radiant heat barriers for roof insulation. · at interior building surfaces intended to reduce...
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RADIANT HEAT BARRIERS FOR ROOF INSULATION.
- An Energy Efficient & Cost Effective Solution to Sun’s Heat.
Imported & Distributed In India by:
UNITED ENGG CORPNAPAP
RADIANT HEAT BARRIER?RADIANT HEAT BARRIER?EXAMPLESEXAMPLES IN EVERYDAY LIVINGIN EVERYDAY LIVING
CHOCOLATE MELTS IN THE MOUTH, NOT ON THE HAND.
Aluminium Foil
MEN WORKING IN FRONT OF FURNACE
INJURED PERSON IS WRAPPED WITH ALUMINIUM THERMAL BLANKET TOPREVENT LOSS OF BODY HEAT
FIREMEN FIGHTING A FIRE
HEAT SHIELD
RADIANT HEAT BARRIERSRADIANT HEAT BARRIERSFOR UNDERDECK ROOF INSULATIONFOR UNDERDECK ROOF INSULATION
THE TEAR RESISTANT & FIRE RETARDANT RANGE OF
RADIANT HEAT BARRIERS
HOW DOES RADIANT BARREIR WORK UNDER THE ROOF?
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
RADIACION CONDUCCION CONVECCION
13% CONDUCTION & CONVECTION
RADIATION, CONDUCTION & CONVECTION
87% RADIATION
UNDERSTAND SUN’S HEAT FLOW
97%REFLECTIVITY & 3% EMISSIVITY
HOW DOES RADIANT BARREIR WORK UNDER THE ROOF?
AIR GAPAir gap will increase thermal effectiveness.
Heat flow 100%
Reflectivity 97%
HEAT SHIELD®
97% REFLECTIVITY
REFLECTIVITY & EMISSIVITY
3% Emissivity3% 3% EmissivityEmissivity
3% Emissivity
AIR GAP
Air gap for convection
AIR GAP
HEAT SHIELD
AIR GAP
89% HEAT REDUCTION FOR INDUSTRIAL METAL ROOF.
Metal Roof
HEAT SHIELD
AL-Foil
Uninsulated Insulated
Air Gap,100mm
Surface Air Film, Outside 0.04 m2 K/W 0.04 m2 K/WAir Gap Nil 1.08 m2 K/W
Foil Insulation Nil Nil- Not significantSurface Air Film, Inside 0.15 m2 K/W- Hi-E 0.60 m2 K/W– Low-E
Total R-Value 0.19 m2 K/W 1.72 m2 K/WHeat Reduction -- 89%
Data are obtained from ASHRAE Handbook
71% HEAT REDUCTION FOR TILED ROOF.
Uninsulated Insulated
100mm Air Gap
Cement Tile
Ceiling Bd
Heat Shield Al -Foil
Surface Air Film, Outside 0.04 m2 K/W 0.04 m2 K/W
Surface Air Film, Inside 0.16 m2 K/W 0.16 m2 K/W
Cement TileCement Tile 0.01 0.01 m2 K/W 0.01 0.01 m2 K/W
Attic SpaceAttic Space 0.46 m2K/W Hi 0.46 m2K/W Hi --EE 1.09 m2 K/W Low1.09 m2 K/W Low--EE
Ceiling Ceiling BdBd 0.03 m2 K/W0.03 m2 K/W 0.03 m2 K/W0.03 m2 K/W
Foil Insulation Foil Insulation NilNil Nil- Not significant
Air GapAir Gap NilNil 1.08 m2 K/W 100mm Low-E
Total R-Value 0.70 m2 K/W 2.41 m2 K/W
Heat Reduction - 71%
67% HEAT REDUCTION FOR FLAT CONCRETE ROOF.
CONCRETE SLAB
UNINSULATED INSULATED
GYPSUM BD
Heat Shield AL - FOIL
Surface Air Film, Outside 0.04 m2 K/W 0.04 m2 K/W
Concrete Slab, 100mm 0.07m2 K/W 0.07m2 K/W
Air Gap 0.17 m2 K/W -Hi-E 1.22 m2 K/W- Low-E
Gypsum Bd 12mm 0.07m2 K/W 0.07m2 K/W
Surface Air Film, Inside 0.16 m2 K/W Hi-E 0.16 m2 K/W - Hi-E
Total R –Values 0.51 m2 K/W 1.56 m2 K/W
Heat Reduction - 67%
70mm Air Gap- Low-E
*Data are obtained from ASHRAE Handbook
BENEFITS ON ROOF INSULATIONFOR NON AIR CONDITIONED HOUSE
WITH WITH
HEAT SHIELDHEAT SHIELD
Ambient temp 30°C and roof temp 50°C
WITHOUT WITHOUT
HEAT SHIELDHEAT SHIELD
Internal temp 36°CInternal Temp 30 Deg C
BENEFITS ON ROOF INSULATIONFOR AIR CONDITIONED HOUSE
WITH RADIANT HEAT WITH RADIANT HEAT BARRIERBARRIER
Ambient temp 30°C and roof temp 50°C
WITHOUTWITHOUT RADIANT HEAT BARRIER
Internal temp 28°C
Air conditioning unit runs at
3/4 POWER
Air conditioning unit runs at
FULL POWER
Internal temp 28°C
FACTORY INSULATIONWITHOUT RADIANT HEAT
BARRIERWITH RADIANT
HEAT BARRIER
TEMP DIFFERENCE IS APPROX 5-7 DEG C AT FLOOR LEVEL
IN AN AUTO MANUFACTURING FACILITY
TEMP. DIFFERENCE 5-7° C AT FLOOR LEVEL
05
101520253035404550
9AM 10AM 11AM 12NN 1PM 2PM 3PM 4PMTIME
DE
G C
INSUL UNISUL
RETROFIT INSULATION AT, AN INDUSTRIAL
WAREHOUSE IN INDIA
0
10
20
30
40
50
60
Un-insul Insul
Temperature Deg C
Ambient temp 36
57 °C
37.5°C
TEXTILE UNIT100,000m2 Heat Shield Al installed / in
progress
05
1015202530354045
UNINSUL INSUL
44.8ºC
35.4ºC
Amb temp 34ºC on
23/5/05,11.00AM
FACTORY, INDIA
INDUSTRIAL ROOF & WALL
Wall Insulated
INDUSTRIAL ROOF, INDONESIA
Retrofit Installation
CHICKEN FARM IN INDIA
0
10
20
30
40
50
60
INSULUNINSUL
ROO
F
TEMP Deg C
37.5°C
56.5°C
CHICKEN
BODY
37.2°C
42°C
GRO
UND
36°C
39°C
FEED
WATER
33°C
33°C
CHICKEN FARM-PHILIPPINES.
CHICKEN FARM, CHILE
ANIMAL FARM,CHILE
RESORT IN COCHIN, INDIA
Energy Conservation in form of Energy Conservation in form of Insulation & Internal lightingInsulation & Internal lighting
Without Insulation-Need lighting, -Product Damages,-Productivity Loss
With Insulation-Bright, save lighting-Better Productivity-No loss due to heat damage
34 deg C
Ambient temp on 9/2/04 at this location was 33 deg C
0
10
2 0
3 0
4 0
50
6 0
Unisul Insul
57 deg C
INSTALLATION ABOVE FALSE CEILING
AC ROOF SHEET WITHOUT INSULATION
HEAT SHIELD AL INSTALLED
ABOVE CEILING BOARD
05
101520253035404550
45°c34°cIN
SUL
TEMP MEASURED ON 3/2/04. AMB. TEMP 35.8° C
Foil laminated ceiling tileFoil laminated ceiling tile
The twoThe two--inin--one advantageone advantage
Simple Installation Simple Installation -- party hallparty hall
# Movie theatres & commercial malls
# Residential apartments & Individual homes with concrete roofs
# Hotels – Roof top restaurants, kitchen ceilings
# Offices & showrooms
# Factory units (South India) –Karnataka, chennai, Kerala, & Andhra Pradesh
South India
# Current ongoing : COCHIN INTERNATIONAL AIRPORT EXPANSION PROJECT
Textile factory Textile factory
Ambient temp on 9/2/04 at this location was 33 deg C
0
10
20
30
40
50
60
FoilSurface
IndoorTemp
MotorTemp
UninsulRoof
34 3744
57
MARCELO ROOF,ARGENTINA
ICE-CREAM FACTORY,
COCHIN
TEMPERATURES RCORDED BEFORE TEMPERATURES RCORDED BEFORE & AFTER FOIL INSULATION& AFTER FOIL INSULATION
Temperatures noted at 12.30 Temperatures noted at 12.30 PM at the warehouse portion.PM at the warehouse portion.
ROOFROOF SACKSSACKS FLOORFLOOR AMBIENTAMBIENT
BEFORE FOILBEFORE FOILINSULATIONINSULATION
58.4 58.4 00CC 46.2 46.2 00CC 34.8 34.8 00CC 32.0 32.0 00CC
AFTER FOIL AFTER FOIL INSULATIONINSULATION
32.432.4 00CC 32.032.0 00CC 30.830.8 00CC 32.032.0 00CC
CIAL
0
10
20
30
40
50
60
Roof bottomfoil bottom
490C
28.50C
Amb = 290c
COCHIN INTERNATIONAL AIRPORT
RESIDENTIAL HOUSE,BANGKOKAS SECONDARY ROOF FOR SMALL WATER
LEAKAGE AND HEAT INSULATION
MBI PROJECT, BRAZIL
HYPERMARKET,ARGENTINA
FLAT CONCRETE ROOF,FLAT CONCRETE ROOF,INDOOR GYM IN COLOMBIAINDOOR GYM IN COLOMBIA
INDUSTRIAL ROOF,MANILACORRUGATED SHEET LONG RUN ROOFING
INDUSTRIAL ROOF,THAILAND
INSULATION FOR METAL INSULATION FOR METAL ROOF , MEXICOROOF , MEXICO
HEAT SHEILD CAN BE USED AS HEAT SHEILD CAN BE USED AS FOLDABLE CURTAINSFOLDABLE CURTAINS
PAYBACKPAYBACKEstimation of UnderEstimation of Under--deck Roof deck Roof
Temperature By B.S. 5422Temperature By B.S. 5422
Payback is not more than Payback is not more than 2 years. 2 years.
PROVEN PRODUCT.
ISO 9002 QUALITY MANAGEMENT
SYSTEM
PROVEN PRODUCTS.ASTM C1158-97 - Standard Practice for Installation and
Use of Radiant Barrier Systems ( RBS) in Building Construction.
Used in Major Countries in S.E Asia, Far East, South AMERICA, JAPAN, etc and Indian Ocean Region for more
than 20 years.
Unloading a 40 ft FCL quantity
HEAT SHIELD DB NF 011. ALUMINIUM FOIL
3. F R WOVEN POLY WEAVE
5. ALUMINIUM FOIL
FIRE RETARDANT, TEAR PROOF RADIANT BARRIER FOR ROOF & WALL INSULATION.
FOR BUILDINGS, INDUSTRIAL UNITS, POULTRY & ANIMAL FARMS.
2. F R CO-POLYMER FILM
4. F R CO-POLYMER FILM
FIRE RETARDANT , FLEXIBLE & FOLDABLEHIGH TEAR RESISTANCE, PUNCTURE RESISTANCE & TENSILE STRENGTH. SELF-SUPPORTING, NO TIE-WIRE OR MESH IS REQUIRED FOR PURLIN SPACING UP TO 1.5M.
ACT AS SECONDARY ROOFTO PREVENT WATER LEAKAGE
ACT AS LIGHTING REFLECTANCESAVING ON LIGHTING ENERGY
EASY INSTALLATIONSIMPLE/ FEW ACCESSORIES, TOOLS REQUIRED. SEMI TO UNSKILLED WORKERS
LOW COSTLOWER INSTALLED COST, USE LESS MANPOWER BUT FASTER AND YET EQUAL OR BETTER THERMAL PERFORMANCE
SAFE, NOT A HEALTH HAZARDYOU DRINK COKE FROM AL CAN !REF TO WEB SITES FOR OTHER INSULATION MATERIALS:
1) "HEALTH HAZARD " OF ROCKWOOL2) "HEALTH HAZARD " OF FIBERGLASS
DETAILS AVAILABLE ON REQUEST
OTHER ATTRIBUTES
HEAT SHIELD INSTALLATION
HEAT SHIELD
DOUBLE SIDED AL FOIL FOR 95% REFLECTIVITY
AIR GAP
RAFTER
BATTEN
AA BB
CC
Facts about Fiberglass-American Lung Association
Facts About Fiberglass - American Lung Association site.mht
New Residential House Installation
50mm overlap
50-75mm air gap
SIDE VIEWSIDE VIEW
Overlap joint 50mm
New Residential House Installation
50-75mm air gap
SIDE VIEWSIDE VIEW
50mm overlap
Retrofit Existing Residential House Installation
SIDE VIEWSIDE VIEW
Roof Sheet
Purlin
50mm overlap joint50mm overlap joint
Retrofit Installation for Existing Buildings
Top Elevation
50-75mm Air gap
Radiant barrier
Side View – Installation for Metal Industrial Roof
Radiant Barrier
Retrofit Installation for Existing Buildings
Bottom View
Roof Sheet
Purlin
Installation for Flat Concrete Roof
Purlin with50mm air gap
50mm overlap jointCeiling Materials
Purlin with 50mm air gap
Installation for WallInstallation for Wall
ASTM C1168 ASTM C1168 --9797Designation: C 1158 — 97
Standard Practice for Installation and Use of Radiant Barrier Systems (RBS) in Building Construction1 This standard is issued under the fixed designation C 1158; the number immediately following the designation indicates the year of original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A superscript epsilon (~) indicates an editorial change since the last revision or reapproval.
1 Scope
1.1 This standard has been prepared for use by the designer, specifier, and installer of RBS (radiant barrier systems) for use in building construction. The scope is limited to recommendations relative to the use and installation of RBS including a surface(s) normally having a air-infrared emittance of 0.12 or less, such as metallic foil or metallic deposits unmounted or mounted on substrates. Some examples that this standard is intended to address Include: (1) low emittance surfaces in vented building envelope cavities intended to retard radiant transfer across the vented airspace; (2) low emittance surfaces at interior building surfaces intended to retard radiant transfer to or from building inhabitants; and (3) low emittance surfaces at interior building surfaces intended to reduce radiant transfer to or from radiant heating or cooling systems. See Figs. 1, 2, 3. and 4 for typical examples of use.
1.2 This standard covers the installation process from pre-installation inspection through post-installation procedure. It does not cover the production of the radiant barrier materials.
1.3 This standard is not intended to replace the manufac-turer’s installation instructions, but shall be used in conjunction with such instructions. This practice is not intended to supercede local, state, or federal codes.
1.4 This standard assumes that the installer possesses a good working knowledge of the application codes and regulations, safety practices, tools, equipment, and methods necessary for the installation of radiant barrier materials. It also assumes that the installer understands the fundamentals of building construction that affect the installation of RBS.
1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use. For specific precautionary statements, see Sections 5 and 7.
1.6 When the installation or use of radiant barrier mate-rials. accessories and systems, may pose safety or health
problems, the manufacturer shall provide the user appropriate current information regarding any known problems associated with the recommended use of the company’s
This practice is under the jurisdiction of ASTM Committee C-l6 on Thermal insulation and is the direct responsibility of Subcommittee C16.21 on Reflective
insulation Current edition approved March 10, 1997. Published June 1997. Originally
- publish as C 1158— 9(~. Last previous edition C 1158—90. The as manufactured emittance of a radiant barrier product should be stated in the label
products and shall also recommend protective measures to beemployed in their safe utilization. The user shall establishappropriate safety and health practices and determine theapplicability of regulatory requirements prior to use. 2. Referenced Documents
2.1 ASTM Standards: C 168 Terminology Relating to Thermal Insulating Mate-
rials3 E 84 Test Method for Surface Burning Characteristics of
Building Materials4 E 96 Test Methods for Water Vapor Transmission of Ma-
terials3 2.2 NFPA Standards:5 NFPA 54 National Fuel Gas Code NFPA 211 Standard for Chimneys, Fireplaces and Vents 2.3 Other Documents: CPSC Product Safety Fact Sheet No. 18 “The Home Electrical
System”6 3. Terminology
3.1 Definitions: 3.1.1 For definitions of terms used in this standard practice
refer to Terminology C 168. 3.2 Definitions of Terms Specific to This Standard: 3.2.1 applicator—the person or persons who apply radiant
barrier materials in buildings. 3.2.2 conditioned space—any space in a building that is
served by a heating or cooling system. 3.2.3 open air space—a vented building cavity (for ex-
ample, a vented attic) or a large conditioned or unconditionedbuilding space.
NOTE 1—A large building space is defined as a one whose minimumdimension exceeds two feet.
3.2.4 owner—the person, partnership, corporation, agency,or other entity who owns the building in which the RBS is to beinstalled whether such ownership is by virtue of deed, contract,or any other instrument for acquiring legal title under the laws ofthe state in which the building is located.
3.2.5 radiant barrier system (RBS)—a building construc-
3Annual Book of ASTM Standards, Vol 04.06. 4Annual Book of ASTM Standards, vol 04.07.
Available from National Fire Protection Association, Batterymarch Park,Quinc), MA 02269. 6 Available from U.S. Consumer Product Safety Commission, washington, DC20207.
Standard Practice for Installation
of Radiant Barrier Systems (RBS) in
Building Construction
HEAT SHIELDPERFORMS BETTER
THAN OTHER RADIANT BARRIERS
1. TECNOLOGICAL SUPERIORITY OF CREATING FIRE RETARDANT PE WEAVE AND ADHESIVE LAYERS, GLOBALLY ACCLAIMED - BEST.
2. FLEXIBLE & FOLDABLE ! – TO MAKE RETRACTABLE CURTAINS
3. EXCELLENT ANTI-TEAR PROPERTIES –MAKES INSTALLATION EASY
4. VERY HIGH DUARABILITY & INSULATING PEFORMANCE
5. HIGHLY ECONOMIC - VALUE FOR MONEY FOR END USERS
CONTACT DETAILSCONTACT DETAILSINDIA:INDIA:
UNITED ENGG CORPNUNITED ENGG CORPN147 RP ROAD SEC BAD 500003 AP147 RP ROAD SEC BAD 500003 AP
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EMAIL: EMAIL: [email protected]@gmail.com