SECTION 072100

ACOUSTIC & THERMAL PROTECTION

PART 1GENERAL

1.1SUMMARY

  1. Section includes a Thermal Blanket Material –

ACOUSTIC BLANKETS. Field-applied jackets that are custom fit, high quality pre-

engineered thermal acoustical insulation blanket system designed to reduce harmful

noise levels and improve the surrounding work environment.

1.2REFERENCES

A.ASTM C 1086-88Standard Specification for Glass Fiber Felt Thermal Insulation

Service Temperature Up to 1200˚F (649˚C).

B.PTFE Teflon® Coated Fiberglass Composite – Material Weight 17.0 oz/sq. yd.

(577 g/m²) (Outerjacketing).

Composite Jacketing Material - Teflon® & FiberglassRespective Continuous Service

600˚F(316˚C)1000˚F (538˚C)

Plain Fiberglass inner jacketing Material Weight 17.7 oz/sq. yd. (601 g/m²)

C. ASTM E 90-90Test Method for Laboratory Measurement of airborne Sound Data

Transmission Loss of Building Partitions & Elements Acoustic Barrier – Barium

Sulfate Loaded Vinyl (1.0 to 2.0 PSF)

  1. ASTM C 335 Standard Test Method for Steady-State Heat Transfer Properties of Pipe

Insulation.

  1. ASTM E 1222 – 90 Standard Test Method for The Laboratory Measurement of the Insertion Loss of Pipe Lagging Systems.
  2. ARI 575-87 Method of Measuring Machinery Sound within an Equipment.
  3. Stainless Steel Type 304 Knitted Wire Mesh .011”Dia. @16SF/LB.

1.3SUBMITTALS

A.Product Data: Manufacturer’s descriptive Literature for acousticblanket.

Drawing: Including component item data, physical sizes, material densities,

fastening and/or attachment methods.

B.Assembly/Installation Drawings: May include plans, elevations, sections, details, joints,

Splices, locations of joints and splices, intersections, transitions, fittings, and attachments to other work for clarity, must depict how components interconnect to achieve continuity.

  1. Manufacturer’s Certificate: Provide document that product(s) meet or exceed specified acoustic attenuation and/or thermal performance requirements.
  2. Sample: Upon bid submittal, blanket design samples must be presented for review and product approval. Two8”x 10” samples will be required and must incorporate all characteristics mentioned in the above designcriteria. Included is a corner cut-away to show blanket insulation and the vinyl septum. Any deviations from the stated design criteria may result in rejection.

1.4DELIVERY, STORAGE, AND HANDLING

  1. Inspect material upon arrival to the site. Immediately log damaged materialswith the

shipping company and report to the manufacturer. Report flaws or defects in the

material to the manufacturer within 24 hours of delivery.

B. Store material in a secure, dry, clean, and dust free environment away from high traffic

areas. Store material in such a manner to prevent damage to insulation coreor jacketing

material. Do not pile on top of other components.

C. Keep material in its original packaging until installation.

PART 2 PRODUCTS

2.1MANUFACTURERS

  1. “MT800A-TGM – “WIRETWISTS” -ACOUSTIC BLANKET”,

Manufactured by Shannon Enterprises of W.N.Y. Inc.

75 Main Street, North Tonawanda, New York14120, Tel: 716-693-7954

Website: E-mail:

B.Substitutions: Not Accepted.

2.2PERFORMANCE REQUIREMENTS

  1. Maximum Service Temperature - This design is to act as a Sound Attenuation and Thermal Barrier with a maximum service temperature of 800˚F (427˚C).
  1. Product Components - The Outer Jacketing is a17 oz/sq. yd. PTFE Coated Fiberglass cloth.The inner jacket is a layer of 17.7 oz/sq. yd. Plain Fiberglass cloth enclosed by a layer of Stainless Steel Type 304 Knitted Wire Mesh (.011” Dia. @ 16SF/LB). The Insulation Material is an 11PCF Fiberglass Needled Mat – Type “E” Fiber, which acts as a sound “Absorber”. Barium Sulfate Loaded Vinyl Sheet (1 lb/sf to 2 lb/sf Surface Mass) is layered onto the Insulation Mat to act as a “Reflector” of sound. The “Reflector” and “Absorber” materials are encapsulated by the PTFE Teflon® Coated Fiberglass cloth, Plain Fiberglass Cloth and Knitted Mesh and sewn together, producing a self contained blanket system. The Blanket System includes fasteners for easy install and removal.
  2. Blanket construction - Blanket construction shall be doublesewn lock stitch with a minimum of 7 stitches per inch. All raw jacket edges will havea tri-foldedPTFE Teflon® CoatedFiberglasscloth binding. Noraw jacket edges will be exposed. Stitching will be done with aTeflon® Coated Fiberglass thread. Monel staples shall follow the outer jacket edge forreinforcement and be spaced no greater than 1 inch apart.

B. Blanket Overlap - Blanket will overlap mating flanges as well as existing insulation

with a minimum of 2” overlap. Where blanket cannot overlap existing oversized

insulation, blanket will butt up to existing insulation with a friction closing seam. Open

gaps are not acceptable. Blanket diameters which are 2” larger than existing insulation

must be capped to eliminate open air void.

C. Leak Accommodations - To accommodate a leak and detect its origin, blankets will

have a low point stainless steel drain grommet or the design will incorporate a mating

seam at the lowest point of the blanket.

  1. Blanket Insulation Weight - When designing blanket insulation for large equipment

where a multi-piece construction is necessary, the total number of pieces will be

minimized. Any one piece will not exceed 40 lbs. in weight.

  1. I.D. Plate - For easy identification and location, a stainless steel or aluminum name

plate tag is riveted to each blanket piece. 1/8” embossed lettering shows location,

description, size, pressure rating and tag number sequence.Each blanket will require an

I.D. Plate.

  1. Quilting Pins - To enhance blanket quality and to maintain uniform thickness, 14 gauge type 304 stainless steel quilting pins will be placed at random locations no greater than 18 inches apart. Quilting Pins will prevent shifting of the insulation. 14 gauge type 304 Stainless Steel speed washers will secure the quilting pin stem in place.
  2. Minimized Air Void - Equipment and equipment heads are typically a multi-piece design and are installed in tag number sequence. Heat exchanger heads, large vessel flanges and pump housings will be designed in two half sections. Blanket design will conform to the equipment with minimized air void. All valve covers will be a two piece design with a separate body and bonnet.
  1. Standard Fastener (Wiretwists) –A 21 gauge type 304 stainless steel wire will be doubled up and twisted in a spiral fashion, with a minimum of 4 to 5 twists per inch. Wiretwist length will be 16” or longer. The Wiretwist will be secured to the lacing pin at the pin stem. Lacing pin stems will be 14 gauge type 304 stainless steel. Pins will be held in place with 1” diameter type 304 stainless steel speed washers. Wiretwists will be spaced 6” on center along closing seams with matching lacing pins to lace and secure to.
  2. Assembly Drawing Requirements – Each project will include an instruction package shipped with the blanket material. This package will include Assembly Drawings identifying piece location, a Material List of all pieces and Instructions for Installation on how it will be installed. Accurate CAD files & project records must be kept by the manufacturer. For a minimum of ten years these records will assure accuracy in re-ordering and individual parts replacement.
  3. Production Drawing Record keeping – The correlating Project Production Drawings will also be kept on file with the blanket manufacturer. The latest revisions, if any after installation, will be recorded on the CAD drawing system. This file will also be kept for a minimum of ten years to assure accuracy in re-orders of replacement parts.
  4. Project Qualifications – All items to be insulated will require a field takeoff prior to bid submittal, and must be reviewed for proper cost estimation. Upon receipt of project contract, each and every item must be field measured for retrofitting to existing field conditions and tagged with an aluminum or stainless steel identification tag showing an item number for installation reference. At the time of installation, blankets must have corresponding item number shown on the blanket tag and must match to existing tagging on fitting. No standard blanket designs will be accepted. This will assure a “Custom Fit” design with maximum thermal efficiency and noise reduction.
  5. Project accuracy and effectiveness – Demonstrate the efficacy of precision through the use of State-of-the-Art CAD Design. The efficacy of precision markings, with the ability to maintain a high degree of repetitiveness and control of manufacturing tolerances for locations of identification tags, stitch lines, Hook and Loop (Velcro®), cut lines for after stuffing, cutting of the outer and inner layer of fabrics, septum (Acoustic Blankets only) and insulation through the use of State-of-the-Art CNC cutters.
  6. Warranty - We guarantee that all custom manufactured blankets will accommodate vibration probes, gauges, tubing, piping, brackets, etc. and fit correctly for optimum performance as per the design specification provided in the quotation process. In addition, for 18 months we will cover the cost of replacing the blanket should the failure be due to premature degradation of any component utilized in the blanket construction, as well as any defects due to poor workmanship.
  7. Installation Guidelines are as follows:
  • Once material is received, open boxes with care. DO NOT “cut” deep into container to avoid damaging blankets.
  • Locate the Instructions for Installation.
  • Follow the Material List to determine blanket part number.
  • Refer to the Assembly Drawing for orientation of each blanket part number and installation details of each part.
  • Locate the Identification Tag on each blanket, for correct description and sequence of blankets.
  • Material is installed in tag number sequence.
  • Use leather gloves to install material.
  • A physical effort is required for proper placement and fit.
  1. Storage - Once shipment is received, protect Blanket Insulation from water damage and/or other abuses prior to installation. Blanket Insulation will be shipped in cardboard boxes or crated for export shipping. Packaging is not designed for outdoor storage, thus a tarp or covering of some type is necessary if stored outdoor until installation is completed.

PART 3 EXECUTION

3.1GENERAL APPLICATION REQUIREMENTS

  1. Verify that adjacent materials and surfaces are clean and dry. Free of obstructions, such as: supports, bracketing, valve handle extensions, conduit location and have proper clearances from all obstacles and ready to receive the Acoustic Blanket.
  2. Provide written report listing conditions detrimental to performance of Work in this section. Do not proceed with the installation until unsatisfactory or unsafe conditions have been corrected.
  3. Confirm to the manufacturer that the site has been properly prepared prior to installation.
  4. Confirm to the manufacturer all the safety certifications and training requirements for accessing the installation property(s) the personnel will need prior to executing the installation to allow ample time to receive the necessary training certification.

3.2ACOUSTIC BLANKET APPLICATION

  1. Comply with manufacturer’s written instructions for handling and installing Acoustic Blanket assemblies and materials unless more stringent requirements are indicated.
  2. Coordinate installation of Acoustic Blanket assemblies and associated work so complete assemblies comply with performance requirements of the system.
  3. Install Acoustic Blankets to provide continuous, uninterrupted sound attenuation throughout the requirement of the system.

END OF SECTION 072100

1

FORM: 20110426

FILE: MT800A-TGM - WIRETWISTS