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Installation of Chart Cold Box

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COLD BOX INSTALLATION, OPERATION, AND MAINTENANCE

Basic Cold Box Components

Chart Energy & Chemicals (E&C) designs and manufactures process equipment utilized primarily for cryogenic applications such as industrial gas, hydrocarbon, LNG, petrochemical (ethylene) and other refinery applications. Chart E&C's engineering staff is capable of assisting customers with integrating our equipment into the plant/process design. Copyright © 2009 by Chart Energy & Chemicals, Inc.

COLD BOX INSTALLATION, OPERATION, & MAINTENANCE Table of Contents
1 Introduction .......................................................................... 4 1.1 Cold Box Basic Components ....................................... 4 1.1.1 Frame Tubing ................................................. 4 1.1.2 Internal Support Members .............................. 4 1.1.3 Side Panels..................................................... 4 1.1.4 Roof & Floor Panel ......................................... 4 1.1.5 Flexible Insulated Closeouts ........................... 4 1.1.6 Lifting Lugs ..................................................... 4 1.1.7 Base Plates..................................................... 4 1.1.8 Emergency Vent / Upper Manway .................. 4 1.1.9 Breather Valve ................................................ 5 1.1.10 Lower Manway ................................................ 5 1.1.11 Perlite Fill Connections ................................... 5 1.1.12 Perlite Drain Connections ............................... 5 1.1.13 Stream Identification Tags .............................. 5 1.1.14 Stainless Steel Duplicate Nameplates ............ 5 1.1.15 Optional Equipment ........................................ 5 1.2 Codes and Materials of Construction .......................... 6 1.3 Nitrogen Purge System ............................................... 6 1.3.1 Principles of Operation.................................... 6 1.3.2 Dehumidification Purge ................................... 6 1.3.3 Continuous Purge ........................................... 7 1.4 Transition Joints .......................................................... 7 1.5 Allowable Pipe Loads .................................................. 7 1.6 Handrails, Ladders, and Platforms .............................. 7 1.7 Standard Factory Testing ............................................ 8 1.7.1 Cold Box Piping Test ...................................... 8 1.7.2 Standard Cold Box Casing Testing ................. 8 1.8 Painting ....................................................................... 8 1.9 Loose Parts ................................................................. 8 1.10 Valves and Instrumentation ........................................ 8 1.10.1 Control Valves ................................................ 8 1.10.2 Temperature Elements ................................... 8 1.10.3 Junction Box ................................................... 9 1.10.4 Pressure Tubing ............................................. 9 1.10.5 Flow Meters .................................................... 9 Arrival Inspection and Storage ........................................... 10 2.1 First Arrival ................................................................ 10 2.2 Storage...................................................................... 10 Lifting and Handling............................................................ 10 Installation .......................................................................... 12 4.1 Base Plate Installation ............................................... 12 4.2 General Setting Recommendations........................... 12 4.3 Temporary Bracing .................................................... 12 4.4 Perlite Insulation ........................................................ 12 4.5 Nitrogen Purge System ............................................. 12 4.6 Flanged Connections ................................................ 13 4.6.1 Pressure Testing with Shipping Blinds .......... 13 4.6.2 Gaskets and Bolting ...................................... 13 4.6.3 Bolt Torques ................................................. 13 4.6.4 Tightening Pattern ........................................ 13 4.7 Installation Checklist.................................................. 14 Testing and Operation ........................................................ 14 5.1 Heat Exchangers ....................................................... 14 5.2 Strainers .................................................................... 14 5.3 Testing of Piping System........................................... 14 Maintenance ....................................................................... 14 6.1 General ..................................................................... 14 6.2 Repairs and Service .................................................. 15

Forward
Chart Energy & Chemicals, hereafter referred to as Chart, brings together the quality products and individual best working practices of the former Altec, Marston, and Process Systems International organizations. The following instructions are Chart Energy & Chemicals recommendations regarding installation, operation, and maintenance of cold boxes. Refer to Chart Energy & Chemicals BAHX IOM Manual for specific information regarding the installation, operation, and maintenance of brazed aluminum plate-fin heat exchangers. The contractor or owner installing Chart equipment should pay careful attention to these recommended procedures along with any lifting and handling instructions provided with individual units. When these recommendations are followed, extended and reliable service of the equipment can be expected. Recommended procedures do not, however, cover all possible variations in equipment design or provide answers to all specific installation and operating questions which may occur. If for any reason these recommendations cannot be followed or any questions arise, do not hesitate to contact Chart for further information. Caution Throughout this manual, safety items are labeled with the caution mark shown here. These items should be read with care and thoroughly understood prior to any installation, operation, or maintenance of Chart equipment. Failure to properly follow instructions so designated could result in ruptures or other dangerous situations which could cause serious personal injury or death. Do not make modifications to the equipment or deviate from the procedures recommended in this manual.

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CHART ENERGY & CHEMICALS 1 Introduction
1.1 Cold Box Basic Components
A cold box consists of a carbon steel casing, usually rectangular in shape that supports and houses heat exchangers, piping, other related cryogenic equipment, and insulation material in an inert atmosphere. surface upon which the supports can slide due to thermal contraction of the equipment. Second, it impedes heat transfer into the support members to avoid frost spots on the exterior of the cold box.

1.1.3 Side Panels
The cold box is enclosed with 0.188 in [4.8 mm] carbon steel side panels to create an air tight enclosure.

1.1.1 Frame Tubing
The main exterior framing typically consists of vertical carbon steel columns connected by horizontal members at various elevations as necessary for support of internal equipment.

1.1.4 Roof & Floor Panel
Floor and roof panels are 0.25 in [6.4 mm] carbon steel plate. For safety purposes, all roof panels are made of raised pattern plate.

1.1.2 Internal Support Members
Main support members for vessels operating below -20 °F [-28.9 °C] are fabricated from stainless steel or low temperature carbon steel. A minimum of 0.50 in [12.7 mm] of phenolic canvas base material, Micarta®, is placed between the support angles of internal equipment and their support beams. The phenolic canvas serves two purposes. First, it provides a smooth

1.1.5 Flexible Insulated Closeouts
The process connections penetrate through the cold box panels via flexible closeouts. The closeouts create an air tight seal while accommodating the natural piping movement that occurs when the equipment is operated. See Figure 1.2.

1.1.6 Lifting Lugs
The cold box includes adequate lifting lugs for horizontal lifting during transportation to site and vertical lifting during the erection sequence at site.

1.1.7 Base Plates
The base plates are fabricated by Chart and shipped loose. See section 4.1 for further details.

1.1.8 Emergency Vent / Upper Manway
The top of the cold box is fitted with an emergency relief hatch to prevent over-pressurization of the cold box structure in case of an internal equipment leak. The vent is set to open at 4 in H2O [10 mbarg]. The relief hatch serves a dual purpose as a

Figure 1.1. Standard Nameplates
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Figure 1.2. Flexible Closeout Boot

COLD BOX INSTALLATION, OPERATION, & MAINTENANCE
20 in [508 mm] manway on the top of the cold box. It can also be used as a perlite fill. See Figure 1.5

1.1.15 Optional Equipment
Upon request, Chart can provide other optional equipment to the cold box including, but not limited to the following: 1. 2. 3. 4. Perlite drain valves. Handrails Clips for customer designed and installed ladders and platforms. External ladders and platforms.

1.1.9 Breather Valve
The top of the cold box is fitted with a breather valve with a 3 in H2O [7.5 mbarg] pressure setting and a 2.2 in H2O [5.4 mbarg] vacuum setting. See Figure 1.5. To prevent damage during shipping, the breather valve ships loose and is to be installed at site.

1.1.10 Lower Manway
A 25 in [635 mm] manway is typically installed on the cold box near the floor. See Figure 1.3.

1.1.11 Perlite Fill Connections
The cold box is typically fitted with 6 NPS [DN 150] perlite fill connections on the roof. Fill connections are threaded and furnished with caps.

1.1.12 Perlite Drain Connections
The cold box is typically fitted with 6 NPS [DN 150] perlite drains on the side of the cold box flush with the floor. Drain connections are threaded and fitted with caps.

1.1.13 Stream Identification Tags
Each process connection is clearly labeled with a stainless steel stream identification tag. See Figure 1.4.

1.1.14 Stainless Steel Duplicate Nameplates
For each code vessel inside the cold box, a duplicate stainless steel nameplate is attached to the outside of the cold box. See Figure 1.1. Figure 1.4. Stainless Identification Tags

Figure 1.3. Cold Box Manway

Figure 1.5. Breather Valve and Emergency Vent Hatch www.chart-ec.com 5

CHART ENERGY & CHEMICALS
1.2 Codes and Materials of Construction
The following codes and standards are routinely used by Chart. ASTM AISC AWS ASME ANSI ASCE UBC SSPC PIP - American Society for Testing and Materials - American Institute of Steel Construction - American Welding Society - American Society of Mechanical Engineers - American National Standards Institute - American Society of Civil Engineers - Uniform Building Code - Steel Structures Painting Council - Process Industry Practices

1.3.1 Principles of Operation
The pressure regulator is used to maintain a constant pressure of 5 psig [0.34 barg] upstream of the needle valve. The needle valve is then used to maintain a constant flow rate as read on the flow meter. Changes in box pressure due to leaks will have a negligible effect on the flow rate. The nitrogen normally flows through the entire box before leaving via the breather valve on the roof which is set to maintain a positive pressure on the box of 3 in H2O [7.5 mbarg]. If leaks develop in the cold box casing, the box pressure may drop, but should remain positive. Since the flow rate is much higher than the designed casing leak rate, nitrogen should continue to flow to the top of the box. If internal equipment develops a leak, the breather valve will continue to vent, but the box pressure will rise. If it reaches 4 in H2O [10 mbarg], the emergency vent will open to prevent structural damage to the casing. Unless the process piping leak is massive, the pressure will drop after the emergency vent has opened. The emergency vent cover should not be replaced until the cause of the leak has been corrected. In addition to its venting function, the breather valve also acts as a vacuum breaker set at 2.2 in H2O [5.4 mbarg]. This minimizes the influx of moisture and prevents collapse of the casing.

All material is new and certified. Cold box structure and panels are certified to the following ASTM specifications. Item Structural steel shapes Carbon steel structural tubing Stainless steel structural tubing Raised pattern safety plate (roof) Floor plate Stainless steel plate Low temperature carbon steel plate Stainless steel bolts (structural) Side panels ASTM Specification A36 A500 Gr. B A554 Gr. MT304 A786 A36 A240-304 A516 Gr. 70 A320 Grade B8 A36

1.3.2 Dehumidification Purge
Prior to start-up, the cold box shall be purged of moisture that may have entered. After installation of the breather valve, emergency vent, and perlite, set the nitrogen flow rate to provide approximately two volume changes of the casing every 24 hours. Maintain this purge at least two days.

1.3 Nitrogen Purge System
A pipe is laid on the inside perimeter of the box floor to act as a nitrogen purge header. The pipe has holes in it to distribute nitrogen throughout the box, and is connected to a flange outside of the cold box. A continuous nitrogen supply shall be run through the box during operation. See Figure 1.6.

Figure 1.6. Typical Nitrogen Purge System
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COLD BOX INSTALLATION, OPERATION, & MAINTENANCE
1.3.3 Continuous Purge
Normal atmospheric pressure and temperature changes can cause the casing to breathe. Hence, a continuous purge set at a rate to provide approximately one volume change of the casing every 24 hours should be performed. It should also be performed during shutdowns to prevent ingress of moisture into the perlite. If a continuous purge is not conducted during a shutdown, even though the casing is not opened, a check should be made for contaminants upon start-up to see if a dehumidification purge should be performed. applied simultaneously. Instructions for summing applied moments and forces are supplied with the table. Pipe loads on vessels should be analyzed using standard industry practices, such as WRC-107. It is the customer’s responsibility to provide sufficient piping flexibility or piping supports in the customer piping to ensure that the combined loads on each nozzle on the internal equipment are within the allowable limits specified. When a unit is supplied with transition joints, the applied loads on the transition joints must be checked against the allowable loads recommended by the joint manufacturer. Warning Failure to provide sufficient pipe flexibility or piping supports could result in combined pressure and external pipe loads being applied which exceed the allowable loads and cause failure of the unit or transition joint.

1.4 Transition Joints
If there is a change from aluminum piping to steel piping inside the cold box, an aluminum to stainless steel transition joint is used. Transition joints are bonded materials made through a variety of methods, all of which have no parts that require maintenance.

1.5 Allowable Pipe Loads
A table indicating maximum allowable pipe loads on brazed aluminum heat exchangers is provided with the design package. This table indicates the maximum allowable bending moment and axial load which may be applied at each nozzle to header joint on the exchanger. These maximum loads are not to be

1.6 Handrails, Ladders, Platforms
Handrails, ladders, or platforms are not provided by Chart unless specified in the purchase order. When provided by Chart, these items are generally trial fit at Chart’s fabrication facility and then shipped loose. See Figure 1.7.

Figure 1.7. Installed Ladder, Handrails, and Platform www.chart-ec.com 7

CHART ENERGY & CHEMICALS
1.7 Standard Factory Testing
1.7.1 Cold Box Piping Test
After completion of welding of all pipe spools to equipment within the cold box, the piping is pneumatic tested at Chart’s fabrication facility. This test is performed at 1.1 times the design pressure of each stream per ASME B31.3. The pressure is then dropped to the design pressure and a soap film leak test is performed on all piping welds.

1.10 Valves and Instrumentation
1.10.1 Control Valves
Chart may provide control valves as part of a cold box assembly. Typically, extended bonnet control valves are used, which protrude through the cold box wall as depicted in Figure 1.8. This arrangement has no bolted connection inside the cold box. The actuator and positioner are attached to the end of the extension outside of the cold box. This allows all wiring and pneumatic lines to be connected and all valve maintenance to be performed outside of the cold box. The customer is typically responsible for bringing wires and pneumatic lines up to the control valve positioner. Because the purpose of a control valve is to drop the pressure in a line, the valves are typically not the same size as the main pipeline. The valves will have reducers on their inlets and outlets, and the inlet pipeline size may be different than the outlet pipeline size. The valve bonnet penetrates through the cold box wall and is closed out using a flexible boot as depicted in Figure 1.9.

1.7.2 Standard Cold Box Casing Testing
To assure a sturdy leak tight construction, the cold box is proof tested with air at 4 in H2O [10 mbarg] at the Chart fabrication facility. No obvious leakage is allowed. The box is then leak tested with air at 3 in H2O [7.5 mbarg], using a standard soap test procedure and pressure decay test.

1.8 Painting
Chart has extensive experience coating the external carbon steel surfaces of cold boxes using a variety of paint systems. The purchaser has the option to specify the paint system to be used on a particular project. The inside of the cold box is a dry, air tight environment under nitrogen purge, therefore painting on the inside is not required but can be accommodated upon request. Refer to the Chart generated project paint specification for detailed information on the applied coating system.

1.10.2 Temperature Elements (RTD’s and Thermocouples)
Chart may provide integral temperature elements installed into the equipment inside a cold box. Depending on the customer’s needs, the temperature elements will terminate outside of the box either with loose leads or inside a junction box. Inside the cold box, temperature elements are contained within air tight shielding. The preferred type is flexible shielding per Figure 1.11. The wire is routed through unistrut, as shown in Figure 1.12, to protect it and guide it down to the wire penetration locations. There are different ways to mount temperature elements to the equipment. A thermowell installed directly into a pipe is shown on the left side of Figure 1.10. A thermowell installed directly into a brazed aluminum heat exchanger layer is shown on the right side of Figure 1.10.

1.9 Loose Parts
In order to prevent damage during shipping, several parts will ship loose with the cold box. These items include the breather valve, emergency vent hatch, any ladders or handrails, control valve actuators, and base plates. These parts must be assembled on site.

Figure 1.8. Control Valve Setup
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Figure 1.9. Control Valve Close-out

COLD BOX INSTALLATION, OPERATION, & MAINTENANCE
1.10.3 Junction Box
Chart generally provides a junction box on the outside of the cold box in which all temperature element lines terminate. This simplifies the process of wiring plant instrumentation and control systems related to the cold box since the wiring can conveniently be connected to the terminals in the junction box. When supplied, Chart typically uses a NEMA 4X rated junction box.

1.10.4 Pressure Tubing
Tubing for pressure measurement is normally 0.375 in [9.5 mm] diameter and routed directly from the process line to a pressure gauge or transmitter on the outside of the box. It is desirable to vaporize any fluid before it reaches the measuring device. To achieve this, the tubing is routed with a gentle rise from the process line to the box wall and then routed near the box wall until it reaches the measuring device. See Figure 1.13. Figure 1.11. Temperature Element Shielding

1.10.5 Flow Meters
When flow meters are required, Chart uses a venturi or orifice type flow meter for measuring process flow inside the cold box. These devices measure flow without any moving parts inside the cold box, eliminating maintenance. Where it is desired to measure the flow into the N2 purge system, a simple ball bearing type flow meter is recommended.

Figure 1.12. Unistrut for Wiring

Figure 1.10. In-pipe and In-layer Thermowells

Figure 1.13. Pressure Tubing www.chart-ec.com 9

CHART ENERGY & CHEMICALS 2. Arrival Inspection and Storage
2.1 First Arrival
Upon arrival the cold box should be inspected for shipping damage and contamination. Closely examine the cold box for external damage. Warning The cold box is a confined space. Proper safety procedures and precautions for confined space entry must be practiced. Failure to follow confined space entry precautions could result in serious personal injury or death. For units shipped pressurized with dry air or nitrogen, each stream is provided with a valve and coupling to which a pressure gauge can be mounted. See Figure 2.1. A positive pressure should be indicated on the gauge when the valves are opened. If a gauge does not indicate a positive pressure and the valve and coupling connections have been checked for leakage, the stream should be repressurized with dry air or nitrogen to the lesser of 15 psig or one-third the stream’s design pressure. If a leak in the unit, shipping damage, or internal shipping contamination is confirmed, consult Chart for further direction.

3. Lifting and Handling
Lifting and handling instructions are provided with all units. All handling must be in accordance with the supplied instructions. Contact Chart prior to moving the unit if the handling instructions are missing or additional information is required. Warning Failure to handle the cold box properly during movement and erection could result in the cold box being dropped or other accidents, which could cause serious personal injury or death as well as irreparable damage to the unit. Confirm the weight, dimensions, and lift connection locations of the unit. Select the appropriate hoisting machines, spreader bars, slings, shackles, and other material handling tools in consideration of the height, weight, and the angle and direction of the hoisting. Carefully inspect slings, cabling, and shackles for wear. Care should be taken to avoid impacts to the unit. Rough or improper handling can cause damage to the internal construction of the cold box.

2.2 Storage
When storing a cold box the following points should be considered: Prior to storage, all connections shall be inspected. The closeout boots should be inspected to ensure that they are not damaged and are sealed tight. The shipping valves, as depicted in Figure 2.1, should be opened briefly to verify the shipping pressure is intact. The valve should be shut after checking shipping pressure to prevent loss of shipping pressure in case the pressure gauge gets damaged. Cold boxes should be stored in the as shipped position with the weight concentrated at the structural frame members in accordance with the construction drawing.

Figure 2.1. Shipping Valve

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COLD BOX INSTALLATION, OPERATION, & MAINTENANCE

Figure 3.1 Typical Lifting Drawing

Figure 3.2 Cold Box Lift onto Shipping Barge www.chart-ec.com 11

CHART ENERGY & CHEMICALS 4. Installation
4.1 Base Plate Installation
The cold box will generally be mounted to the foundation by square base plates at the end of each column. Chart’s standard practice is to supply base plates as shipped loose items with the cold box. The recommended work flow is as follows. 1. 2. 3. 4. 5. 6. 7. 8. Set base plates on anchor bolts. Shim under base plates to assure levelness. Secure base plate to anchor bolts. Lift and set cold box on plates. Loosen nuts on base plates. Weld base plates to corner posts and intermediate columns. Resecure base plate to anchor bolts. Fill in and seal gaps underneath base plates with grout.

4.4 Perlite Insulation
Perlite is typically used to insulate the open space inside the cold box. Perlite is a naturally occurring siliceous volcanic rock that expands 4 to 20 times its original volume when heated. Perlite can either be expanded on site or purchased in bulk already expanded. It is critical to keep the perlite dry during installation. Therefore, it is recommended that the top of the box be covered with plastic sheeting over scaffolding to prevent precipitation from accidentally entering the cold box during installation. Because perlite is extremely light, this also helps prevent wind from interfering with the installation process. The perlite will tend to settle over time. It is recommended to top off the perlite about 1 month after the initial filling.

4.5 Nitrogen Purge System
Upon installation of the cold box, the nitrogen purge system must be fitted with the necessary components for operation. Typically a regulator is used to drop the pressure of the nitrogen purge supply to a low value, normally 5 psig [0.34 barg]. Then a needle valve and flow meter are used to finely control the flow rate. The breather valve and emergency relief hatch must also be installed to ensure proper function of the system. The fiberglass wrapping, depicted in Figure 4.1, should not be removed. The wrapping is used to prevent perlite insulation from entering into the N2 distribution holes in the bottom of the pipe.

This method ensures that any unfavorable tolerances will not cause difficulty fitting the cold box onto the anchor bolts.

4.2 General Setting Recommendations
Chart provides detailed lifting drawings for use when transporting, moving, and erecting the cold box. Spreader beam requirements are shown on the lifting drawings and shall be used to prevent over stressing the lifting components. The scope of supply for the lifting equipment is identified on the lifting drawings as well.

4.3 Temporary Bracing
Before shipping, any piping potentially susceptible to excessive deflection or shipping vibration is fitted with temporary bracing. These shipping supports are painted yellow and must be removed after the cold box is up righted and connected to field piping, but before it is filled with insulation. A drawing marked with the locations of all temporary bracing is provided with shipment. Exercise extreme care to keep all steel working torches and flame cutting tools at a proper distance from internal equipment in order to prevent damage to brazed joints and to the internal construction. Figure 4.1 N2 Purge

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COLD BOX INSTALLATION, OPERATION, & MAINTENANCE
4.6 Flanged Connections
4.6.1 Pressure Testing with Shipping Blinds
Chart’s standard practice is to ship flanged connections with blind flanges and bolting that are capable of handling the full rated pressure of the flange. However, in cases of tight shipping constraints, the flanged connections may be shipped with thinner blind flanges (covers), which are designed for the shipping pressure of the unit. Warning If a field pressure test is to be conducted with the shipping blinds at a pressure above the shipping pressure, contact Chart to confirm the maximum working pressure rating of the blinds. Pressurization of a cold box assembly with blind flanges not designed for pressure test purposes could result in a rupture of the flanged ends and cause serious injury or death. Appropriate grade stainless steel bolts and nuts shall be used for the final field connection for cryogenic service. Stainless steel washers shall be used under the bolt heads or nuts on the aluminum flange, and threads should be lubricated for proper torque wrench applications.

4.6.3 Bolt Torques
All bolting shall be given a final tightening by torque wrench. Bolts are to be sequentially torqued to the full value shown in the following table and then re-torqued after 15 minutes. Torque values are based on a resultant bolt stress of 25,000 psi [172 MPa] assuming well lubricated studs, nuts and washers.

4.6.4 Tightening Pattern
All bolting shall be gradually pulled up by a crossover sequence. A minimum of two threads shall extend beyond the top of each nut. Bolt Size in 0.5 0.625 0.75 0.875 1 1.125 1.25 1.375 1.5 1.625 1.75 1.875 2 2.25 2.5 2.75 3 Threads per in 13 11 10 9 8 8 8 8 8 8 8 8 8 8 8 8 8 Torque ft•lb [N•m] 25 [34] 50 [68] 92 [125] 142 [193] 217 [294] 313 [424] 438 [594] 596 [808] 771 [1045] 1000 [1356] 1250 [1695] 1552 [2104] 1883 [2553] 2717 [3684] 3750 [5084] 5021 [6808] 6563 [8898] Snug, 1/3 torque, 2/3 torque, then full torque Snug, 1/4 torque, 1/2 torque, 3/4 torque, then full torque Snug, 1/2 torque, then full torque Torque Increments Snug, then full torque

4.6.2 Gaskets and Bolting
Exercise care to protect the machined face of the flange against scratches, dents, or other damage that would reduce the effectiveness of the gasket in making a proper seal. The two mating surfaces of the flanges shall be parallel with each other prior to connecting. Flange faces shall be aligned to the design plane to within 0.06 in/ft [5 mm/m] maximum, measured across the diameter of the flange mating surface, and flange bolt holes should be aligned to within 0.12 in [3 mm] maximum offset. Chart recommends Flexitallic Flexpro gaskets or equivalent (m = 2.0, y = 2500 psi [17.2 MPa]). If stainless steel spiral wound gaskets are used Chart recommends they be the low seating stress type such as Flexitallic LS, (m = 3.0, y = 5000 psi [34.5 MPa]). Warning Installed bolts and gaskets shipped with the blind flange must not be used for making final connections as they are not designed for cryogenic service. Failure to replace the shipping bolting with bolting adequate for the intended service can result in rupture of the flange joint and could cause serious personal injury or death.

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CHART ENERGY & CHEMICALS
4.7 Installation Checklist
For reference, the following is a recommended check list to be completed before placing the cold box into operation. This list is not intended to be comprehensive for all situations, but it provides a basis. 1. 2. 3. 4. 5. 6. 7. 8. 9. Install base plates and set cold box. Install nitrogen purge components. Attach connecting piping. Remove temporary bracing. Install ladders, handrails, and platforms, where applicable. Connect instrumentation, where applicable. Install perlite. Perform dehumidification purge with nitrogen. Commence continuous nitrogen purge. Each stream is to be isolated using blind flanges of the appropriate pressure rating. When isolation of the stream can only be achieved by closing line valves, extreme care shall be taken to assure that leakage across the valve does not over pressurize the adjacent stream. Each stream shall be fitted with at least two pressure gauges, one at the stream inlet and one at the outlet. A third gauge shall be fitted immediately downstream from the test fluid supply regulator. All gauges must be properly calibrated and should be clearly visible from the test fluid supply location. Warning Appropriate safety precautions must be taken during pneumatic testing. The test fluid supply and all personnel should be located a safe distance from the equipment being tested. Failure to take appropriate safety precautions could result in serious personal injury or death.

6. Maintenance
6.1 General
Beyond the precautions for installation and operation already recommended in these instructions, no periodic maintenance is required. It is recommended that a maintenance log be kept to record normal operating procedures, plant upsets, shut downs, and any operating conditions available. Prior to the inspection, testing, or repairing of any unit, whether in service or recently removed from operation, the system must be safety checked and cleared prior to the admittance of personnel for any inspection or service function. Warning Caution must be exercised with regard to the flammability, toxicity, explosion potential, or pressure potential of any fluid or stream within or in the proximity of the unit. All personnel involved with installation or maintenance of cold box assemblies should be made aware of the dangers of suffocation, especially in nitrogen filled containers. No personnel must be allowed in the cold box until the uniform level of oxygen in the box atmosphere has reached a minimum of 19% by volume. Failure to observe proper safety precautions in this regard could result in equipment rupture, fires, toxic gas or fluid escape, suffocating gas atmospheres or other accidents which could cause serious personal injury or death.

5. Testing and Operation
5.1 Heat Exchangers
Refer to Chart Energy & Chemicals BAHX IOM Manual for specific testing instructions for brazed aluminum heat exchangers.

5.2 Strainers
Process fluids having the potential of containing particulates should be filtered with a 177 micron (80 Mesh Tyler Standard) screen, or finer, just before entering the cold box. The user should consider a dual filter system with suitable valving to allow filters to be changed without shut down.

5.3 Testing of Piping System
Warning Do not exceed the test pressure value stated on the cold box nameplate or construction drawing. Overpressurization of the cold box could result in a rupture and cause serious personal injury or death. Most codes require a pressure test of the piping system after the unit is installed. Residual test liquid which may become trapped within the unit cannot be tolerated, since during operation the liquid may freeze and cause serious damage and possible failure of the equipment. Therefore a pneumatic test is most often performed. The pneumatic proof test pressure shall comply with the requirements of the applicable code, but shall not exceed the test pressure shown on the drawing.
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COLD BOX INSTALLATION, OPERATION, & MAINTENANCE
6.2 Repairs and Service
If a leak is detected, Chart should be notified for repair recommendations. Chart is well qualified and staffed to perform field or factory service and repair on this type of equipment. Refer to the serial number shown on the unit nameplate when contacting Chart. All ASME repairs to heat exchangers and vessels must be certified by an “R” stamp and must be in accordance with the Chart’s quality assurance policy, the National Board Inspection Code, and the ASME Code and any local jurisdictional requirements if applicable. Repair to the heat exchangers or vessels should be made only by authorized Chart personnel. Repairs made during the warranty period by unauthorized service personnel will void the Chart Warranty. Improper welding procedures on the exchanger block can damage the braze joints. Repairs not made in accordance with ASME procedure, or not identified by the “R” stamp on the Chart nameplate, will invalidate the National Board registration of the heat exchanger or vessel. Improperly repaired heat exchangers or vessels may not be suitable to withstand the nameplate maximum working pressure ratings.

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Chart Energy & Chemicals
2191 Ward Avenue La Crosse, WI 54601 USA Phone: 608-787-3333 Fax: 608-787-2141

3415 Earl B. Wilson New Iberia, LA 70560 USA Phone: 337-369-9195 Fax: 337-364-8758

8665 New Trails Drive, Suite 100 The Woodlands, TX 77381 USA Phone: 281-364-8700 Fax: 281-364-8706

The Creative Industries Centre Wolverhampton Science Park Glaisher Drive Wolverhampton, UK WV10 9TG Phone: +44 (0) 1902 313870 Fax: +44 (0) 1902 429853

2009-November-04

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