Presenters Serge Desmarais, MAIBC, MRAIC , Levelton Engineering Ltd., Vancouver David Mitchell, OAA, MRAIC, Shore, Tilbe Irwin and Partners, Toronto Brian Palmquist, MAIBC, MRAIC, Eco-Design.ca, Vancouver Wayne Upiter, OAA, AECON Group Inc., Toronto Handouts CD-ROM -PowerPoint Presentation -Manual -Checklists Evaluation Form Note Pad and Pencil Course Objectives understand the procedures for properly conducting a field review; learn how to budget time and fees adequately for on-site services; develop an awareness of new technologies with applications for field review; learn what to look for and how to correctly report on a site visit. develop an awarenes of environmental issues with respect to mould, asbestos and other substances Dayplan Overview, Theory and Definitions – Break Time, Resources, Fees for Construction Phase Q&A What to Look For -specifics / photos – Lunch More - What to Look for / New Technologies – Break Hot Topics (toxic mould, asbestos) Q&A What is Field Review / General Review? A Mandatory Building Code Requirement A Service provided by Architects What Do The Words Mean ? Review – Look at – Appraise – Assess Field – In the field – On Site – Work place General – Broad – Not specific Sources for More Information – CCDC Documents – Building Codes – Architects’ Acts and Regulations – Practice Bulletins – Municipal Certificate Forms – Canadian Handbook of Practice Definitions Sorting Out Available Information – – – – – – Preferred Definitions Contractual Definitions Code Definitions De facto Definitions Performance Standards Colloquial Understanding Field Review / General Review Field Review : British Columbia General Review : Ontario Building Code Field Review / General Review : Document Six (combination) Surveillance de Chantier : Québec (literally « to watch over the construction site ») Preferred Definition Document 6 Canadian Standard Form of Contract for Architectural Services (2002) http://www.raic.org/document_six/ What are the key words? – – – – – Intervals Professional discretion Familiar General Conformity Construction Documents What is Field Review/Contractual Review? Contractual Definitions – Avoid Non-standard contracts and clauses : “certify that the work is in total compliance with the plans and specifications prepared by the architect and code and other regulations governing the work” “visit the site at times appropriate to the construction, at least once per week and as required or requested by the Owner or the Contractor…” “ensure that the work is constructed in accordance with the tender documents and the Building Code.” Code Definitions National Building Code Provincial Building Codes Variations De facto Definitions – General Review Commitment Certificates This is to certify that: …………………………………………. Is retained to undertake, in respect of the designated permit application number, the general review of the construction of the building in accordance with, if an architect, the performance standards of the __________ Association of Architects, to determine whether the construction is in general conformity with the plans, drawings, graphic representation, specifications and other documents that are prepared by an architect, professional engineer or both and that form the basis for the issuance of a building permit or any changes thereto authorized by the Chief Building Official. (PLEASE PRINT) Name of Architect/Professional Engineer or Company De facto Defintion Contractual Definitions – Canadian Standard Form of Contract for Architectural Services -Document 6, 2002 – CCDC Document 2 Stipulated Price Contract “2.2.2 The Consultant will visit the Place of the Work at intervals appropriate to the progress of construction to become familiar with the progress and quality of the work and to determine if the Work is proceeding in general conformity with the Contract Documents.” Contractual Definitions Canadian Standard Form of Contract for Architectural Services -Document 6, 2002 – “General Review / Field Review means review during visits to the Place of the Work (and where applicable, at locations where building components are fabricated for use at the Project site) at intervals appropriate to the stage of construction that the Architect, in his or her professional discretion, considers necessary to become familiar with the progress and quality of the Work and to determine that the Work is in general conformity with the construction documents.” Colloquial Understanding The Architect designs The Contractor builds The Architect watches The Client pays Performance Standards Architects Acts, By-laws and Regulations Practice Bulletins and Practice Notes What is Field Review / General Review ? NOT Supervision, NOT Inspection – Supervision Organize, direct, control, coordinate construction Be responsible for the safety and actions of those working on the site – Inspect Examine closely Check completely Do the Right Thing ! – Meet Performance Standards – Coordinate and Deliver Consistent Services – Educate the Client – Use Professional Discretion – Assign experienced and knowledgeable personnel Steps to Field Review / General Review Startup Construction Review and Reporting Close-out Startup – Objectives – – – – – – – – – Introduce key personnel and define roles Establish lines of communication Set tone of cooperation and team work Share project goals Agree on contract administration procedures Exchange standard forms Obtain mandatory documents Document existing site conditions Agree on dispute resolution procedures Startup – Pre-construction Meeting – Be well prepared ! – Set the agenda, chair the meeting ! – Request agenda items from all parties – Discuss project goals Agenda Pre-construction Meeting Canadian Handbook of Practice for Architects Suggested agenda for the Pre-construction Meeting CH 38, Chapter 2.3.11 Startup Construction Schedule – Critical for planning construction site visits – Push for early submission – Contractor to include – Stages and materials requiring inspections (EVENTS) – Major component stages – Long lead items – Substantial performance – Move in Insist on a Comprehensive Construction Schedule ! What to Look For… Compliance – – – – – – – Building Code Standards Contract Documents Reviewed Shop Drawings Change Orders, Site Instructions Mock-ups Other Startup – Shop Drawing Schedule – This Schedule is a required document – Tie to construction schedule – Sequence to avoid overload – Allow time for review and resubmission Construction Site Visits – – – – – Credibility Preparation Procedures Checklists Reporting Credibility Knowledgeable and experienced personnel Detailed understanding of the project and documents Consistent observations Reasonable interpretations of the documents Helpful and creative resolution of problems Communication Preparation Review Schedule Select area to focus on Review applicable drawings, specifications, shop drawings Assemble checklist (s) Review approved samples Use a Construction Site Tool Kit Construction Site Tool Kit Preparation for Site Visits: understand the Contract Documents inside – out ! Checklists Construction Review – Services Canadian Handbook of Practice for Architects – Useful or not? – Office procedures – Checklists provided in CD-ROM with course handouts – Specifications Close Out – Substantial performance – Legal definition from lien legislation – Financial threshold and ready for occupancy – Start of warranty period and lien period – Assessment relies on well documented Field Review Reports Reporting Contractual requirement – Written record – Standard Forms – Observations and Resolutions – Instructions consistent with Contract Documents – Distribution Substantial performance – Legal definition from lien legislation – Financial threshold and ready for occupancy – Start of warranty Total Performance Completion of all deficiencies Test certifications on life safety and other systems Clearances from all Authorities Having Jurisdiction Operating and Maintenance Manuals Owner's sign-off for extra maintenance materials as specified Original written warranties Total Performance Certificates from Utility Companies As-built drawings Close out letters from consultants and inspection and testing agencies Statutory Declarations Clearance from Workplace Safety Insurance Board or Workers Compensation Board Occupancy permit or clearance from Municipality if required Warranty Review – Prior to expiry of warranty period – With the owner's representative – Consolidated list Procedures for site visits – – – – – – – Notify site superintendent on arrival Walk the site for general overview Focus on pre-selected part of the work Refer to Checklists Speak to sub-trades for clarification Do not instruct or direct sub-trades Photograph anomalies Report observations to site superintendent – Respond to questions and requests for information Frequency of Site Visits – Factors to consider – Event-based visits – Representative Sampling – Recommendations Factors to consider Frequency of Site Visits – – – – – – – Method of construction delivery Pace of construction Size and complexity of project Renovation or new construction Previous performance of contractor Location of site Materials and systems specified Frequency of Site Visits Event based Representative Sampling Frequency of Site Visits Representative Sampling – Extensive sampling – Frequent Sampling – Less frequent sampling Frequency of Site Visits Recommendations – Professional Judgment – Building Code /Life Safety issues – Example: Vancouver Certified Professional Program Frequency of Site Visits RP STAFF Professional or CP Staff Excavation and shoring Weekly ** monthly Footing/Foundation Each pour Monthly Damp proofing 50% 25% Footing drains Before covered N/A Plumbing site servicing Before covered N/A Electrical site servicing Before covered N/A Daily ** Initially Weekly ** Monthly Weekly Weekly * Backfill from Structural frame Vancouver Certified Professional Program Partition Walls Bi-monthly Monthly * Shaft wall construction Weekly ** Weekly ** Rough in plumbing Once per floor Once per floor * Flushing of plumbing lines Once per floor N/A Rough in sprinklers Once per floor Once per floor Rough in mechanical Once per floor Once per floor Rough in electrical Once per floor Once Exterior cladding Weekly ** N/A Fire-stopping of service penetrations Once per floor Once per floor Insulation and vapor barrier Once per floor Once per floor Windows and closures Once per floor Once per floor Drywall bulkheads Once per floor Once per floor Drywalling Once per floor Once per floor Bi-monthly N/A Finish plumbing Once per floor Once per floor Finish sprinklers Once per floor Once per floor Finish mechanical Once per floor Once per floor Finish electrical Once per floor Once per floor Architectural finishes Once per floor Once per floor Commissioning/functional testing Daily ** Daily ** Occupancy permit field review Daily ** Daily ** Structural fire-stopping Millwork Reporting – Project Information – Progress – Observations – Resolutions – Questions (reference: BC Form B2) What to Look For… – Compliance – Approved Materials and Equipment – Priorities – Checklists Materials and Equipment Approved Samples Fabrication Delivery Handling and Storage Protection Millwork storage Execution – Acceptance of Preceding Trades – Layout and Dimensions – Preparation – Workmanship – Junctions – Thickness and Tolerances – Quantities – Protection Priorities – Fire Separations and Closures – Building Envelope – Foundation Layout – Work to be Covered Up – Previous Projects' Problem Areas – Fire Separations and Closures – Building Envelope – Foundation Layout – Work to be Covered Up – Previous Projects' Problem Areas – Fire Separations and Closures – Building Envelope – Foundation Layout – Work to be Covered Up – Previous Projects' Problem Areas – Fire Separations and Closures – Building Envelope – Foundation Layout – Work to be Covered Up – Previous Projects' Problem Areas – Fire Separations and Closures – Building Envelope – Foundation Layout – Work to be Covered Up – Previous Projects' Problem Areas – Fire Separations and Closures – Building Envelope – Foundation Layout – Work to be Covered Up – Previous Projects' Problem Areas Resolution of Site Issues – – – – – – – Poor workmanship Materials substitution Layout error Design changes Design coordination Building code requirements Building Inspector/Fire Department requirements Poor Workmanship – Identify early !! – Refer to Standards Specifications Mockups Associations Industry – Consider Contractor Explanations – Offer Independent Review – Agree on Achievable Standard Materials Substitution – – – – – Timing of Request Contractor issues Reasons to accept Backup information Answer quickly Resolution of Site Issues Layout Error – Assess extent of work completed – Assess impact on design – Assess impact on schedule – Review alternatives – Respond quickly Design Changes – Source – Owner Changes – Contractor Changes - Respond quickly Design Coordination – Design coordination or construction coordination? – Construction coordination – Design coordination – Respond quickly Building Code Requirements – Fire Protection, Occupant Safety and Accessibility – Design responsibility – architect – Installation responsibility – contractor – Non-conformance – Resolution – Issue change order to correct – Reconstruct or replace Building Inspector and Fire Department Requirements – – – – Timing Communication Coordination Disagreements Creating Time for Field Review / General Review Creating Time for Field Review/ General Review – – – – – – – – – – Fees Design Personnel Resources Contract Administration Attitude Site Meetings Requests for Information Submissions Dispute Resolution Fees – Obligations regardless of fee – Percentage of fee allocated to General Review – Per visit fees – Negotiations – Alternative construction delivery methods Design – – – – – – – – Coordination of construction documentation Enforceable specifications Referenced standards "Intent" Value engineering Field feedback Specialty consultants Code compliance Personnel – – – – Task allocation Continuity Field experience Mentoring Communication !! Resources – – – – Checklists Testing and Inspection companies Sub-trades Associations In-House Specialists Contract Administration – Policies Procedures – – – – – Contractual obligations Consistency Standard forms Instructional standard letters Start-up meeting Attitude – – – – – Teamwork Willingness to find creative solutions Communication Reasonable interpretation of documents Resistance to tactical games Site Meetings – Chair and Attendees – Agenda – Grandstanding and blindsiding Requests for Information – Timely response – Look out for contractor responsibility – AUTOCAD on site Submissions – – – – – Substitutions and alternates Shop drawings Samples Progress applications Quotations Dispute Resolution – Change Directive – Negotiation Mediation Arbitration What to Look for … by trade or stage of construction Major Phases of Construction New Construction Vs Renovation Unforeseen Site Conditions Site & Building Excavation Site & Building Backfill Footings & Foundations Slab on Grade Structural / Architectural Concrete Masonry Structural Steel / Steel Joists / Steel Deck Roofing & Flashing Curtain Wall Glazing Systems Gypsum Wall Board Finishes New Construction versus Renovations or Additions to Existing Buildings Existing Building Systems Existing Building Systems Construction Methodology Special Shoring Conditions Sequenced Demolition Maintaining Building Operations – Access Restrictions – Installation procedures – Effects design & details Special Demolition Techniques – Controlled removal – Equipment weight Temporary Steel Bracing Controlled slab removal Special Conditions Special Conditions Do Your Homework Educate the client Include in your fee calculations for additional, unplanned site visits. Understand how the construction work will be phased. Site and Building Excavation Reviewed & understands the Geotechnical Report Identification of buried utility lines Siltation Control Devices if required by the Authorities Having Jurisdiction: Protection of Existing Vegetation to be retained Bench marks /barge boards established and protected Site Hoarding or Fencing in place Identify and Record Conditions of any Existing Structures on-site or off-site to remain Temporary protection – End of pipes between installation of sections – Unforeseen buried cables Excavation and Site Services Shoring / Underpinning Prior to pouring footings Unexpected Subsurface Conditions: – Items not identified in the geotechnical report such as: Soft spots Springs Buried organic material Buried debris Rock or concrete over specified size – Verification and Quantification – Timing – Review claims and Quantities Site / Building Backfill Confirm that contractor has notified the testing and inspection agency to be present during this stage of work. Check that materials are in conformance with specification. Placement / compaction: Footings / Foundations Prior to concrete delivery : Footings: – Review bottom of footings for: – Protective measures: Formwork / Reinforcing: – Review construction, dimensions and bracing – Placement, support and tying of reinforcement – Ensure that testing and inspection agency or engineer has reviewed Placing / Curing / Testing of Concrete: – Protection from frost and excessive heat – Test samples taken. – Report issued promptly by testing and inspection agency Parging / Damproofing: – Uniform coverage by dampproofing – Continuous over footings – Application thickness as specified. Waterproofing: Perimeter Insulation: Foundation Drainage: Slab on Grade Prior to concrete delivery: Review procedures for Placing, Finishing, Curing, Testing concrete, well in advance of scheduled pours: – Finishing: Vapour barrier / dampproofing: – Protection from perforation: – Continuity of membrane Controversial: – Many contractors do not agree with under slab vapour barriers. – During concrete curing water rises to top of slab causing slab curling – Increase in granular layer depth in lieu of vapour barrier Structural / Architectural Concrete Prior to concrete delivery: – ensure that mix designs have been submitted to engineers for review – Contractor to provide 48 hours notification to consultants and inspection and testing agency Formwork: – – – – Supports / bracing / tying / spacers Cleaning / surface preparation: Location of construction joints Placement / fixing of: Architectural Concrete: – – – – Formwork / form release agent material as specified Layout of joints / ties / chamfers / reglets Joint seals / fillers / gaskets as specified Retardent, as specified Reinforcing / embedded conduits: – – – – Placement /support of reinforcing: Spacing of parallel conduits Coverage at conduits Conduit crossovers Placing concrete: – Method of placement to deposit concrete as close to final position as possible – Vibration of concrete – Location of construction joints in slabs – Use of screeds to maintain specified levels and trueness of slabs – Test samples taken as specified Finishing / curing slabs: – Review specified finishes and their locations to ensure clear understanding of intent of specifications Formwork Removal: – – – – Forms left in place until: Newly exposed surfaces protected Re-shoring installed as required /specified Patching carried out promptly using approved procedures Curing / Finishing Architectural Concrete: – Same length of time for each separate pour: – Sandblasting as specified – No patching unless authorized Masonry Procurement: – Review samples and specification of materials prior to site delivery. – Good risk management practice is to visit the manufacturer yard to view material shipment (if possible) Storage of Materials: – Off ground – Covered – Protected from freezing Sample Panels: – Good practice – Must incorporate all components / materials /conditions specified – Establishes standard of workmanship / appearance: Masonry Mock-up – Establishes standard of workmanship / appearance: – Sample should remain in place until work completed Protection: – Completed masonry work to be protected from other trades – Ensure that work is covered over at the end of each day – Temporary bracing until permanent lateral supports in place – Cold weather precautions: Masonry Workmanship: – Coursing uniformity maintained: – Steel frames filled solid with: – Joint reinforcement / Control joints – Steel Lintels: Masonry Reinforced Concrete block masonry: – Temporary shoring as required – Installation of reinforcing steel / concrete fill – Test samples of concrete as specified Cavity shaft wall construction: – No obstruction of cavity: – Continuity of air barrier Final cleaning: – Review proposed procedures and materials to be used – Test application of approved cleaning product Structural Steel / Steel Joists / Steel Deck Procurement: – Shop drawings stamped by registered engineer – Mill test reports, if specified – Welders qualifications for review by engineer Storage of materials: – – – – Off ground Joist stored upright Material covered if stored for prolong periods Steel deck in stacks, tilted to drain, covered Inspection and testing: – Review by testing and inspection agency: Temporary Protection of Openings -Safety Rails Anchor Bolt Layouts – Coordination with concrete foundation layout – Remedial corrections To be approved by structural engineer Temporary protection of other work – Welding sparks – Steel primer touchup’s – Installation procedure Roofing / Flashing Procurement: – Samples and product specification submitted for approval. Storage of Materials: – Stored in original containers, well labeled – Rolls of membrane stored off ground / covered – Disbursement of materials across roof to avoid excessive loading – Materials such as insulation / flashing secured for storage Protection: – Walls / other finishes from roofing operations – Parapets /roof edges / walls Temporary protection at hoisting area. Temporary walkway over finished areas Workmanship – Roofing: – Roof Deck: – Roof drains / curbs in place / flashed – Positive slope to drains – Continuity of air / vapour barrier: – Watertight application over insulation at the completion of each day. – Uniform spreading of granular material Workmanship – Flashing: – Fabrication: – Joints: – Protection from corrosion / electrolytic action: – Fastenings: Inadequate roof drainage Curtain Wall Glazing Systems Procurement: – – – – Shop drawings stamped by registered engineer Sample product submitted Mock-up(s), as specified Testing and inspection reports: Storage of materials: – Off ground / wrapped / protected from damage Installation: – Anchorage: Fire stopping at floor slab edges: – Impalement clips for insulation support Flashing / air barrier: – Continuity in air barrier seal with other adjacent materials – Ensure weep holes are clean Glazing: – Sealing surfaces cleaned – Setting blocks / gaskets /tapes / sealant installed as specified Gypsum Wallboard Partitions: – Anchors securely to floor / column / walls – Studs doubled up a jambs: – Review finishes layout: – Floor to floor framing: Fire-rated Partition / assemblies: – Partition design complies with ULC assembly specifications – Screw size and spacing as specified – Fire stopping: Sound-attenuating partitions: – Insulation as specified – Acoustic sealant : Wallboard application: – Inspection of all built-in mechanical /electrical work performed by engineers / Authorities Having Jurisdiction – Adequate ventilation during taping application – Joints in boards staggered. – Wall board applied opposite direction to framing – Screw spacing as specified by code Wallboard / Acoustic ceilings: – Review reflected ceiling plan layout with contractor. – existing interferences: TIP - Ask contractor to mark out RCP on floor to identify (saves time and money for both contractor / architect / client) Additional Bracing at joint required as per building inspectors request. Finishes Ceramic, Quarry & Terrazzo Tile Submission of: – Samples (Control samples to remain on site) – Tile setting drawings as specified Mock-up: – Highly recommended – Establishes standard for workmanship / appearance Substrates: – Clean / dry /free from foreign material – Sound Wood Flooring Submission of: – Samples (Control samples to remain on site) Storage of materials: – On site several days before installation – Adjustment to humidity and temperatures Installation-wood strip flooring: – Membrane damp proofing as specified – Sleepers / sheathing: – Review and specify pattern starting point Installation – wood parquet flooring: – Prier applied to concrete subfloors – If sleepers used: Same procedures as for wood strip flooring – Adhesive application: – Units rolled per manufacturer’s recommendations – Review and specify pattern starting point Resilient Flooring Samples of products submitted Substrates: – Clean / dry / free from foreign material /coatings – Ridges and bumps ground smooth Installation – resilient tile flooring : – Leveling compound applied – Substrate vacuumed prior to application of adhesive – Adhesive application limited to area which can be covered before adhesive working time expires – Waterproof adhesive used on slabs on grade – Flooring rolled as installation proceeds – Floor sealer applied immediately after installation to protect material. Installation – resilient sheet flooring: – Substrate preparation: Same procedure as for resilient tile flooring – Sheet flooring allowed to “relax” in area of installation for specified minimum time prior to installation – Ensure that moisture content of slab on grade meets manufactures specification – Joints: – Heat welding, as specified: Check manufacturers product installation – Problem Bubbling / lifting at joints of flooring material – Cause Moisture content of slab Wrong adhesive used Joints not seamed water tight What to Look for … common problems Check underneath This otherwise delightful “planter box” is completely unpainted underneath The design contemplates clay pots sitting atop - how long before they fall through? – Check for sealing of members Check “on centre” The fireplace flue was in place before the mason arrived The mason decide “centred” meant 1” to the right and 1/8” to the left The mason also forgot the head flashing Protect installed elements This is supposed to be an exposed glulam The roofer assumed it wasn’t, possibly because the General Contractor neglected to provide temporary protection – Check for temporary protection Look for afterthoughts The two wall penetrations were added after the sbs roofing was completed Both are reverse lapped The one at right is “finished” with uv sensitive material which will degrade within 6 months – Check for late additions Consider transition details The mason was the only person considering the view from this balcony He detailed the firewall as well as he could using the specified concrete blocks The designer neglected to “finish” – Check extent of detailing re edge/end conditions Check Foundation clearance – At the design stage, confirm that there is sufficient space “in the hole” to accommodate formwork and provide access for damproofing or waterproofing Verify roof drainage Most of this entire roof appears to be drained through 1 rainwater leader It was a simple measure to add additional rwl’s – At the design stage, verify the drainage of each roof Insist on quality The roofer explained this by saying he was under pressure to complete Understand the technology A simple upstand lip on this edge flashing would have contained the bleed from this sbs roof This roof was inspected by the roofing association & deemed technically correct Don’t assume others care about aesthetics – Check roof edge detailing Leave room for drainage These precast exterior stair treads were a clever idea to reduce wear and tear Unfortunately they are so close to the wood stringers that they will trap water atop the galvanized support angles Better to space the off 1/4” or so Seal cladding over joints The cladding carpenter has correctly sealed the ends of the two board on the top row, and placed the joint over solid bearing (The corner joints are blind caulked, then vertical trim is added) See now or forever hold your piece Hard to see, but this gutter (mis-installed) is sitting on bare, unprimed, non pressure treated wood This was contrary to drawings and specs & had been changed without consultation Had we not observed it at this moment, it would have been hidden soon thereafter – Review concealed conditions before concealment Look for well installed deficiencies This neat and tidy, well flashed electrical penetration sits on a split support board which defeats the other strategies against water ingress The project had many of these, clearly this was thought to be acceptable Check after landscaping These post bases looked fine until the landscaping arrived (the paint deficiency on the left column had already been noted) The finished grade is too close to the post base – Review at grade conditions after landscape installation complete Be suspicious of the suspiciously neat This sextet of roof penetrations caused us to inquire as to what was beneath Each of the 6 caps surmounts 3 exhaust ducts from a suite None of the 6 sets of ducts is properly fire separated from the others This entire assembly had to be rebuilt to conform to fire separation Suspiciously neat #2 Another vent from the same roof The fire separation around the ducts consists of drywall nailed to itself We were not called to review before this was enclosed – Verify fire separation continuity before closure Check it thrice! Wall cladding #1 – A strapped exterior wall should be reviewed first when most or all strapping is in place on moisture barrier Wall cladding #2 – Cladding should also be reviewed when partially complete, to ensure interfaces between different claddings are properly handled Wall cladding #3 – The completed cladding area should be reviewed for final detailing and interfaces Where’s the paint ? The ends of these lattice members are unprimed – Review all members for sealing completion Where’s the paint ? Digital camera held at a tough angle to photograph this post with no paint, sitting about 3” off the ground A dentist’s mirror would have provided the same result, but this provided the evidence Check for leaks - Air barrier continuity On the right, a garage, On the left, habitable space It would have been much easier to create air barrier continuity had this been reviewed at the framing stage – Review barrier continuity at design stage – Review barrier continuity before closure Air barrier continuity #2 We tried for awhile to use Tyvek’s air barrier qualities, spec’ing it as the air barrier on townhouses Framing contractors couldn’t understand the issues and kept using it like building paper This attic access space defeats the air barrier Check for code violations The proximity of this cladding to grade was not evident until the concrete pad was poured A generic detail indicating required separations would have helped – Review details for at grade condition inclusion Check the details The Contractor did his best preparing for a duct (size unknown, not on drawings) designed to penetrate a brick wall (no cap design provided) – Review engineering documents to identify penetrations through envelope – Provide penetration details Fill the hole! The mason needed to be directed to fill this crudely cut hole through the rigid insulation Hide reverse laps, quick! Some of the mastic covering the joints is also hiding reverse lapped peel & stick This was pointed out by the next subcontractor whose work scope included covering this - he reworked the deficient areas – Review for reverse lapped construction Identify the location Whether the deficiency is rotten wood, or not, it’s sometime useful to identify the subject matter right in the photograph – Label deficient construction on site and in illustrations Identify the deficiency This piece of flashing was supposed to have a minimum 2” upstand at the top of the flashing. The note makes its true extent fairly clear Identify the location #2 Sometimes very clear identification is needed, especially in situations with multiple similar appearance deficiencies Fungus is an issue Illustrating the relationship between moisture content and likelihood of fungal growth – Check moisture content before allowing wood frame close in Look out for mould Mould infestation can occur during construction – Unless you are qualified & insured for mould remediation, insist on the involvement of an expert where suspect mould is discovered Record what you didn’t do On this remediation project the concrete stair refinishing was excluded from our scope – Important to record conditions you did not include Record what won’t work We were not the prime consultants & advised the window detailing would probably fail We recorded sloppy & deficient workmanship The windows failed to even come close to the spec’d standard – Record deficiencies even when others don’t agree Ready for next step? In sequential review of complex assemblies, record when a step is incomplete or poorly done, as evidence supporting failure to accept work proceeding – Prepare a list of mandatory pre-closure reviews Ready to close in? Review barrier continuity before close in Ready to close in #2 The contractor could not understand architect’s reluctance to accept any floor of this as being ready for drywall Explain pre-closure review requirements at project commencement Builder figure out This floor/wall interface detail was not drawn by the Architect - the site superintendent sketched it (correctly) in the river sand backfill not a preferred practice See before cover Review each building or building elevation with complete moisture barrier & strapping before cladding commences and before moisture content testing Review barriers and continuity before close in Show the problem Photographs will better illustrate problems when fingers or similar point them out. Here, the sill pan is discontinuous The same…but different The vents below are through brick, those above through vinyl siding – Important to identify the same element piercing through different building envelopes - also different details required Thick enough? This fluid applied waterproofing membrane is not thick enough until the continuous reinforcing cannot be read behind the top coat – Identify installation characteristics which are self-assuring Failed the test This was to meet an A440 B5 rating It did not pass a B1 rating (1/5th the pressure) Contractor adivsed of concerns in advance Too complex This existing cascade of windows had failed The original builders were not competent to detail the stepping corner The windows spec’d were not up to the exposure conditions – Spec more robust materials for challenging installations Was a column The outcome of poor design and construction This was one of 4 columns supporting a church porte-cochere Insist on Mockups This window mockup shows: – – – – Head flashing Trim flashing Support/strapping Membrane positioning Mockups This window sill detail shows: – Sill pan detailing – Membrane cover & extent Key Details for Review at Design and Construction stages 35 Key Details ECO-design.ca has identified 35 key details which describe most conditions on most buildings These are reviewed to identify associated field review checklist items Damproofing – Bugholes filled – Material fully applied – No bubbling Waterproofing (elevator pit) – Submittal for membrane – Full coverage including tops of footings At Grade conditions – – – – – – Separation between grade & cladding/framing Moisture barrier between construction & grade Moisture barrier between wood & non-wood elements Barrier continuity- moisture/air/vapour Drainage away from construction Thermal barriers & cold joint treatments At-Grade conditions #2 – All as previous slide + – More robust construction where landscape conditions create a dead air space, which will have damper conditions than normal – Detailing at dead air conditions to prevent splash onto walls Wall & Soffit penetrations – Barrier continuity at penetrations – Flashings/deflection if no cover above – Robust materials or blockage at soffit penetrations (to prevent damage through moist air upwelling) Why care about soffit venting? There was no leak in the balcony above The corner was well protected from the elements Note the pair of vents above the slider Balcony face penetration – Interface with flashing and deck membranes above – Barrier continuity at penetration – Interference from railing posts Intermediate floor detailing – Barrier continuity through floor construction – Protection of wall construction from water on floor Intermediate floor detailing The Tyvek drape protects the concentration of lumber below the floor line from moisture during construction & provides air barrier continuity for this Airtight Drywall Approach (ADA) building Railing details – Structural adequacy – Penetrations water protected – Long term performance with stress of human use Walkway details – – – – – Acoustics Walkway as roof Barrier continuity Redundancy Protection of wear surface Reinforced connections This deck beam to wall connection has a peel & stick membrane under the hanger to self-seal nail penetrations Moisture barrier applied before beam Framing above held back to allow lapping of materials Head/Jamb/Sill of Door – Requirements for disabled – Barrier continuity – A/B/C performance – Glazing performance – Hardware integrity – Door structural support – Consider interior drainage detailing Window Head/Jamb/Sill – As for door generally Window Head/Jamb/Sill The nailing at the sill is incorrect, with nails between rather than through shims Also, vertical shims are needed to the u/s of the window, for structural support (new requirement for vinyl windows) Window testing This gentleman is on a spray rack manoeuvering to the face of a window to be tested He has a spray rack which puts an exact water flow against the window Cantilevered floor – Barrier continuity, especially thermal Flat/Shed roof overhang – – – – – – Venting Barrier continuity Drainage/slope to drain Flashing detailing Flashing seams Membrane continuity under flashing – Gutter slope – Fascia detailing/ finishing Flush parapet detailing – Generally as for flat/ shed roof overhangs – Membrane continuity over parapet head – Venting – Robust construction of parapets pressure treated material Intermediate Eave (Eyebrow) – Generally as for other roof overhangs – Slope to eyebrow – Robust finish - this is a roof! – Connection at wall Soffit vents These will be extended to the outside edge of the soffit The soffit finish will be solid (not vented) for 1 joist space each side of the vents The trim joist near where they exhaust will be vented and pressure treated Roof penetrations (various) – – – – – Barrier continuity Deflection Drainage Durability Samples/ specs Roof penetration detailing The site superintendant took it upon himself to ensure a neat arrangement of these multiple penetrations. His rationale - “You can see the roofs from all around.” Plan details - corners – barrier continuity, esp. air barrier – ensure reinforcement of moisture barrier at intersections – provide reinforcement of moisture barrier at cladding Four Key Concepts 1. Deflection Each higher row is cantilevered over the floor below, offering excellent deflection of rain through the open roof – (Globe theatre, London) Deflection modern style This Frank Lloyd Wright inspired condominium’s large overhangs deflect much rain water from walls below Modern methods may be no more effective 2. Drainage Even a thatch hut has significant overhangs all around Drainage - “flat” surfaces By the time the frame shrinks this balcony will have 2-3% slope The columns are concrete filled and connected to the decks with slip connections 3. Drying These vapour diffusion ports improve frame drying during and after construction Drying The hole through the sheathing below the sill studs is a vapour diffusion port, which allows improved frame drying 4. Durability Using durable materials is a good start CSA S478-95 (reaffirmed 2001) Guidelines on Durability in Buildings New Technologies Webcams Digital Cameras and Recorders Construction Management Software Webcams Purpose & Limitations: Mostly used by large corporations or government agencies Also provides construction site security Provides archival and searchable database of images Provides real time picture of construction site progress to all those who access the internet View point is limited by position of webcam unless multiple cameras are used. http://131.104.176.9/ Digital Cameras and Recorders Offers flexibility and mobility over webcams Allows consultants to provide clients progress photographs Quicker communication Wider communication spectrum More Economical than webcams Allows communication with other consultants to discuss field conditions Not a substitution for a real site visit Camera should have zoom capabilities and preferable a wide angle lens. Construction Management Software Prolog EdgeBuilder Prolog Prolog – Why? Standardized Business Process Reduce Risks by tracking more effectively and consistently “Real-time” Data Information Exchange On the Project Within the Organization With Other Project Team Members A common Project “Portal” Prolog – How? Project Data in a common location Accessed through: • Local Network • Remote Access (Citrix) • Internet (Web) Interface Prolog – How? Remote Office Main Office Citrix Connection Prolog Projects Trades LAN Connection Consultants Owners Website Connection Prolog – What? Project Control: • • • • • • Purchasing/Tendering Document Control Cost Control : Budget & Cost Field Administration Administration Reporting • Prolog Project Websites Prolog – What? …Purchasing/Tendering Bid Packages: General Bid Packages: Bidders List 2 Bid Packages: Drawing List Prolog – What?..Document Control Drawings, Drawing Packages – Detail Meeting Minutes Prolog – What?..Document Control Request for Information Prolog – What ..Cost Control Prolog – What ..Cost Control Proposed Change Order Prolog – Rewards/Benefits Accessible, secure, up-to-date Project information Informed Project Team and Management Informed Client Systemized approach to Project Control Envelopes the entire project process - Single Source Project Management System Edgebuilder Supports project communication & collaboration On-line / Real-time information Create & archive project documentation Consistent document Management Expedite the resolution of issues Use webcams to monitor construction sites www.edgebuilder.com Hot Topics LEED Canada and Contruction Sites (Sustainable Sites) Prerequisite: Erosion and Sedimentation Control Credit: Reduced Site Disturbance LEED Canada and Contruction Sites (Materials and Resources) Prerequisite: Storage and Collection of Recyclables Credit: Construction Waste Management (divert 50%) Construction Waste Management (divert 75%) Environmental Issues Environmental Report Review Phase I, Phase II, Phase III Environmental Site Assessments Designated Substances Asbestos Mould Environmental Report Review Environmental Reports : Phase I, Phase II, Phase III Environmental Site Assessments Designated Substances Surveys/Remediations Asbestos Surveys/Remediations Mould Surveys/Remediations Lead Surveys/Remediations Environmental Site Assessment (ESA) What is the purpose of an ESA? To determine actual and potential site contamination What is it used for? Financial transactions (e.g. purchase, sale, refinancing) Site decommissioning Regulatory compliance Pro-active Corporate Environmental Management Practice Steps For Site Assessment Phase I – Site information assessment Phase II – Detailed Testing Program, Delineation and Budget Cost Phase III – Site Remediation - Preparation, Implementation and Verification What does a Phase I ESA involve? Is the site in compliance with all applicable regulations and permits Site inspection and review Does not include sampling and chemical analytical testing In many cases, only a Phase 1 is required Phase I ESA? Selected Environmental Issues: Hazardous Materials • Mould • Lead • PCBs • Asbestos • Urea formaldehyde Foam Insulation (UFFI) Underground Storage Tanks (USTs) Above Ground Storage Tanks (ASTs) Soil Contamination, Foreign Fill Historical and Existing Land Uses Hazardous Waste and Sewage Disposal Phase II - Site Investigation Scope of work is based on Phase I findings Contamination is know or suspected? – What is it? – What is the nature of the liability? – How extensive is the contamination? Involves intrusive sampling of soil and groundwater Phase III- Site Remediation Develop and implement a site remediation plan based on Phase I and Phase II findings. Designated Substances • Asbestos • Isocyanate • Acrylonitrile • Lead • Arsenic • Mercury • Benzene • Silica • Coke Oven Emissions • Vinyl Chloride • Ethylene Oxide Asbestos is a generic term used to describe a family minerals. of naturally-occurring fibrous The word is derived from the a Greek word meaning “inextinguishable”. Definition of Friable Material “Friable material” is defined as, “a material that when dry can be crumbled, pulverized or powdered by hand pressure” (Is it easy to release fibre from the product) Check Provincial Regualtions For Example: Health & Safety Regulations Governing Asbestos in the Work Place – Ontario : “Ontario Regulation 838, The Regulation Respecting Asbestos on Construction Projects and in Buildings and Repair Operations” Major Responsibilities • Preparation and maintenance of a record of the location of asbestos-containing friable material, • Provision of a report to all prospective contractors who are likely to handle or disturb friable material stating: - Whether or not the friable material contains asbestos, - The type and location of asbestos containing material present, Continued... Major Responsibilities : • Notification of any workers in the building who may disturb or handle the material containing asbestos or who may work in proximity to such work, • Establishment of a training program for employees of the owner who are likely to handle the material • Periodic inspection of the material to determine its condition • Implementation of appropriate control measures where required, following the precautions and procedures prescribed by the regulations, Continued... Major responsibilities : • Work procedures to follow minimal requirements designated Type 1, Type 2 and Type 3 Operations • Annual submission of an asbestos work report form for each employee working in a Type 2 or Type 3 operation, • Notification of the Ministry of Labour before commencing a Type 3 operation, • Application to the Ministry of Labour for variance approvals. Type 1 Operations ( Ontario ) • Installation or removal of manufactured products • Cutting and shaping manufactured products using hand tools •Use of power tools (equipped with HEPA filter) to cut or grind manufactured products •Drilling manufactured products •Drywall removal Type 2 Operations Ontario • Removal of a false ceiling where a significant quantity of friable material containing asbestos is likely to be lying on the surface • Minor removal - -the removal of 20 lineal feet of pipe insulation -the removal of 9 ft² of surface material - Enclosure • Application of tape or sealant to pipe or boiler insulation • Other operations not classified Type 3 Operations (Ontario) • Major removal; major renovation projects • Sprayed on encapsulation (e.g., paint) • Cleaning or removal of air handling equipment (including ducting) in a building that has sprayed asbestos-containing fireproofing • Use of power tools not equipped with a HEPA filter The Growing Concerns of Mould Why is Mould a Problem? Increased awareness of health issues. People are really getting sick. People cannot remain in their homes. People can’t work in their offices and must change jobs. Schools are closed. Why is Mould a Problem? Office buildings are closed. Buildings are being demolished because of mould. Buyers and sellers are concerned. Financiers, lessors, insurers, tenants & restorers are concerned. Tuesday 9 May 2000 Mould sickens six Rockyview staff; Cleanup will cost $70,000 Robert Walker, Calgary Herald A toxic mould that can cause bleeding in the lungs if breathed in high doses was discovered at a Calgary hospital after six staff fell sick with coughs and other complaints, a news conference was told Monday. Now Calgary Regional Health Authority is spending $70,000 to fix the roof of Rockyview Hospital and other parts of the facility damaged when water leaked in earlier this year. None of the staff was severely affected by the mould, which grew in damp areas inside the walls surrounding a psychiatric unit's interview rooms. But they did have upper respiratory problems, said Dr. Cam Waddell, medical director of occupational health and safety for the CRHA. The authority is not taking the problem lightly, he said. "We take any issue to do with the health and safety of our employees very seriously," Waddell said, adding the area has been cordoned off. No patients were affected and the 30-bed patient care area of unit 49 remains open, Waddell said. Dr. Tom Louie, medical director of infection prevention and control, said the offending organism is called Stachybotrys chartarum, which has been known to produce toxins. "If you inhale too many of them they can produce lung damage, involving either pneumonia, which can cause lung fibrosis, and even . . . lung bleeding," Louie explained The problem was caused partly by aging of the building and also because, in recent renovations, the roof was finished with silicone caulking rather than flashing, said Pat McInenly, site manager of facility services. Staff first complained in November last year, but tests came back showing the air quality was within normal limits, Waddell said. A warming trend in January and February caused melted snow to pour through holes in the roof Why is Mould a Problem? Why is Mould a Problem? Why is Mould a Problem? Not Just a Health Issue but a liability issue !!! Architects Become informed about mould Follow good practice to avoid mould (proper enclosure design) Obtain OAA Mould Control Practice Guide Consult experts and specialists Who Should be Concerned? Building owners/managers Builders/Developers/Architects Employers Insurance Companies Restoration Contractors Carpet Cleaners Chemical Suppliers Mould Litigation And Due Diligence Previous issues of the Environmental News have highlighted the hazards of mould in buildings and described the measures needed to assess and remediate mould. Mould contamination is not only a disruptive and costly problem to remedy, it can also be the subject of litigation, with settlement costs in some cases reaching eight figures! Mould Litigation and Due Diligence Mould Growth after Flooding Means of Water Entry into a Building Wind-driven rain and snow Humidification Vapour diffusion Cooling-coil bypass Condensation Flooding Air Movement Water spills, leaks and other internal sources Crawlspace/Basement Capillary Action Ground Water 3 Effects on Property Property damage, devaluation – material damage – repair costs – loss of rents Health effects on occupants – loss of productivity – liability, lawsuits Regulations Federal Health and Safety Legislation – Canada Labour Code – WHMIS – OSHA Legislation Guidelines Health Canada Fungal Contamination in Public Buildings: A Guide to Recognition and Management www.ci.nyc.ny.us www.hc-sc.gc.ca Guidelines Steps for Assessment Building History Visual Inspection Bulk/Surface Sampling Air Monitoring Analysis of Samples Building History Past episodes of water damage and how they were handled. Occupant health and indoor air quality complaints. Remodeling and other modifications. Visual Inspection Most important initial step. – ventilation systems – ceiling tiles – gypsum wallboard – cardboard – paper – other cellulose-based materials Visual Inspection Construction Checklist to reduce moisture Measure moisture content of substrates before allowing finishing Control relative humidity by ventilation or mechanical dehumidification Do not use construction heaters that create moisture Appropriate construction sequencing Do not trap moisture in assemblies Checklists CD-ROM contains over 35 checklists Choose appropriate ones print out review take to construction site to help with reports READ the Manual (CD-ROM) Thank You ! Evaluation Forms Future RAIC courses – SDCB 301 Advanced Building Envelopes – High Performance Curtain Walls – Redesigning Practice
