Dover Blackmer DMX IV Podręcznik - Strona 5

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4. SYSTEM CONSIDERATIONS (continued)

4.1

PRESSURE

SPIKES

EXPANSION CONSIDERATIONS

The DMX is designed to be installed on the suction side of

the pump where it would only be subject to a pressure

equivalent to the static head of the fluid in the supply tank.

The system engineer MUST insure that no pressure

increases due to pressure spikes or thermal expansion of

trapped liquid may occur inside the DMX.

WARNING

FAILURE TO LIMIT PRESSURE SPIKES

AND/OR PRESSURE INCREASES DUE TO

THERMAL EXPANSION OF PRODUCT

TRAPPED IN THE SYSTEM MAY LEAD TO

PRODUCT FAILURE (DMX AND RELATED

EQUIPMENT), PRODUCT SPILLAGE AND

OTHER POTENTIAL HAZARDS.

Failure to limit

pressure spikes.

DMX maximum pressure capability is 45 PSI (3.1 bar).

However, for system design consideration, the system

must be designed so that in normal operating conditions

(which may include fast closing of nozzle, thermal

expansion of liquid trapped in the system), the maximum

pressure inside DMX must remain below 30 PSI (2 bar).

In a piping system design that does not allow the suppres-

sion of spikes or does not have a provision to handle ther-

mal expansion, a spare volume of air must be trapped in

a dedicated area (hereafter called expansion tank).

The compression of air trapped in the expansion tank

will limit the maximum pressure inside DMX to an accep-

table level.

For thermal expansion of trapped liquid, the expansion

tank capacity must be take into account the maximum

volume of liquid trapped in the system, the maximum

increase of temperature of this liquid and the worst case

fluid expansion properties. For calculation purposes, the

starting pressure in the expansion tank has to equal the

minimum pressure measured in the DMX in full flow

conditions.

The system engineer must ensure that the capacity of

the expansion tank will limit the maximum pressure in

the DMX in case of pressure spikes and/or thermal

expansion of trapped liquid.

Blackmer offers an external DMX expansion tank, to be

implemented by the installer close to DMX see NT 201B-

F00 for details.

External expansion tanks must be installed in a location

where it will not fill with liquid once the system is fully pri-

med. Install and pipe the external expansion tank to the

DMX body using the ¼'' NPT port opposite to the

connection of the scavenging line. Use piping no less

than 1 foot (0.30 m) long and a minimum O.D. of ¼''. The

line connecting the expansion tank to the DMX must

have a minimum 3% continuously rising slope.

NT 201B-A00 04.06 DMX IV Air elimination system e

AND

THERMAL

5/15

4.2 DMX AIR ELIMINATION SYSTEM PRIMARY

FUNCTIONS

DMX systems have three primary functions, with secon-

dary functions :

• Flowrate control

• Priming

• Setting of High and Low flowrates

• Setting of High flowrate

• Setting of flowrate and engine speed acceleration

• Air Elimination & separation

• Stop flow when meter is no longer supplied with

air free liquid

• Provide air free and vapor free fluid delivery for

metered applications.

• Fluid Control

• Safety of operation when pumping against closed

discharge valve

• Liquid handling from DMX to Flow Detector

• Provide strained liquid to the pump

4.3 DMX - PRIMING PHASE

Refer to DMX IOM for more details on the priming cycles

of DMX.

Priming is either done through the gravity loading of the

pump and DMX or through the use of the vacuum pro-

duced by the DMX venturi option.

When the priming requires the operation of the DMX

venturi option, port 6 of the ACP should be connected to

the venturi inlet, as shown on Figure 1.

If the venturi is not needed to prime DMX, clog port 6 of

the ACP.

Refer to the DMX IOM to identify whether or not the

DMX venturi option is needed to prime DMX.

At the end of the priming phase, DMX will allow the air

pressure to build on the air relief valve of the pump.

To prevent pressure spikes in the system during this star-

ting cycle, the air flow going from the DMX to the pump

relief valve is restricted.

AIR LEAKAGE FROM THE DMX TO THE PUMP RELIEF VALVE

WILL NOT BE COMPENSATED BY EXTRA FLOW COMING FROM

DMX AND WILL CREATE SYSTEM FAILURE : "NO PRIMING".

Most common leakage sources are :

• Leaking connections : quick connect fittings have

been known to leak under cold weather conditions.

• Use of shuttle valve: leakage between the input ports

of ball type shuttle valves is common. Ball type shuttle

valves rely more on flow than pressure to shift.

• Use of pneumatic distributor.

The connection between DMX port #4 and the pump air

relief valve must be a direct line with no side connections.

Quick fit connections are not allowed to connect the DMX to

the pump relief valve. No accessories are allowed to be

installed between the two connection ports. The only excep-

tion is the use of pressure gauges when troubleshooting.

Make sure that the installation of a pressure gauge does

not lead to leaks on the line going from the DMX to the

pump relief valve when troubleshooting.

NOTICE :