include external works or abnormal costs, as these will be site dependent. The construction period will be in the order of 56 weeks.
05 / COST MODEL
Total (拢) | 拢/尘2 | ||
---|---|---|---|
Substructure | 875,000 | 218.75 | 14.6% |
Site preparation, 4,000m虏 @ 拢5 | |||
C20 strip footings, 1,700m @ 拢150 | |||
300mm ground bearing slab, 4,000m虏 @ 拢110 | |||
Underground drainage, 4,000m虏 @ 拢20 | |||
Sundry items; Tanking/DPM; Movement Joints, 4,000m虏 @ 拢20 | |||
Frame and upper floors | 216,000 | 54.00 | 3.6% |
Structural steel frame, 100t @ 拢1,600 | |||
Fittings, 10t @ 拢1,600 | |||
60 minute intumescent fire protection to exposed steelwork - on site application, 1 item @ 拢30,000 | |||
Allowance for bracing and trimming steels incl. fire protection, 1 item @ 拢10,000 | |||
Roof | 648,000 | 162.00 | 10.8% |
Standing seam joints composite insulated pitched roofing system; 80mm overall panel thickness (U-value = 0.13); incl. beads and angles, 4,817m虏 @ 拢120 | |||
Canopies to walkways, 1 item @ 拢25,000 | |||
Sundry items; mansafe system; rainwater goods, 1 item @ 拢45,000 | |||
Stairs | 9,000 | 2.25 | 0.2% |
Precast concrete stair to level change; 2nr half flights @ 拢4,250 | |||
Steel handrails to wall, 5m @ 拢95 | |||
External walls | 464,800 | 116.20 | 7.8% |
Self coloured render on single skin block wall; plaster board dry lining, 1,868m虏 @ 拢175 | |||
Thermoboard cladding with breather membrane on single skin block wall, 403m虏 @ 拢225 | |||
Facing brick on single skin block wall to base of building, 173m虏 @ 拢160 | |||
Brise soliel, 78m虏 @ 拢250 | |||
Windows and external doors | 207,900 | 51.98 | 3.5% |
E.O Aluminium PPC windows, double glazed, manual openings, 412m虏 @ 拢260 | |||
Double leaf glazed main entrance doors (manual), 19nr @ 拢4,200 | |||
Double leave service entrance doors, 2nr @ 拢2,600 | |||
One and a half leaf doors, 3nr @ 拢2,100 | |||
Single leaf doors, 6nr @ 拢1,575 | |||
Internal walls and partitions | 339,400 | 84.85 | 5.7% |
Metal stud partitions; generally 2 layers of plasterboard each side; various levels of fire and sound insulations, 3,347m虏 @ 拢60 | |||
E.O. allowance for glazed timber walls (vision panels alongside classroom doors) (assumed 10%), 335m虏 @ 拢230 | |||
Cubicle partitions with doors, 62nr @ 拢750 | |||
Fire protection between partitions and roof 1 item @ 拢15,000 | |||
Internal doors | 151,200 | 37.80 | 2.5% |
Single leaf doors 87nr @ 拢675 | |||
Double leaf doors 26nr @ 拢1,250 | |||
E.O vision panels, acoustic treatment, fire rating 1 item @ 拢50,000 | |||
Reception hatches and roller shutter @ 拢10,000 | |||
Wall finishes | 90,700 | 22.68 | 1.5% |
Skim and paint generally, 8,130m虏 @ 拢8 | |||
Full height hygenic wall lining system to kitchen areas, 338m虏 @ 拢45 | |||
Ceramic wall tiling to WCs, 1 item @ 拢10,000 | |||
Paint to plant and storage areas, 94m虏 @ 拢5 | |||
Floor finishes | 279,800 | 69.95 | 4.7% |
Concrete screed and insulation, 3,882m虏 @ 拢26 | |||
Heavy duty carpet tiles to classrooms and circulation areas, 3,104m虏 @ 拢34 | |||
Vinyl sheet flooring to kitchen area and WCs, 383m虏 @ 拢26 | |||
Junkers sports flooring to hall, 320m虏 @ 拢72 | |||
Matting,1 item @ 拢15,000 | |||
Dust sealant finish to plant and storage rooms, 75m虏 @ 拢5 | |||
Skirtings, 1 item @ 拢25,000 | |||
Ceiling finishes | 177,800 | 44.45 | 3.0% |
Mineral fibre suspended ceilings; incl. Linings, 3,424m虏 @ 拢46 | |||
Moisture resistant ceilings to WCs, Kitchen, 383m虏 @ 拢52 | |||
Emulsion painted soffit to plant and storage rooms, 75m虏 @ 拢5 | |||
Bulkheads and casings to voids and high level rooflights, excl. | |||
Furniture and fittings | 180,000 | 45.00 | 3.0% |
Kitchen fit-out, 1 item @ 拢100,000 | |||
General Fixed FFE, 4,000m虏 @ 拢20 | |||
Sanitary appliances | 107,900 | 26.98 | 1.8% |
WC鈥檚, 48nr @ 拢350 | |||
Wash hand basin, 30nr @ 拢250 | |||
WC suites, 8nr @ 拢1,800 | |||
Disabled WC, 6nr @ 拢2,200 | |||
Cleaners sink, 3nr @ 拢500 | |||
Vanity units, 10nr @ 拢2,100 | |||
Hand driers; approximate quantity, 20nr @ 拢425 | |||
Mirrors and WC fixtures,1 item @ 拢25,000 | |||
Disposal installation | 64,000 | 16.00 | 1.1% |
Disposal installations; soil waste and disposal, rainwater disposal, 4,000m虏 @ 拢16 | |||
Water installation | 116,000 | 29.00 | 1.9% |
Water installations; hot and cold water service, storage, distribution, 4,000m虏 @ 拢21 | |||
Miscellaneous water services to plant etc. 4,000m虏 @ 拢8 | |||
Heat source | 52,000 | 13.00 | 0.9% |
Gas fired boiler, 4,000m虏 @ 拢13 | |||
Space heating and air treatment | 114,200 | 28.55 | 1.9% |
Low temperature hot water heating distribution, 457m虏 @ 拢25 | |||
Underfloor heating, 3,543m虏 @ 拢29 | |||
Ventilation installations | 116,000 | 29.00 | 1.9% |
Server room cooling, 4,000m虏 @ 拢5 | |||
ICT room cooling, 4,000m虏 @ 拢9 | |||
Kitchen extract ventilation, 4,000m虏 @ 拢4 | |||
Toilet extract ventilation, 4,000m虏 @ 拢6 | |||
Miscellaneous ventilation/cooling systems, 4,000m虏 @拢5 | |||
Electrical installations | 392,000 | 98.00 | 6.5% |
LV supply/distribution, 4,000m虏 @ 拢50 | |||
General lighting, 4,000m虏 @ 拢30 | |||
General power, 4,000m虏 @ 拢7 | |||
Electrical services in connection with mechanical, 4,000m虏 @ 拢5 | |||
Disabled WC alarm, 4,000m虏 @ 拢1 | |||
Data and voice, 4,000m虏 @ 拢5 | |||
Gas installation | 21,000 | 5.25 | 0.4% |
Gas service to boilers, 4,000m虏 @ 拢4 | |||
Gas service to kitchens, 1 item @ 拢5,000 | |||
Lift installations | 38,000 | 9.50 | 0.6% |
Platform lift, 2nr @ 拢19,000 | |||
Protective installations | 72,000 | 18.00 | 1.2% |
Earthing and bonding, lightning protection, 4,000m虏 @ 拢2 | |||
Fire alarm, 4,000m虏 @ 拢6 | |||
Intruder detection system (CCTV), 4,000m虏 @ 拢10 | |||
Special installations | 257,500 | 64.38 | 4.3% |
BMS controls installation, 4000m虏 @ 拢25 | |||
PV to roof, 500m虏 @ 拢315 | |||
Builder鈥檚 work in connection | 102,000 | 25.50 | 1.7% |
Builders work in connection allowance @ 5% item @ 拢68,000 | |||
Testing and commissioning @ 2.5% item @ 拢34,000 | |||
Preliminaries and contingencies | 896,000 | 224.00 | 15.0% |
Total construction cost (building only) | 5,990,000 | 1,497.50 | 100% |
We would also like to acknowledgement Gary Chesher of Aecom and Peter Fordham of Davis Langdon, an Aecom company, for their contributions.
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