TC Spec. LW-003
FACTORY-WELDED LIQUID STORAGE
TANK SPECIFICATIONS
GENERAL
The Engineer's selection of
factory-welded (factory-coated carbon steel) (stainless steel) (aluminum)
tank construction for this facility has been predicated upon the design
criteria and construction methods specified. Deviations from the specified
design and construction details will not be permitted.
DRAWINGS
AND SPECIFICATIONS
After receipt of order, the Vendor is required to furnish, for the
approval of the Engineer, complete specification and construction drawings
for all work shown on the bid drawings. When approved, one set of such
prints will be returned to the Vendor marked Approved, and these
drawings will govern the work detailed. The approval by the Engineer of the
Contractor's drawings shall be an approval relating only to their general
conformity with the bid drawings and specifications.
The Owners
drawings and specifications showing general dimensions and construction
details shall govern construction. After approval by the Engineer of
detailed drawings prepared by the Vendor, there shall be no deviation from
the drawings and specifications except upon written order or approval from
the Engineer.
QUALIFICATION OF BIDDER
The Bidder shall be a specialist in the design and fabrication of
factory-welded carbon steel, stainless steel, and aluminum tanks. Bidder
shall also submit, upon request, a list of five comparable tanks now in
service in the United States for references.
I. General Information
-
Buyer's name:
____________________________________________________
-
Jobsite location: City
__________, State __________ Zip Code __________
-
Product to be stored in
tank: _________________________
-
Specific gravity of
product: __________
-
pH of product: __________
-
Temperature: __________
degrees
-
Nominal capacity:
__________ gallons
-
Maximum liquid depth
__________ feet
-
Minimum freeboard:
__________ feet
-
Flat bottom, slope
bottom, dish bottom, hopper bottom:__________
-
Clearance from foundation
to outlet discharge ____________
-
Design pressure: (std. CS
14.0, SS 10.0, AL 6.0 oz.) (other _________)
-
Design vacuum:
(std. CS 1.0, SS 1.0, AL 0.6 oz.) (other __________)
-
Roof live load:
__________ PSF
-
Earthquake: Seismic Zone
______ per IBC 2000 - requires zip code ________
-
Wind: __________ mph per
ASCE 7-98
-
Material of construction:
(carbon steel) (stainless steel;
304/316L) (aluminum 5052)
II. Scope of Supply
Furnish all material necessary for the tanks and appurtenances
specified.
-
Tanks will be designed to be self-supporting on customer-supplied
foundation.
-
Delivery will be accomplished on specialty trailer equipment. Actual
transportation equipment will be dictated by tank geometry.
-
Welded tank installation services at the jobsite will be optional at
customer request.
III. Design Criteria
Vendor to quote on the nearest standard size welded tanks of
manufacturer.
-
Standard wind design is 100 MPH wind velocity using
AWWA D100-96 as a reference.
-
Seismic design (if applicable) is to be based on
AWWA D100-96. When designing a tank in a seismic zone, the load producing the higher
stresses comparing wind and seismic will control the dynamic portion of
design.
-
Combined live and dead roof load shall be uniformly distributed with
all nozzle, manhole, and filter locations designed for a minimum of 200 lbs.
each. Live and dead loads to be a combined minimum of 25 psf. Roof to have
10o (2.116 to 12) slope for water drainage. Roof is typically not
designed as a working platform.
-
Tank design to be based on a level full capacity using specific
gravity of the product.
-
Owner solicits recommendations that may improve the price, delivery,
or performance of tanks. As an alternate, Vendor is invited to quote changes
in physical dimensions, modifications to the design, fabrication, or stock
of Vendor's standard equipment that would reduce the initial cost of the
equipment as specified without changing the design premise.
Alternate
quotations shall be listed as such in the proposal specifying the alternate
and the price and delivery for the alternate.
IV.
Material Specifications
A.
Shell Structure
The materials, design, and
fabrication of the welded shell shall conform to the manufacturer's standard
specifications including the following
1. Materials Carbon Steel
a. Hot Rolled Sheet and Plate - ASTM A570 Grade 40 or equal with a
minimum yield strength of 40,000 psi. Minimum thickness shall be 10 gauge.
b.
Structural Shapes - Carbon steel structural shapes shall conform to
ASTM A36 or ASTM A992.
c. Pipe - Carbon steel structural pipe shall conform to ASTM A53 GR B
2.
Materials Stainless Steel & Aluminum
a. Aluminum - 5052-H32, 6061-T6 typical grades
b.
Stainless steel - 304, 304L, 316L, typical grades
c. Other grades of carbon steel, stainless steel and aluminum are
available.
3. Bolts
a. Bolts shall be 1/2 inch diameter and shall meet or exceed the
requirements of AWWA D100-96. Standard bolt coating is mechanically
galvanized per ASTM B695, Class 50.
b.
Anchor bolts conform to ASTM A36 or A307. Anchor bolt to shell
connections shall be bolted to allow for fabrication and shipping
efficiency.
c. Other bolts shall meet or exceed ASTM A307 or ASTM325.
4. Gaskets
a. Bolted connections shall incorporate white EPDM gasket material.
B.
Manufacturing
●
Welding - All structural welding shall be to the latest edition of
AWS using ASME or AWS certified welders - AWS D1.2 for aluminum,
AWS D1.1 for carbon and stainless steel. Welding procedures are
qualified to ASME Section IX.
●
Shell seams shall be full penetration using the SAW (sub-arc welding)
process with copper backup.
●
Other seams may be made with GMAW (gas metal arc welding), SMAW
(shielded metal arc welding), FCAW (flux-cored arc welding) or SAW
(submerged arc welding) process.
C. Coatings Applicable to carbon steel only
●
All carbon steel plates, members, and miscellaneous parts (except
bolts) shall be factory coated in accordance with the provisions of
Section B of these specifications.
D. Appurtenances/Accessories
Standard Accessories
-
20 center roof dome with cover plate
-
Lifting hauling lugs as required by tank design
-
24 Square roof hatch
-
20 Diameter shell manway
-
Foundation loads
-
Foundation anchor bolts and clips
Optional Accessories
-
Specify - Stub and flanged nozzles required in deck, sidewall, and
hopper.
-
Specify Level indicator gauge
-
Complete overflow pipe assembly with internal weir cone
-
Specify - Special hopper outlet size or configuration required
-
Deck perimeter guardrail with toeboard (OSHA) (aluminum rails,
hot-dip galvanized posts)
-
Outside ladder with safety enclosures and rest platforms (OSHA),
hot-dip galvanized with aluminum rest platform
-
Crossovers for access between tanks (OSHA) (aluminum rails, bargrate
material, hot-dip galvanized posts)
V. Shipping
●
All tanks, structures, and miscellaneous parts shall be packaged for
shipment in such a fashion as to minimize abrasion or scratching of finished
coating system.
●
Shipment by special trailers designed for hauling tank/cylinder
shapes.
●
Shipping covers shall be provided for all openings.
VI. End
of Specification (Section B Coating specification attached)
TC Coating Spec.
LW-003 Section B
TC Coating Spec. LW-003 Section B
I.
Surface Preparation
A.
An SSPC-SP6 (commercial) blast surface profile is required for the
coatings listed.
B.
Blasted surface profile will not be exposed to rain, dew or other
contaminants prior to coating application.
II.
Interior Coatings
A.
Immersion Bond Epoxy immersion liquid application
·
Two coats of NSF approved amine epoxy, spray applied at 8 mils
DFT average total.
B.
No internal coating required
C.
Special field applied coating to be specified
III. Exterior Coatings
A.
Polyamide Epoxy dry bulk materials & protective primer
applications
·
One coat corrosion-inhibitive polyamide epoxy primer,
spray-applied at 2.0 mils nominal DFT
B. Inorganic Zinc
coastal / salt spray environment / primer application
·
One coat inorganic zinc primer, spray applied at 2.5 mils DFT.
C. Polyamide Epoxy with
Polyurethane Topcoat - prime + best topcoat
·
One coat of polyamide epoxy applied at 2 mils DFT
·
One coat of polyurethane, spray applied to 1.5 mils DFT.
(Standard light colors
include: white, blue, green, gray & tan)
Note: Total coating system
application 3.5 mils DFT
D. MaxCoat DRY-SW
Protection System extreme external protection prime +
intermediate coat + topcoat
·
Prime coat inorganic zinc, spray applied at 2.5 mils DFT.
·
Intermediate coat polyamide epoxy, spray applied at 2 mils DFT.
·
Topcoat polyurethane, spray applied to 1.5 mils DFT.
(Standard light colors
include: white, blue, green, gray & tan)
Note: Total coating system
application 6 mils DFT
E. No external coating
system required
F. Special field applied
coating system to be specified
IV.
Curing & Shipping
·
All coated parts shall be inspected prior to shipment
·
Touch-up paint with instructions shall be included for
application by erection crew |
