Chromalox CHPES-6A Operation, Adjusting Operating Pressure Controls, Manual Blowdown Instructions

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OPERATION

B. ADJUSTING OPERATING PRESSURE CONTROLS

1.Chromalox boilers are supplied with operating and high limit pres- sure controls. One is used for controlling the operating pressure of the boiler while the other is used as a high limit control. To deter- mine the difference in the controls, the high limit has a manual reset lever on top of the case. Also, there is no differential scale present.

2.On all controls, the pressure adjusting screw on the top of the case sets the desired pressure. Turning the screw counterclockwise reduces the pressure setting (CUT OUT) (See Figure 2). High limit control should be set at 10 psig above the operating pressure of the boiler.

3.The differential adjusting screw on the operating control is set in the same manner as the pressure adjusting screw. The CUT OUT set- ting minus the differential setting, equals CUT IN pressure of the operating control.

 

 

Pressure

 

Differential

Adjusting

 

Screw

 

Mercury

Adjusting Screw

 

 

 

 

 

 

Switch

Scaleplates

 

 

 

Differential

 

 

 

Setting

 

 

 

Indicator

 

 

 

 

Pressure

 

 

 

Setting

 

 

 

Indicator

 

 

 

Operating

 

 

Index

Lever

 

 

 

 

Mark

 

Diaphragm

Pointer

 

 

 

Assembly

Leveling

 

 

 

 

Indicator

 

Figure 2 — Pressure Control

To check operation of the controls, close steam outlet valve and adjust operating pressure control to a low pressure setting. Also, set high limit control at 10 psig above operating pressure control. Turn on boiler, and

allow pressure to build up. When pressure gauge reading approaches set point of pressure control, the switch will trip and shut off boiler. Turn off boiler.

To reset pressure control, bleed off enough pressure in the boiler by opening steam outlet drain, or blowdown valve to allow the operating control to reset.

4.HIGH LIMIT PRESSURE CONTROL OPERATION

The high limit is tested in the same manner but with the operating control set above the pressure setting of the high limit. (Figure 3)

CAUTION: THIS IS FOR TEST PURPOSES ONLY!

When the high limit trips, turn off boiler and reset high limit to proper setting. The manual reset level must be pushed to resume operation upon startup.

Pressure

Manual

 

Adjusting

 

Reset

 

Screw

Mercury

Lever

 

 

 

Switch

Scaleplates

 

 

Pressure

 

 

Setting

 

 

Indicator

 

 

Operating

 

Index

 

Mark

Lever

 

 

Pointer

 

Leveling

Diaphragm

 

Indicator

 

Assembly

 

 

 

Figure 3 — Hi Limit Control

OPERATION

RECOMMENDED START-UP PROCEDURES

1.Close globe valve on steam outlet side of boiler. (Customer Supplied)

2.Turn on boiler and allow pressure to build up to operating pressure.

3.Only open globe valve at quarter turns at first, introducing smaller amounts of steam into process. Avoid opening globe valve all at once. This will eliminate the possibility of evacuating the boiler of water caused by the suddenly increased boiling of the water in the vessel as the pressure is reduced. On boilers where constant pres- sure is not maintained, globe valve should be kept partially closed. This will maintain a constant head on the boiler and stabilize any fluctuation in boiler water level.

Note: For best boiler performance, a 1/4” less steam valve

than size of safety valve should be plumbed as close as practi- cable to steam outlet. Where 1/2” safety valve is used on boil- er, a 1/4” steam valve is recommended.

MANUAL BLOWDOWN INSTRUCTIONS

Blowdown is an essential part of boiler operation. It is the best preventative maintenance you can give your boiler and will add years of life to the unit. Make sure a blowdown schedule is estab- lished and followed regularly.

In extremely hard water areas, blowdown is necessary once a day. In soft water areas, once each week. If there is a particular problem which applies to your own local water condition other

than mineral content, take this into consideration in determining which schedule is to be followed.

1.At end of the working day, while boiler is still operating, turn switch to the OFF position and close water supply valve. De-ener- gize wall mounted safety switch.

2.If blowing-down into a receptacle, allow pressure to decrease to 15-20 psi before opening blowdown valve.

3.It is preferable to connect the blowdown valve directly into a drainage system. If this is done, the boiler can be discharged at operating pressure.

4.When discharge is complete and boiler is drained — (a) close the blowdown valve; (b) open water supply valve; (c) put boiler switch in the ON position; and, (d) close wall mounted safety switch.

5.When refilling is complete, turn off the boiler switch unless further operation is desirable.

6.If you have been supplied with a Manual Reset Low Water control as required in some states, the reset button on the control must be pushed before boiler will begin developing pressure. (Do not push reset until boiler has filled with water.)

The use of chemical boiler cleaning compounds in these boilers voids all warranties unless approved by manufacturer. Some com- pounds will damage copper sheathed heating elements to shorten useful life.

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Contents Chromalox Dimensions Model CHPES-6A through CHPES-180AInstallation ModelWiring Typical Wiring DiagramsBlack Brown Red Orange Yellow Green Blue White Diagram Brown Red Orange Yellow Brown Red Orange Yellow Green Blue White Diagram Red Orange PRE-OPERATION Check Miller LOW Water Cutoff ControlAdjusting Operating Pressure Controls Recommended START-UP ProceduresOperation High Limit Pressure Control OperationAutomatic Blowdown Instructions If FurnishedOptional Equipment for Steam Boilers Testing Operation of Sequencer Boiler Sequencer 5 Step Motor Driven Recycle FeatureBoiler Sequence Solid State Solid State Progressive SequencerInstallation Water Feed SystemsHigh Pressure Feed Maintenance Installation WiringCondensate Return Systems PlumbingRenewal Parts Identification Read Completely Before Starting WorkCondensate Return Systems Limited Warranty

CHPES-6A specifications

The Chromalox CHPES-6A is a advanced electric heating solution designed to meet the demands of various industrial applications. This equipment boasts exceptional performance, reliability, and efficiency, setting a high standard in the electric heating market.

One of the primary features of the CHPES-6A is its robust construction. Built to withstand challenging environments, it is made from high-quality materials that enhance durability while ensuring effective heat transfer. The unit is engineered to resist corrosion and damage, making it ideal for use in harsh conditions and industries.

The CHPES-6A leverages cutting-edge heating technologies that optimize energy consumption. It incorporates advanced digital controls that provide precise temperature management, enabling users to maintain consistent heating without wastage. This precision not only enhances operational efficiency but also contributes to energy savings over time.

One of the standout characteristics of the CHPES-6A is its compact design, which allows for easy installation in tight spaces where conventional heaters may not fit. Its lightweight nature further simplifies the setup process, reducing labor costs and time.

Moreover, the CHPES-6A features an intuitive user interface that streamlines operation. This modern control system includes programmable functions, allowing users to set specific heating schedules and customize temperature settings according to their operational needs.

Safety is paramount in the design of the CHPES-6A, with multiple integrated safety features. These include thermal protection mechanisms and diagnostic systems that alert operators to any potential issues, minimizing the risk of overheating and equipment failure.

The CHPES-6A is suitable for a vast range of applications, including process heating, fluid heating, and even comfort heating. Its versatility makes it a preferred choice across industries such as food processing, chemicals, and pharmaceuticals.

In summary, the Chromalox CHPES-6A stands out due to its exceptional durability, energy efficiency, and user-friendly interface. With its advanced heating technologies and robust safety features, it is designed to provide reliable performance in various demanding applications, making it an invaluable asset for any industrial operation.