Product manual

IOMM ACR/AGR-1 13

Refrigerant Piping

Introduction

Proper refrigerant piping can represent the difference between a reliable, trouble free system and

months or years of inefficient, problematic performance.

System concerns related to piping are:

1. Refrigerant pressure drop

2. Solid liquid feed to the expansion valve(s)

3. Continuous oil return

The most important and least understood is number 3. “Continuous oil return”. The failure of oil to

return at or close to the rate of displacement from the compressor can result in oil trapping and

ultimate compressor failure.

On the other hand, the instantaneous return of a large volume of compressor oil, as a slug, can be

equally damaging to a compressor.

All compressors displace some oil during operation. Reciprocating compressors displace more than

centrifugals, scroll and McQuay screw compressors since oil is carried into compressor cylinders with

suction gas; and oil present on cylinder walls is entrained by that same gas as it is being compressed.

The sum of the two is then pumped into the discharge piping.

Also more oil is displaced at start-up of a compressor than occurs during a normal running period.

Thus, if a compressor experiences excessive starts because of recycling pumpdown control, the larger

quantity of oil pumped out is trapped in the condenser with the refrigerant charge, and may not return

regardless of the adequacy of the piping system.

A similar problem to a lesser extent occurs when the equipment is oversized for the available cooling

load.

In short, extreme care should be exercised to assure that both piping and controls are suitable for the

application such that displaced oil is returned to the compressor moderately. Note, too, that oil loss to

the system can be due to a hang up in the evaporator, as well as in the piping.

Suction Lines

McQuay recommends the use of ASHRAE for guidelines in sizing and routing piping with one

exception. See the 1998 ASHRAE Handbook Refrigeration Edition, Chapter 2, for tables and

guidelines. The single exception is to the piping of direct expansion cooling coils located above the

compressors. In all cases, regardless of whether the equipment has pumpdown control or not, a trap

in the suction line equal to the height of the coil section is recommended. In its absence, upon a

power failure, all of the liquid in the coil will fall by gravity to the compressor below.

Suction line gas velocities may range between 900 and 4000 feet per minute. Consideration should be

given to the possibility of objectionable noise in or adjacent to occupied space. Where this is a

concern, gas velocities on the low side are recommended.

Routing must also take into account the requirement established in the latest ANSI/ASHRAE 15.

To size the suction line, determine:

a. The maximum tons for the circuit

b. The actual length in feet

c. The equivalent length contributed by elbows, fittings, valves or other refrigerant specialties.

ASHRAE Tables 2-10, 11 & 12

d. If a vertical riser exists including the trap at the coil, determine the minimum tons for the circuit.