- TYPE: Triple Glazing
Triple Glazed Conservation Unit
- BS EN 1279
- FENSA registered
- 10-year warranty
- Made in Bristol, UK
Enter your exact dimensions, glass type, gas fill, and accessories in our configurator for instant trade pricing.
Description
Triple-glazed thermal performance in a conservation-friendly slim envelope. A 26mm triple-glazed sealed unit (4mm clear / 8mm krypton / 4mm clear with soft-coat low-E / 8mm krypton / 4mm clear with soft-coat low-E) delivers a centre-pane U-value of 0.9 W/m²K in an overall depth that fits many heritage timber sash rebates where the standard 36mm triple cannot.
This is a niche product engineered for a specific intersection: heritage and conservation apertures where the conservation officer accepts slim double-glazing in principle, but the building physics ask for triple-pane performance — typically Passivhaus-EnerPHit retrofits in Grade II listed Victorian and Edwardian properties, or deep-retrofit projects in conservation-area townhouses where heritage joinery is being conserved alongside fabric-first energy upgrades.
Why krypton, and why 8mm cavities
Cavity gas performance is a function of cavity depth. In a 16mm cavity (standard 24mm DG), argon is optimal — krypton offers no further U-value benefit and costs five times more. Below 10mm, argon's convective performance degrades and krypton becomes the better insulator. At 8mm cavities (this unit), krypton is the only fill that delivers meaningful insulation: argon at 8mm gives ~1.4 W/m²K centre-pane in a triple stack; krypton drops that to ~0.9.
Two 8mm krypton cavities at 26mm total overall is a precise engineering trade. Smaller cavities sacrifice convective insulation; larger cavities push the overall thickness beyond the conservation-aperture limit. 8mm is the cavity depth that the krypton-vs-argon curve crosses over and where slim-cavity edge-seal manufacturing yield is still acceptable.
Technical specification
| Overall thickness | 26mm (nominal — tolerance ±0.5mm) |
|---|---|
| Build-up | 4mm clear / 8mm krypton / 4mm clear (Planitherm face 3) / 8mm krypton / 4mm clear (Planitherm face 5) |
| Cavities | 2 × 8mm krypton-filled (BS EN 1279-3 verified ≥90%) |
| Spacer bars | 2 × warm-edge slim composite (typ. 6mm) |
| U-value (centre-pane) | 0.9 W/m²K |
| U-value (whole window, heritage timber sash) | 1.4-1.6 W/m²K depending on frame condition |
| g-value | 0.52 |
| Light transmittance | ~71% |
| Sightline / cavity-edge appearance | ~22-24mm visible — wider than slim DG, narrower than standard triple |
| Weight | ~30 kg/m² — confirm sash-cord / pulley load before specifying for original sashes |
| Standards | BS EN 1279 (parts 1-6), BS EN 673, Historic England slim-DG guidance compatible (case-by-case) |
Where this unit is the right call
- Listed-building EnerPHit retrofits — Passivhaus-Institut retrofit standard wants whole-window U ≤ 1.05 W/m²K. This unit gets close in a heritage sash; the alternative (full sash replacement to modern frame) is rarely consented.
- Conservation-area deep retrofit — particularly Article 4 direction areas in inner London, Bath, Edinburgh, Brighton, where sightlines are protected but EPC targets force fabric upgrade.
- Edwardian and late-Victorian timber sashes with original glazing rebates 24-28mm deep — too shallow for standard triple, too valuable thermally for slim DG to suffice.
- Listed-building heat-pump retrofits — ASHPs work best at low flow temperatures (35-45°C), which requires lower fabric heat loss than slim DG alone provides.
- Property-specific officer-approved alternatives to secondary glazing — where the conservation officer has rejected secondary glazing on sightline or maintenance-access grounds.
For shallower 14mm conservation apertures, the 14mm Slim Krypton Double Glazed Unit (Conservation) flagship is the appropriate spec. For modern apertures where 36mm triple fits without conservation constraints, the 36mm Standard Triple Glazed Unit is dramatically cheaper. This 26mm slim-triple is specifically for the heritage-aperture-plus-deep-retrofit intersection.
Stock sizes and pricing
Five UK-standard stock sizes below — all sized to fit common heritage sash apertures. Dispatch 21-28 working days (slim-cavity krypton-filled triple is the most specialist build in the range — manufacturing yield is lower, lead time longer). Custom sizes — including narrow-tall sash proportions (3:1 height-to-width), arched-top apertures, and bespoke sightline matching for officer approvals — are priced via the online glass configurator.
Note on listed-building consent: conservation officer acceptance of slim triple is more property-specific than acceptance of slim double. The case is strongest when (a) the existing glazing has failed beyond viable repair, (b) the slim-triple sightline can be matched within 3-4mm of the original, and (c) the property's energy performance is a stated planning consideration (e.g., MEES enforcement risk for a listed-building landlord). Pre-submission consultation with the conservation officer is essential. We supply a technical evidence pack on request.
Certification and standards
UKCA-marked, BS EN 1279 compliant across all six parts. Krypton gas fills (both cavities) verified per BS EN 1279-3 at initial fill ≥90% with annual loss <1% under EN-1279-2 accelerated weathering. Slim-cavity construction adds an additional hydrostatic-pressure-cycle stamp per batch. PHI-component certification is available for EnerPHit projects — request at order.
Frequently asked questions
How is this different from the 14mm slim-DG conservation unit?
Different aperture, different physics. The 14mm slim DG fits original Georgian / early-Victorian sashes (8-14mm rebates); the 26mm slim triple needs at least a 28mm rebate, which is typical of Edwardian and very-late-Victorian timber sashes, or sashes that have been previously rebated-out. The slim triple is a deeper thermal upgrade — U=0.9 vs U=1.6 — but at significantly higher cost and longer lead time.
Will my sash take a 30 kg/m² unit?
Sash-cord and balance-pulley systems are the limiting factor on original timber sashes. A 600 × 1200 mm unit at this weight is ~22 kg per pane — within most original sash balance-weight specifications. A 1500 × 1200 mm unit at 54 kg often exceeds original counterweight capacity and may need a sash-spring conversion or steel-balance retrofit. Confirm with your joiner before ordering.
Conservation officer evidence — what do I need?
Typically: (1) photographs of the existing glazing showing failure mode, (2) elevations showing the slim-triple sightline overlaid on the original, (3) BS EN 1279 Declaration of Performance, (4) krypton fill certificate, (5) a SAP / RdSAP report showing the projected EPC improvement. We supply items 3-4 directly; items 1-2-5 are the homeowner / architect's responsibility. Pre-submission consultation is recommended.
What's the cost premium vs slim DG?
Approximately 60-80% more, depending on size. Triple-pane krypton-filled construction at slim cavities is the most specialist build in mainstream IGU manufacturing — yields are lower, edge-seal tolerances tighter, and only a handful of UK manufacturers can produce this spec at scale. For most heritage applications, slim DG remains the cost-optimal choice; this unit is for projects where deep-retrofit thermals are the explicit goal.
Krypton retention — 25-year outlook?
Industry standard is <1% per year under EN-1279-2 accelerated weathering, in both cavities independently. Over 25 years that's ~22% loss per cavity — at 78% krypton + 22% air, centre-pane U-value rises from 0.9 to ~1.05 W/m²K. Edge-seal failure typically arrives first (15-25 years) and is the dominant failure mode rather than gas diffusion.
Can it be heat-soaked / toughened?
Outer faces can be toughened on order — adds Class 1(C)1 impact rating if needed for critical-location heritage glazing (e.g., low-level sashes within 800mm of floor). The inner laminated pane option (for overhead heritage glazing, rare but specified for some chapel/ecclesiastical work) is also configurable.
Warranty?
10 years on edge-seal integrity (BS EN 1279-2). 10 years on krypton retention to ≥80% of initial fill, per cavity. 5 years on each Planitherm coating. Heritage installations are warranted on the same terms — installation must be by a competent joiner familiar with sash counterbalance systems and conservation-grade glazing methods.
Material
Glass Composition
Each sealed unit is constructed from float glass manufactured to BS EN 572 standards. Available in clear, low-iron, or tinted variants depending on your specification requirements.
Spacer Bars
We use warm-edge spacer bars as standard, which significantly reduce thermal bridging at the glass edge. Options include stainless steel, aluminium, or composite spacers in black, grey, or silver finishes.
Gas Fill
Standard units come with dry air fill. Argon gas fill is available as an upgrade, improving thermal performance by approximately 0.3 W/m²K. Krypton gas is available for maximum performance in slim-profile units.
Sealants
All units feature a dual-seal system: primary seal of polyisobutylene (PIB) for gas retention, and secondary seal of polysulphide or silicone for structural integrity. This dual-seal construction provides a minimum 20-year service life under normal conditions.
Care
First Six Months: Monthly Checks
Watching for Condensation
Condensation between panes indicates seal failure requiring complete unit replacement. Temporary external condensation is normal when outdoor temperature drops below dew point (typically below 5°C).
External condensation evaporates within 2-3 hours after sunrise. This is actually a good sign showing your glazing insulates effectively.
Testing Hardware Function
Window hardware should operate through 30 complete open/close cycles without resistance. Friction hinges maintain 90° opening position without sagging.
Increased resistance indicates debris accumulation in track channels. This requires cleaning to prevent hardware damage.
Every Three Months
Inspecting Seals
Perimeter seals should show no gaps, tears, or separation from the frame. Seal degradation appears as grey discolouration or hardening texture.
Replace seals at the first sign of deterioration. This prevents water ingress and maintains thermal performance.
Verifying Drainage
Weep hole covers should lift easily. Channels should drain within 30 seconds when you pour 50ml water into the frame cavity.
Blocked drainage requires clearing with a 5mm diameter nylon brush or compressed air at 30-40 PSI. Never use sharp metal objects that might damage drainage channels.
Lubricating Hardware
Friction stays, hinges, and locking mechanisms need lubrication. Apply 3-4 drops of 3-in-One oil per hinge point, or use PTFE-based dry lubricant.
Avoid WD-40 and petroleum-based lubricants. These attract dust and create gummy residue that degrades hardware function over time.
Twice a Year: Deep Clean
Cleaning Frames Properly
Wash frames with pH-neutral detergent (pH 6-8) diluted at 1:20 ratio with warm water (15-25°C). Use a soft cloth or sponge.
Never use abrasive cleaners containing pumice, silica, or alkaline compounds above pH 10. These etch uPVC surfaces and remove protective UV stabilisers that prevent yellowing.
Cleaning Glass Surfaces
Use microfibre cloths (300-400 GSM density) with 1:10 white vinegar solution. This removes mineral deposits without scratching Low-E coatings.
Overlap squeegee strokes by 20mm to prevent streaking. Avoid paper towels - their wood fibre content scratches soft Low-E coatings.
Conditioning Gaskets
EPDM and neoprene gaskets need silicone spray lubricant (silicone concentration 30-40%) to maintain flexibility. This simple step extends gasket life significantly.
Untreated gaskets harden within 5-7 years. Hardened gaskets lose compression properties and allow air infiltration that increases heating costs.
Annual Professional Check
Testing Thermal Performance
Thermal imaging identifies areas exceeding target U-value by more than 0.2 W/m²K. Double glazing should maintain 1.2-1.4 W/m²K. Triple glazing should maintain 0.8-1.0 W/m²K.
These values apply when glazing is properly installed and maintained according to manufacturer specifications.
Checking Seal Integrity
Inert gas concentration testing measures argon retention in sealed units. Argon concentration below 85% of original fill (starting at 90-95% fill) indicates seal breach.
This requires unit replacement within 12 months to prevent complete seal failure and internal condensation.
Adjusting Hardware
Euro-cylinder locks adjust at three points: height, width, and compression. Use a 4mm Allen key for adjustments.
Properly adjusted locks engage at 5-8mm penetration depth without forcing. Misadjustment causes lock mechanism failure within 3-4 years of installation.
Installation
Preparing for Installation
Understanding Frame Capacity
Your existing frames need proper assessment before new glazing installation. Triple glazing units weigh 28-32 kg/m², whilst double glazing weighs 18-20 kg/m². This weight difference matters significantly.
Timber frames older than 25 years require reinforcement. Steel or aluminium angle brackets install at 300mm intervals to support the additional weight. uPVC frames manufactured before 2002 lack internal reinforcement chambers and need complete replacement rather than retrofit.
Getting the Frame Square
Frame squareness directly affects glazing performance. Diagonal measurements must match within ±2mm for openings under 1200mm width. Larger openings allow ±3mm tolerance.
Out-of-square frames cause uneven seal compression. This irregularity reduces the expected 20-year lifespan down to just 8-12 years.
Setting Up Drainage
Proper drainage prevents water damage. Weep holes position at 600mm intervals along the bottom frame rail. Each hole measures 8mm diameter and angles 15° outward.
Blocked drainage allows water accumulation exceeding 200ml capacity. This leads to seal degradation within 18 months of installation.
Installation Process
Installing Glazing Beads Correctly
External glazing beads follow a specific sequence: bottom first, then sides, finally top. Internal beads reverse this order: top first, then sides, then bottom.
This sequence prevents glass unit sagging during installation. It maintains the critical 3mm minimum edge clearance around the entire perimeter.
Positioning Setting Blocks
Distance pieces position at quarter points along the bottom edge. Units under 1200mm width need two blocks. Units between 1200-2400mm require three blocks.
Setting blocks measure 25mm wide × 5mm thick. They use neoprene or EPDM rubber with Shore A hardness between 60-70.
Applying Sealants Properly
Low-modulus neutral-cure silicone applies at 6-8mm bead width with continuous coverage. Two-part polysulphide sealants cure at 3mm depth per 24 hours at 20°C ambient temperature.
Full cure takes 7-10 days. Avoid exposure to cleaning agents during this period.
Maintaining Edge Clearances
Glass edges maintain 3mm minimum clearance from frame on all sides. Inadequate clearance causes thermal stress cracking.
This cracking occurs when temperature differentials exceed 30°C between glass edges and centre pane.
Preventing Heat Loss
Insulating Frame Cavities
Frame cavities fill with polyurethane foam (0.024-0.028 W/mK thermal conductivity) or PIR board cut to exact dimensions. Gaps exceeding 2mm reduce frame U-value performance by 0.15-0.22 W/m²K.
Creating Expansion Gaps
Perimeter expansion gaps maintain 10-12mm width around the frame exterior. These fill with closed-cell polyethylene foam backer rod before external sealant application.
Temperature fluctuations cause uPVC frame expansion and contraction. Frames move 0.6mm per metre for every 10°C temperature change.
Warranty
Required Documentation
Maintain installation certificates, warranty documents, and maintenance logs in a safe place. Warranty claims require evidence of annual maintenance.
This maintenance must be performed by qualified installers or documented DIY maintenance following manufacturer specifications exactly.
Actions That Void Warranties
Warranty exclusions include several specific actions. Never drill frame members or apply paint and coatings to uPVC surfaces.
Don't install aftermarket restrictors without manufacturer approval. Avoid abrasive cleaners and never attempt to modify sealed units yourself.
Inspection Requirements
Manufacturers require access for inspection within 10 working days of warranty claim submission. Failed units must remain in place until inspection occurs.
Retain failed units until replacement authorisation is provided. This typically takes 14-21 days from the inspection date.
Shipping & Returns
- Free UK mainland shipping on orders over £300
- Made to order — lead time confirmed at order confirmation
- Non-mainland UK (Northern Ireland, Channel Islands, Isle of Man, Highlands & Islands): email orders@panerelief.co.uk for a delivery quote
- Returns: made-to-measure glass is manufactured to your exact specification and cannot be returned for change of mind (UK Consumer Contracts Regulations 2013 exemption for personalised goods). Units faulty on arrival are replaced free of charge — report within 48 hours of delivery.
Need a Custom Size?
Use our glass configurator to specify exact dimensions, gas fills, coatings, and more — with instant trade pricing.
Frequently Asked Questions
Everything you need to know about this product before ordering.
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Our insulated glass units achieve U-values as low as 1.0 W/m²K with argon gas fill and low-emissivity coatings. The exact U-value depends on your chosen glass specification, spacer bar type, and gas fill. We can provide a detailed thermal calculation for your specific configuration on request.
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Yes, we manufacture bespoke units to your exact specifications. Simply provide the width, height, and glass configuration you need. There is no minimum order quantity for custom sizes, and we can accommodate most non-standard shapes including arched, circular, and raked units.
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Standard units ship within 2–3 weeks from order confirmation. Custom specifications such as toughened, laminated, or triple-glazed units may take 3–4 weeks depending on glass availability. We will confirm the exact lead time when we process your order.
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We supply direct to trade — our units are designed for professional installation by qualified glaziers and window fitters. Each unit ships with fitting instructions and gasket recommendations. If you need installation support, we can recommend approved installers in your area.
How to Replace a Sealed Unit
Follow these steps for a professional sealed unit replacement. Always wear protective gloves and eyewear when handling glass.
Measure the Opening
Measure the width and height of the glass (not the frame) in at least three places. Take the smallest measurement and deduct 2mm for clearance. This gives you your order size.
Remove the Beading
Starting with the longest bead, insert a stiff putty knife or glazing chisel into the gap between bead and frame. Gently lever outward. For uPVC, the bead will unclip. For timber, carefully prise the pinned bead away.
Remove the Old Unit
Using suction cups, carefully lift the failed sealed unit out of the frame. Tilt the top edge toward you first, then lift clear. Have a second person assist with larger units.
Clean the Frame Rebate
Remove any old sealant, dirt, or glazing tape from the rebate using a scraper and white spirit. The rebate must be clean and dry for the new unit to sit properly and for sealant to adhere.
Position the Packers
Place setting blocks at the quarter and three-quarter points along the bottom of the frame. These support the weight of the glass and ensure even distribution. Use 5mm packers for standard units.
Insert the New Sealed Unit
Lower the new unit into the frame, resting it on the packers. Push the unit back into the rebate until it sits square. Check that the gap is even all around — adjust packers if needed.
Refit the Beading
Starting with the shortest bead, press each one firmly back into position. For uPVC, tap with a rubber mallet until it clicks home. For timber, pin back in place. Ensure all beads are flush with the frame.
Check & Finish
Use a spirit level to confirm the unit is sitting level. Check all four edges for even gaps. Clean the glass with a soft cloth. The new unit should operate smoothly within the window.
Not confident doing this yourself? We offer professional installation across Bristol and the South West.
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