Danfoss 089 0879 Intelligent Purging System Ammonia User Guide

: June 12, 2024
: Danfoss

Danfoss 089 0879 Intelligent Purging System Ammonia

Legal notice

This product information is a part of the documentation for the Danfoss scope of delivery and serves as product presentation and customer advisory service. It contains important information and technical data regarding the product. This product information should be supplemented with the information about the industrial safety and health related regulations at the site of installation of the product. The regulations vary from place to place as a result of the statutory regulations applicable at the site of installation and are therefore not considered in this product information. In addition to this product information and the accident prevention regulations applicable for the respective country and area where the product is used, the technical regulations for safe and professional work must also be observed. This product information has been written in good faith. However, Danfoss cannot be held responsible for any errors that this document may contain or for their consequences. Danfoss reserves the right to make technical changes during the course of further development of the equipment covered by this product information. Illustrations and drawings in this product information are simplified representations. As a result of the improvements and changes, it is possible that the illustrations do not exactly match the current development status. The technical data and dimensions are subject to change. No claims will be accepted on the basis of them.

EU DECLARATION OF CONFORMITY

Danfoss A/S Refrigeration & Air Conditioning Controls

declares under our sole responsibility that the

Product category: Intelligent Purger System (Air Purger)

Type designation(s): IPS 8 Covered by this declaration is in conformity with the following directive(s), standard(s) or other normative document(s), provided that the product is used in accordance with our instructions.

Machine Directive 2006/42/EC
EN 378-2:2016 Refrigerating systems and heat pumps – Safety and environmental requirements – Part 2: Design, construction, testing, marking and documentation IEC 60204-1:2018 Safety requirements for electrical equipment for measurement, control and laboratory use – Part 1: General requirements

Pressure Equipment Directive 2014/68/EU (PED)
EN 378-2:2016 Refrigerating systems and heat pumps – Safety and environmental requirements – Part 2: Design, construction, testing, marking and documentation Ammonia side (R717): Category A4P3. Fluid group: 1. PS = 40 bar. TS: -40 ˜C to 60 ˜C R452A side: Category 1. Fluid group: 2. PS = 28 bar. TS: -40 ˜C to 60 ˜C Ambient temperature: -10 ˜C to 43 ˜C

Electromagnetic Compatibility Directive 2014/30/EU (EMC)

IEC 61000-6-2 Electromagnetic compatibility (EMC) – Part 6-2: Generic standards – Immunity standard for industrial environments (IEC77/488/CDV:2015)
EN 61000-6-4 Electromagnetic compatibiliy (EMC) – Part 6-4: Generic standards – Emission standard for industrial environments

Note: EMC test performed with cable length < 30m.

Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-2

Danfoss only vouches for the correctness of the English version of this declaration. In the event of the declaration being translated into any other language, the translator concerned shall be liable for the correctness of the translation

ID No: 084R9456
Revision No: AA

Technical data

Supply voltage for: IPS 8 Field 1) connected solenoid coils| 230 V +/-10% AC, 1ph, 60Hz
---|---
Current| 5.7 A (max. 6.5 A)
Power consumption| max. 1.3 kW
Short-circuit current rating| Icc 10kA
Temperature range ambient| -10 °C to +43 °C (14 °F to 109 °F)
Temperature range transport/storage| -30 °C to +60 °C (-22 °F to 140 °F)
Enclosure| IP55
Weight| max. 100 kg (221 lbs)
Dimensions (LxWxH)| 1051 x 441 x 703 mm (41.4 x 17.4 x 27.7 inches)
Purger refrigerant| R452A 900 gram (31.7 oz)
Max. operating pressure (PS) R452A| 28 bar (406 psi)
System refrigerant| R717
Max. operating pressure R717| 40 bar (580 psi)
Operating temperature R717| -40 °C to +60 °C (-40 °F to 140 °F)

Description Field connected valves

Digital Output, DO6 YV ICFD – Valve on ICF (Optional)
Digital Output, DO7 Y1 Valve – Purge Point 1
Digital Output, DO8 Y2 Valve – Purge Point 2
Digital Output, DO9 Y3 Valve – Purge Point 3
Digital Output, DO10 Y4 Valve – Purge Point 4
Digital Output, DO11 Y5 Valve – Purge Point 5
Digital Output, DO12 Y6 Valve – Purge Point 6
Digital Output, DO13 Y7 Valve – Purge Point 7
Digital Output, DO14 Y8 Valve – Purge Point 8
Digital Output, DO15 Y9 Valve – Bubbler (Optional) / General Alarm (Optional)

Ordering

Unit	Code number
Danfoss Intelligent Purging System IPS 8 unit	084H5002

Accessories/Spare parts

| Accessory (Not included with IPS)| Spare parts for service

(Built-into IPS)

| ****

Code

---|---|---|---
Flange blind blank incl Bolts, nuts and Gaskets*| x| | 084H5053
SV3 Float Valve| x| | 027B2023
ICF 15-4 solenoid, DIN Butt weld 15mm ½ inch| x| | 027L4543
ICF 15-4 solenoid, ANSI Socket weld 15mm ½ inch| x| | 027L4538
ICF 15-4 solenoid, ANSI Butt weld 15mm ½ inch| x| | 027L4602
Welding Flange incl Bolts, nuts and Gaskets| | x| 084H5061
Repair kit for Main Purge Valve (Armature, tube, Sealing, Orifice, Filter insert). See Fig. 1, Item 16| x| x| 084H5051
Solenoid coil, 24V DC for Main Purge Valve. See Fig. 1, Item 16| x| x| 018F6757
PSU, 24V DC – optional for powering purge points| x| x| 080Z0055
Restrictor, in purge line after Main Purge Valve. See Fig. 1, Item 18 and Fig. 13.| | x| 084H5054
Compressor Cranck case heater| | x| 084H5058
Condenser coil assy incl screws| | x| 084H5059
Fan motor for condenser Incl fan grid and screws| | x| 084H5060
Extraction Fan| | x| 084H5056
Air grid with filter (2 pieces)| | x| 084H5057
Pre-programmed MCX15B2 with application SW included| | x| 084H5067
Pressure transmitter evaporator, soldered (AKS 32R)| | x| 060G3552
Compressor including Start relay box and Start and Run Capacitor| | x| 123B2156
Compressor Hi-temp sensor| | x| 084N2003
Expansion valve, R452A| | x| 068U3881
Sight glass| | x| 014-0191
Pressure transmitter – R717, Threaded, AKS2050| | x| 060G5750
Thermostat for crankcase heater control| | x| 060L111166
Temperature sensor – R717, AKS 21M| | x| 084N2003
LLS 4000 liquid level switch G 3/4” | | x| 084H6001**
Pressure switch for Fan| | x| Contact Danfoss
Pressure safety switch| | x| Contact Danfoss

For closing system flange during system pressure testing
See Fig. 1 and Fig. 10a

Introduction

The Danfoss Intelligent Purging System (IPS 8) is a stand-alone, self- contained purging unit designed to remove non-condensable gases (NC gases = air and other unwanted foreign gases) from industrial ammonia refrigeration systems. The IPS control can handle up to 8 purge points automatically. The ingress of NC gases into a refrigeration system is inevitable, regardless of the refrigerant, pressures, or temperatures. NC gases in the system will result in a decrease in system efficiency, both in terms of an increase in power consumption and reduced cooling capacity.
Due to having a different density than ammonia, the ingressed air will accumulate in specific areas of the system, where it can be removed using the Danfoss IPS 8. The accumulation areas are identified in the Connection locations section, along with recommended connection principles. The purger unit is an electronically controlled, self-contained R452A refrigerant system that runs independent of the main ammonia system and with only one flange connection to the ammonia plant. The flanged opening allows the ammonia gas/NC gas mix access to the purger’s heat exchanger, where it is split into ammonia condensate and NC gases. The ammonia condensate is returned by gravity to the main plant, while the NC gases are purged to the atmosphere through e.g. a water bath. Through the flanged opening, the purger unit has access to the parameters from the ammonia plant required for full electronic control. The unit runs automatically in 24-hour cycles, checking for the presence of NC gases and, if present, removes the NC gases. To regain and retain the design capacity of the main ammonia system and prevent future air accumulation, it is highly recommended to install the Danfoss IPS 8.

Features

State-of-the-art electronically controlled unit based on the Danfoss MCX controller platform
Reduced power consumption of the ammonia plant
Automatic purging response to NC gases in the refrigeration system
Continuous and smart monitoring of differential pressure between the system refrigerant and the purger’s refrigerant
Smart purging that minimizes refrigerant (ammonia) release to the environment
Self-contained unit operation, which functions independently from the main plant
An operation log for easy purging cycle data monitoring
Industry-standard Modbus RTU communication for remote monitoring and system integration
Reduced purging unit power consumption compared to other units due to on-demand operation only
Load scheme to identify which purge point is removing most NCC
Prepared to manage/control Bubbler
Option to install LLS 4000 to protect IPS for high column of ammonia liquid
Self-diagnostics for both unit and system operation to shut down in the event of malfunctions
Cost-effective installation with few mechanical and electrical connections
A fully brazed and leak-tested R452A cooling system, minimizing leakage risks
A plug-and-play stand-alone design, which simplifies installation and commissioning while reducing potential errors
No need for advanced settings
A compact and easy-to-handle design
IPS carry a registered patent

Working principle

The Danfoss IPS 8 is factory-tested and ready to use in ammonia plants with a condenser pressure of more than 6,5 bar (94 psi). The purger is charged with 900 gram (31.7 oz) of R452A. Only 1 mechanical connection is needed for the purger (see fig. 1). The flow of ammonia/NC gases from the main plant is done through the flange for ammonia (see 13 in Fig. 1 below), while the NC gas purge is done through the blow-off pipe after the purge restrictor (18). Through the flange for ammonia (13), a mixture of ammonia gas and NC gases enters the heat exchanger (12) part of the purger. The ammonia gas/NC gas mix is cooled down below the condensing temperature of the ammonia by the R452A circuit. At this point, ammonia gas condenses and returns by gravity to the ammonia plant whereas the NC gases accumulate in the heat exchanger (12) for subsequent purging. By condensing the ammonia gas, a new ammonia/NC gases mix is naturally pulled through. This new mix is separated through a continuous process. As the NC gas concentration in the heat exchanger (12) increases, the R452A heat exchanger pressure and temperature will simultaneously decrease. The controller continuously monitors the R452A heat exchanger pressure as well as ammonia pressure and temperature. When the R452A pressure reaches a predefined pressure difference when compared with the ammonia pressure (temperature) it prepares to purge the NC gases through the solenoid valve (16). The blow-off is activated by the solenoid (16) and through appropriate piping/hosing, should be led into a water bath. This process is recommended to retain small amounts of ammonia (see Installation section). Danfoss-089-0879
-Intelligent-Purging-System-Ammonia-fig-3

Fig. 1 – Purger R452A lay-out

1| Compressor (900 gram (31.7 oz) R452A) controlled via Digital Output, DO1| 11| Expansion valve, R452A
---|---|---|---
1a| Compressor Cranck case heater| 12| Heat exchanger Ammonia/R452A
2| Thermostat for crankcase heater control| 13| Welding Flange
3| Discharge temp sensor R452A via Analog Input AI3, Pt 1000| 14| Pressure transmitter R452A. Measured via via Analog Input AI1, Pressure transmitter, AKS 32R
3a| Suction temperature sensor R452A via Analog Input AI4, Pt 1000| 15| Pressure transmitter R717. Measured via Analog Input, AI2, Pressure transmitter, AKS 2050
4| Pressure safety switch| 16| Main Purge Valve controlled via Digital Output, DO2
5| Condenser| 17| NC temperature sensor R717. Measured via Analog Input, AI5, Pt1000
6| Extraction fan| 18| Restrictor, purge line
7| Pressure switch for Condenser Fan| 19| LLS 4000 Liquid Level Switch. Accessory. Not included with standard IPS
8| Receiver| |
9| Filter| |
10| Sight glass| |

Working cycle

The Danfoss IPS 8 operates in 24-hour cycles, of which 45 minutes are dedicated to an R452A pull down. At power on, the pull down is initiated immediately. If no NC gases are detected during the 40 minute pull down, the system will close the solenoid valve at purge point 1 and open the solenoid valve at point 2. After a cycle time of 24 hours/N (Number of purge points), the compressor will pull down again condensing the ammonia. After 24 hours, all purge points have been vented one time. To identify NC gases, the controller utilizes upper and lower thresholds for R452A evaporating temperature. If, during pull down, the temperature continues decreasing and the lower threshold is passed, the controller considers this to be a high concentration of NC gases and opens the purge solenoid valve. The purge valve will stay open until sufficient condensing ammonia is present to lift the R452A evaporating temperature above the upper threshold. The compressor will continue running and if the temperature again decreases below the lower threshold, a new purge will be performed. This process will be repeated until the R452A heat exchanger temperature stays above the lower threshold for >40 minutes following the previous closure of the purge valve.

Label ID| Parameter Name| Description and selection options| Factory setting
---|---|---|---
CM3| PDT| Pull down time

Pull down time of compressor

| 40 min
CM4| CST| Compressor start time See Fig. 2 for details| 1440 min (24 h)

VA5

|

PLT

| Endless purging max time

Max time for endless purging on one point. When the time has expired, IPS will go to next Purge Point (PP)

|

24 h

See complete Parameter List – Table 01

Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-4

Fig. 2 – Power on & Cycle at no NC gases present: CST (compressor start time) and PDT (pull down time) are configurable * Cycle (CST) = 24 hours/N (number of purge points) Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-5

Fig. 3 – Purging procedure – Low R452A evap. temperature detected during PDT: Thresholds are configurable If low evaporator temperature is detected (passing lower threshold), the purging procedure will be repeated immediately

Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-6

Air traps

Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-7

For systems with low pressure liquid level control, the correct condenser/ receiver installation is as shown in Fig. 4 and Fig. 5. The discharge gas from the compressor (1) is led to the condenser (2) where it is condensed. The receiver (3) holds the liquid until there is a demand for liquid from the LP side, e.g., until the expansion valve (4) opens. If the expansion valve is closed, the liquid condensed in the condenser will need to be stored in the receiver and the level will increase. To ensure a free flow to the receiver, the gas must be allowed to leave the receiver; this process is accomplished through the pressure equalizing line (a). The pressure equalizing line makes the pressure in the receiver the same as in the compressor discharge line. The pressure in the condenser outlet is lower due to the pressure loss in the condenser. Since the condenser outlet pressure is lower than in the receiver, it is therefore necessary to mount the condenser higher than the receiver and allow for a higher liquid level in the piping between the condenser and the receiver (b). The liquid column in the line (b) compensates for the pressure difference between the condenser outlet and the receiver. Fig. 4 shows the liquid connection at the bottom of the receiver. If the liquid from the condenser is connected to the top of the receiver (Fig. 5), a slightly different arrangement must be made. The liquid line (b) from the condenser to the receiver will need to have a goose neck/liquid trap to ensure that the liquid column is actually established. As air is heavier than ammonia gas, the air will collect in two locations in this type of installation: On top of the liquid in the receiver (x) and/or on top of the liquid in the drop leg from the condenser (y).

Connection locations

Air purger installation in a low-pressure liquid level controlled installation

The correct locations for the air purger to be connected to the ammonia plant are: (See Fig. 6 and Fig. 7)

on top of the receiver or
on top of the liquid in the drop leg from the condenser.

The air purger (5) is connected to the two purge points through solenoid valves (px and py). Note that only one solenoid should be open at any given time, otherwise the liquid column in the condenser will be short-circuited. The air purger must have its own liquid return drop leg (c) connected in parallel with the condenser’s drop legs (b). When the purger is connected to the receiver i.e. solenoid (px) open, the liquid level in the air purgers drop leg (c) will be equal to the receiver liquid level (3); when the purger is connected to the condenser outlet i.e. solenoid (py) open, the liquid level will be equal to the liquid level in the condenser drop leg (b). Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-8

Fig. 6 Purger connections (px) & (py). Drain piping (c) must be vertical/downward slope
Alternatively, the air purger draining of liquid can be achieved effectively through an HP float valve (6) to the low pressure side (see Fig. 7). Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-9

Connection locations (continued)

Air purger installation in a high-pressure liquid level controlled installation

For systems with a high-pressure liquid level control, the air will collect in the float valve (3). (See Fig. 8). The compressor (1) supplies high-pressure gas to the condenser (2), where it is condensed. The float valve (3) will flash any liquid back to the LP side. The air purger (5) must be connected to the float valve through a solenoid valve (pv).The ammonia liquid condensed in the air purger must be drained through drain pipe (c) to the LP side via a float valve (6). Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-10

General
The air purger must always be mounted above the highest liquid level to be able to drain the ammonia condensed in it. Otherwise, the air purger can flood and potentially purge ammonia liquid. The purger liquid return leg (c) must always be mounted vertically or at minimum, with a downward slope. The solenoid valves at the connection points must never be activated at the same time. Finalize purging at one location before switching to the next.

WARNING !
Follow the installation guide strictly during Purger installation. Install the Purger unit in a location where the bottom flange level and any gas inlet connection level is above any possible ammonia liquid level. Liquid drain piping from the purger must always have a downward slope. Install a shut off valve close to the bottom flange entrance to enable removal of the unit and closing for high pressure ammonia gas. Connect proper resistant piping to the purging outlet pipe and ensure the purged non-condensables are discharged into a water bath of max. 200 liter.

Connection points

Multi-point purging
As factory default, the Danfoss IPS 8 is configured to manage up to 8 purge points. (Multi-point purging. See Fig. 10). The actual amount of purge points connected needs to be setup in the MCX controller after power-up. The parameter in question for entering the actual number of purge point: V10, Max_PP (See Table 3). Single point purging setup is possible (See Fig. 09 -no purge solenoid valves). For single point purging the parameter in question for entering the actual number of purge point: V10, Max_PP must be set to 1 (See Table 3). Both power and control wiring of the installed solenoid valves coils should take place prior to first power up.

NEVER HAVE MORE THAN 1 PURGE POINT OPEN AT A TIME.
Always close one purge valve before opening the next. This is done by turning the purger unit power on and entering the number of actual purge points (V10, Max_PP) in the program. See section “Programming/configuration”. Danfoss-089-0879-Intelligent-Purging-System-
Ammonia-fig-11

See Installation guide for Danfoss floats:
Type SV3 – Lit.No. : AN149486432996
Type ICFD used in ICFD – Lit.No. : AN250286497620
See Installation guide for LLS 4000 Liquid Level Switch: AN317523977313

Installation

The Danfoss IPS 8 must be installed in accordance with locations recommended in the Connection locations and Connection points sections of this document. The unit has a protection rating of IP55 and may be installed outside, in ambient temperature ranges from from -10 °C to 43 °C / 14 °F to 109 °F). Avoid installation in direct sunlight as this may lead to excessive sunlight exposure and ambient temperatures above allowed limits. For ambient temperatures below -10 °C (14 °F) the air purger must be installed in a heated and ventilated area. The unit must be installed in a non- ATEX atmosphere as the purger unit is not explosion proof. The purger unit should be kept in an upright position at all times – from receipt to final installation.Use all 4 lifting eyes and suitable lifting gear during installation (unit weight = 100 kg/220 lbs). Install the unit on an even horizontal base 0.05 to 1.1 meter (2 to 43 in) above a service platform with sufficient support and allowing the purger subframe to be bolted to the support (see example in Fig. 12). Maintain recommended distances in all directions (Fig. 12) to allow fan cooling and servicing.

Always leave the unit off for at least 12 hours from finished installation to first time power up.
It is important that the support construction is level to ensure the internal liquid trap is properly filled. Angle to horizontal < 2 degrees

Lifting Procedure

Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-13 Danfoss-089-0879
-Intelligent-Purging-System-Ammonia-fig-14

Prepare the ammonia pipework with the weld flange according to Fig. 13 and Fig. 14. The main/drain piping should never be smaller than inner diameter Ø37 mm (1.5 in).
Complete the supporting structure able to carry 100 kg (221 lbs).
Lift the purger into position using the lifting eyes on each side of the purger’s cabinet. Remove the rubber plug from the flange opening. See Fig. 13.
Connect the weld flange with the purger flange using the enclosed flat gasket and tighten the supplied 4 bolts diagonally to a torque of 60 Nm (44.3 ft-lb).
Insert 4 bolts (not supplied) through the purger frame and the support construction and tighten.
Perform a leak test to ensure an airtight connection.
In the event the purger unit needs to be dismantled please contact Danfoss for instructions.
Correctly install a suitable pipe/hose from the purge solenoid valve for blow-off of NC gases in accordance with local or national regulations.
Prepare an outside water tank with a maximum of 200 liters (53 gal.) and ensure the piping allows the purged gas to be immersed in the water.
Regularly check the pH level of the tank’s contents.
The pH level should never exceed 12.6. Otherwise the water content must be renewed.
Dispose of concentrated waste water in accordance with to local/national regulations.

Note: Prior to replacing the water in the water tank ensure that the purger is switched off and the shut off valve at the flanged purger inlet is closed. Leave the unit in this condition for a period to allow the remaining gas in the piping to be dissolved/released.
Watch out for bubbles. Establish a procedure for regular checking the pH level and bubble pattern. If continuous bubbles are observed in the water tank during ‘‘stand by” (Green light indicator) in normal operation, one or more of the purge solenoid valves needs repair or replacement.

Electrical wiring

The internal wiring of the purger is done at the factory. Only the electrical wiring for the main power supply, the purge point solenoids and optional bus communication needs wiring on site.
It is highly recommended that all external cables coming from the IPS 8 to the power supply and to all purge point solenoids are protected by metallic pipes.

Controller box cover can only be opened at key unlock and with the main switch off.

Note: Authorized personel only

Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-18

Electrical wiring (continued)

Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-19

Light Indicators

Danfoss-089-0879-Intelligent-Purging-System-Ammonia-
fig-22

Lights ON| Status| Compressor ON| Compressor OFF| Purge Valve ON| Purge Valve OFF| Alarm
---|---|---|---|---|---|---
Green| Stand by| | x| | x|
Yellow| Run| x| | | x|
Green & Yellow| Purging| x| | x| |
Green & Yellow & Red| Uninterupted Long time purging (> 150 h)| x| | x*| |
Red| Occurs when: Check list of alarms description| (x)| x| | | x

The purger continuous purging until max running period (default 160 h) is reached and the purger compressor will stop
The purger compressor stops when alarm occurs

Quick Startup
For the fastest possible system configuration after connecting all purge points to the IPS and following first power up of the IPS, follow these simple instructions:

Navigate from the Main Menu to Login
Enter password ‘200’.
Choose ‘Parameters’.
Choose ‘Unit Config’
Choose ‘Valve Settings’
Enter the amount of purge solenoid valves connected to the IPS.

Navigation – built in MCX controller
(Placed at the rear of the front panel door)

After switching on the controller, a display window will momentarily show the actual software version, followed by the default main operating window shown in Fig. 26.
While in operation mode, the Up/Down arrow buttons lead the user to the status windows described in Table 01 below.
By pressing the main menu will show up with the options below

Main menu navigation

Register

---|---|---|---|---|---|---|---|---
StU| General > Setup

y01

|

Main switch

| Release the IPS for operation

OFF: the IPS is forced out of operation

ON: the controller released for operation. Observe if DI1, On/ Off – External Mainswitch must also be ON to release the IPS for operation

|

0

|

1

|

0 – OFF

|

Enum 1

|

RW

|

3001

y07

|

Restore default parameters

| Back factory settings

No: Not active

Yes: All parameters will be returned to factory default settings, and the alarm list will be cleared. The parameter will automatically be set back to ‘No’ when factory reset has finished (after a few seconds).

|

0

|

1

|

0 – NO

|

Enum 2

|

RW

|

3002

SEr| General > Serial settings

SEr

| Serial address (Modbus and CAN)| Enter ID adress of the controller

Only relevant if connected to external equipment (like PLC) or other Danfoss equipment.

|

1

|

100

|

1

| |

RW

|

3006

bAU

|

Serial baudrate (Modbus)

| Baudrate

The system unit usually communicates with 38.400.

0=0

1=12 corresponds to 1200

2=24 corresponds to 2400

3=48 corresponds to 4800

4=96 corresponds to 9600

5=144 corresponds to 14400

6=192 corresponds to 192000

7=288 corresponds to 288000

8=384 corresponds to 38400

|

0

|

8

|

8 – 384

|

Enum 3

|

RW

|

3007

COM

|

Serial settings (Modbus)

| Serial mode

0=8N1

1=8E1

2=8N2

|

0

|

2

|

1 – 8E1

|

Enum 4

|

RW

|

3008

ExP| General > Expansion settings

Ex1

|

Enable expansion

| Enable expansion of extra purge point

Panel with MCX contoller to purge extra purge points, in addition to the 8 purge points at the main IPS

No: Disabel Yes: Enable

|

0

|

1

|

0 – NO

|

Enum 2

|

RW

|

3013

Ex2| Expansion address| Expansion adress of MCX controller

Located in external panel (outside main IPS electrical panel)

| 0| 255| 125| | RW| 3014
CMP| Unit config > Compressor
CM3| PDT| Pull down time

Pull down time of compressor

| 1| CM4| 40| min| RW| 3016
CM4| CST| Compressor start time

See Fig. 2 for details

| 180| 2000| 1440| min| RW| 3017

VA5

|

PLT

| Endless purging max time

Max time for endless purging on one point. When the time has expired, IPS will go to next Purge Point (PP)

|

2

|

768

|

24

|

h

|

RW

|

3018

VAL| Unit config > Valve settings

VA2

|

DeltaTValveOFF

| Temperatue difference Open/Close Main Purge valve Temperature diffrence between opening and and closing setpoint of main Purge valve on DO2|

2.0

|

10.0

|

5.0

| |

RW

|

3019

V10| Max_PP| Max number of Purge points

Enter number of purge point (valves) connected to IPS

| 1| 16| 8| | RW| 3026
BUB| Unit config > Bubbler settings

BU6

|

On/Off Bubbler

| Bubbler connected?

Select if a bubbler is connected and water valve (on DO15)will be controlled

OFF: Function disabled ON: Function enabled

|

0

|

1

|

0 – OFF

|

Enum 1

|

RW

|

3032

BU1

|

Bubbler time

| Bubbler time

Time for water valve to open for adding water to bubbler after start of compressor

|

0

|

720

|

30

|

s

|

RW

|

3033

BU2

|

Bubbler manual off time

| Bubbler manual off time

Only active if BU3, Bubbler man start=ON Se description for BU3, Bubbler man start

|

0

|

100

|

1

|

min

|

RW

|

3034

BU3

|

Bubbler man start

| Manual opening of water valve for bubbler

Select manual opening of water valve – DO15

OFF: Function disabled

ON: Function enabled. Water valve will be open for the time ,given by BU3, Bubbler man start, have expired and close again

|

0

|

1

|

0 – OFF

|

Enum 1

|

RW

|

3035

Human Machine Interface (HMI) is the interface between the IPS and the user. Here the key pad and the display on the MCX15B2

Register

---|---|---|---|---|---|---|---|---

BU4

|

Clean period

| Bubbler cleaning program

Setting of time between start cleaning of bubbler. Se description for BU5, Clean duration

|

0

|

72

|

24

|

h

|

RW

|

3036

BU5

|

Clean duration

| Bubbler cleaning program – duration

Once the Cleaning start period, given by BU4, Clean period, has has passed, the water valve – DO15, will open until the time give by BU5, Clean duration has expired

|

0

|

100

|

5

|

min

|

RW

|

3037

BU7

|

Water stop delay

| Water stop delay

Delay for closing water valve – DO15 after main purge valve – DO2 is closed

|

0

|

360

|

30

|

sec

|

RW

|

3038

LIM| Unit config > Limits settings
LI3| BPLMin| Calibration Low Pressure tranmitter R452A. [bar]

Minimum value

| -1.0| 25.0| 0.1| bar| RW| 3051
F06| BPLMin| Calibration Low Pressure tranmitter R452A. [psi]

Minimum value

| -14.5| 362.6| 1.4| Psi| RW| 3052
LI6| BPHMax| Calibration of High Pressure tranmitter R717. Min [bar]

Maximum value

| -1.0| 59.0| 24.0| bar| RW| 3057
F09| BPHMax| Calibration of High Pressure tranmitter R717. Min [psi]

Maximum value

| -14.5| 855.7| 348.0| Psi| RW| 3058

CM1

|

Setpoint

| Setpoint [bar]

Minimum pressure at when the purging process will start.

If the P717 pressure (AI2) – is lower than this setpoint, Purge point 1 will open, then Purge point 2 automaticly etc.

Once purging a given Purge point and P717 pressure (AI2) – is higher than this setpoint, the cycle with compressor will start.

See also:

V06, PressTotemp V44, SuctionTemp

|

-2147483648

|

2147483647

|

0

| |

Read

|

8162

V47

|

ALARActive

| Alarm active

One or more alarms active 0: No Alarm

1: One or more alarms active

|

0

|

1

|

0

| |

Read

|

8164

V48

|

Setpoint_Out

| Read out of setpoint

Similar to readout on HMI: “”P717Off”” See also CM1, Setpoint

|

-2147483648

|

2147483647

|

0

| |

Read

|

8165

V49

|

Point_Status

| Read out of which Purge point No. is active

Readout of which Purge point number that is actively purging. Similar to number in HMI

|

-32768

|

32767

|

0

| |

Read

|

8167

V50| SysOFF| Read out if IPS is not in operation

Read out if IPS is not in operation

| -32768| 32767| 0| | Read| 8168
V51| PP9| Percentage for purge point valve no. 9

The time percentage split for this purge point

| -2147483648| 2147483647| 0| | Read| 8169
V52| PP10| Percentage for purge point valve no. 10

The time percentage split for this purge point

| -2147483648| 2147483647| 0| | Read| 8171
V53| PP11| Percentage for purge point valve no. 11

The time percentage split for this purge point

| -2147483648| 2147483647| 0| | Read| 8173
V54| PP12| Percentage for purge point valve no. 12

The time percentage split for this purge point

| -2147483648| 2147483647| 0| | Read| 8175
V55| PP13| Percentage for purge point valve no. 13

The time percentage split for this purge point

| -2147483648| 2147483647| 0| | Read| 8177
V56| PP14| Percentage for purge point valve no. 14

The time percentage split for this purge point

| -2147483648| 2147483647| 0| | Read| 8179
V57| PP15| Percentage for purge point valve no. 15

The time percentage split for this purge point

| -2147483648| 2147483647| 0| | Read| 8181
V58| Val9| Status for purge point valve no. 9

This indicates if the purge point is active (open)

| -32768| 32767| 0| | Read| 8183
V59| Val10| Status for purge point valve no. 10

This indicates if the purge point is active (open)

| -32768| 32767| 0| | Read| 8184
V60| Val11| Status for purge point valve no. 11

This indicates if the purge point is active (open)

| -32768| 32767| 0| | Read| 8185
V61| Val12| Status for purge point valve no. 12

This indicates if the purge point is active (open)

| -32768| 32767| 0| | Read| 8186
V62| Val13| Status for purge point valve no. 13

This indicates if the purge point is active (open)

| -32768| 32767| 0| | Read| 8187
V63| Val14| Status for purge point valve no. 14

This indicates if the purge point is active (open)

| -32768| 32767| 0| | Read| 8188
V64| Val15| Status for purge point valve no. 15

This indicates if the purge point is active (open)

| -32768| 32767| 0| | Read| 8189
V66| ResetMem| Reset Memory| 0| 1| 0| | RW| 9902
V66| PLT_Out_Timer| Timeout for PLT timer| -2147483648| 2147483647| 0| | Read| 8191

V67

|

Bubler

| Water solenoid for Bubbler Status

This indicates if the Water solenoid is closed or open. Connected on DO15

|

-32768

|

32767

|

0

| |

Read

|

8193

V68| ICFD_Status| ICFD Status

This indicates if the ICFD is closed or open. Connected on DO6

| -32768| 32767| 0| | Read| 8194
V69| Val16| Status for purge point valve no. 16

This indicates if the purge point is active (open)

| -32768| 32767| 0| | Read| 8195

V70

|

Liter

| Amount of NC liters removed

Show how many liters of Non Condensable gases have been removed in total

|

-2147483648

|

2147483647

|

0

| |

Read

|

8196

V71| PP16| Percentage for purge point valve no. 16

The time percentage split for this purge point

| -2147483648| 2147483647| 0| | Read| 8198
ALARMS

E type: System related

A type: General Process alarms All Auto Reset, except E13

E13

|

Compressor EROR

| Feedback from compressor relay KL1 in electrical panel of IPS

If DI1, Status KL1 – Compressor in operation, is OFF, while DO1, Compressor is ON, it leads to to shut down of IPS

|

0

|

1

|

AUTO

|

ACTIVE

|

Read

|

1901 .05

E14| Liquid alarm| If DI4, LLS 4000 is OFF (liquid in the evaporator), it leads to shut down of IPS| 0| 1| Manual Mode| ACTIVE| Read| 1901 .06
E15| Memory wrong!| Carry out: Reset to factory setting| 0| 1| AUTO| ACTIVE| Read| 1901 .07
E16| Discharge sensor error| AI3, Discharge Temperature R452A sensor fault| 0| 1| AUTO| ACTIVE| Read| 1902 .08
E17| Suction sensor error| AI4, Suction Temperature R452A sensor fault| 0| 1| AUTO| ACTIVE| Read| 1902 .09
E18| Tsh Alarm| Superheat alarm. If V46, TshCalculate> Alarm setting default Delta 15 K (LI7, Tsh Danfoss only.)| 0| 1| AUTO| ACTIVE| Read| 1902 .10
E19| NC.Temp.Sensor Hi temperature| AI5, NonCondensable gas Temperature sensor High temperature alarm| 0| 1| AUTO| ACTIVE| Read| 1902 .11
E20| NC.TempSens Low temperature| AI5, NonCondensable gas Temperature sensor Low temperature alarm (-10 0C)| 0| 1| AUTO| ACTIVE| Read| 1902 .12
E21| TempSucion.Sens Hi temperature| AI4, Suction Temperature R452A sensor. High temperature alarm| 0| 1| AUTO| ACTIVE| Read| 1902 .13
E22| TempSucion.Sens Low temperature| AI4, Suction Temperature R452A sensor. Low temperature alarm| 0| 1| AUTO| ACTIVE| Read| 1902 .14
E23| Configuration error| No Expansion panel found| 0| 1| AUTO| ACTIVE| Read| 1902 .15
E24| Link error| No Expansion panel lost. Check CAN connection| 0| 1| AUTO| ACTIVE| Read| 1902 .00
| I/O CONFIGURATION
| PARAMETER NAME| Description| MIN| MAX| VALUE/ TYPE| UNIT| RW| ADU
AI| ANALOG INPUTS| | | | | | |
1| BPL-1/34| Low Pressure R452A tranmitter| -1.0| 34.0| 0-5 V| | Read| 18503
2| BPH-1/59| High Pressure R717 tranmitter| -1.0| 59.0| 0-5 V| | Read| 18504
3| Dis. Temp| Discharge Temperature R452A sensor| -30.0| 170.0| PT1000| | Read| 18502
4| Suction Temp| Suction Temperature R452A sensor| -50.0| 170.0| PT1000| | Read| 18506
5| NC Temp| NonCondensable gas Temperature sensor| -50.0| 170.0| PT1000| | Read| 18505
6| | | | | | | |
7| | | | | | | |
8| | | | | | | |
9| | | | | | | |
10| | | | | | | |
11| | | | | | | |
12| | | | | | | |
13| | | | | | | |
14| | | | | | | |
15| | | | | | | |
16| | | | | | | |
17| | | | | | | |
18| | | | | | | |
| Parameter Name| Description| Min.| Max.| Value/ Type| Unit| RW| ADU
---|---|---|---|---|---|---|---|---
DI| DIGITAL INPUTS
1| Status KL1| Status KL1 – Compressor in operation| 0| 1| N.O.| | Read| 17504
2| On/Off| On/Off – External Mainswitch| 0| 1| N.O.| | Read| 17502
3| General Alarm| General Alarm – SW prepared| 0| 1| N.O.| | Read| 17503
4| LiquidAlarm| Liquid Alarm – from LLS 4000/4000U| 0| 1| N.O.| | Read| 17505
5| Switch| Switch – Switch to the next purge point (pulse). SW prepared| 0| 1| N.O.| | Read| 17506
6| Bubbler On| Bubbler On – Force Bubbler solenoid ON. SW prepared| 0| 1| N.O.| | Read| 17507
7| | | | | | | |
8| | | | | | | |
9| | | | | | | |
10| | | | | | | |
11| | | | | | | |
12| | | | | | | |
13| | | | | | | |
14| | | | | | | |
15| | | | | | | |
16| | | | | | | |
17| | | | | | | |
18| | | | | | | |
19| | | | | | | |
20| | | | | | | |
21| | | | | | | |
22| | | | | | | |
23| | | | | | | |
24| | | | | | | |
25| | | | | | | |
26| | | | | | | |
AO| ANALOG OUTPUTS
1| | | | | | | |
2| | | | | | | |
3| | | | | | | |
4| | | | | | | |
5| | | | | | | |
6| | | | | | | |
7| | | | | | | |
8| | | | | | | |
9| | | | | | | |
10| | | | | | | |
DO| DIGITAL OUTPUTS
1| Compressor| Compressor| 0| 1| N.O.| | Read| 18007
2| Valve| Valve – Main purge valve AKVA| 0| 1| N.O.| | Read| 18008
3| Green| Green – Lamp in front panel – Standby| 0| 1| N.O.| | Read| 18004
4| Yellow| Yellow- Lamp in front panel – Run| 0| 1| N.O.| | Read| 18005
5| DO_Red| Red – Lamp in front panel – Error| 0| 1| N.O.| | Read| 18006
6| ICFD_Valve| ICFD_Valve| 0| 1| N.O.| | Read| 18017
7| Valve1| Purge valve no. 1| 0| 1| N.O.| | Read| 18009
8| Valve2| Purge valve no. 2| 0| 1| N.O.| | Read| 18010
9| Valve3| Purge valve no. 3| 0| 1| N.O.| | Read| 18011
10| Valve4| Purge valve no. 4| 0| 1| N.O.| | Read| 18012
11| Valve5| Purge valve no. 5| 0| 1| N.O.| | Read| 18013
12| Valve6| Purge valve no. 6| 0| 1| N.O.| | Read| 18014
13| Valve7| Purge valve no. 7| 0| 1| N.O.| | Read| 18015
14| Valve8| Purge valve no. 8| 0| 1| N.O.| | Read| 18016
15| Bubler| Water valve for bubler| 0| 1| N.O.| | Read| 18018
16| Valve9| Purge valve no. 9| 0| 1| N.O.| | Read| 18019
17| Valve10| Purge valve no. 10| 0| 1| N.O.| | Read| 18020
18| Valve11| Purge valve no. 11| 0| 1| N.O.| | Read| 18021
19| Valve12| Purge valve no. 12| 0| 1| N.O.| | Read| 18022
20| Valve13| Purge valve no. 13| 0| 1| N.O.| | Read| 18023
21| Valve14| Purge valve no. 14| 0| 1| N.O.| | Read| 18024
22| Valve15| Purge valve no. 15| 0| 1| N.O.| | Read| 18025
23| Alarm| Alarm| 0| 1| N.O.| | Read| 18002

Occurring active alarms, possible reasons and recommended action

Label| Parameter Name| Description| Possible Reason| Recommended action
---|---|---|---|---
| ALARMS

A01

| ****

General alarm

| ****

Input from AI3 Leads to shut down of IPS 8

| ****

Fault in system connected to the DIO4

| ****

Input from AI3 Leads to shut down of IPS 9

E01

| ****

Temp Sensor Fault

| Indicates no signal from temperature sensor (R452a)| Temperature measurement of the R452a line is out of range| Compare temperature with another temperature sensor reading and replace temperature sensor if needed
E02| BPL Sensor Fault| Indicates no signal from pressure transmitter (R452a)| Broken wire to R452A pressure transmitter| Repair pressure transmitter wire or replace pressure transmitter
E02| BPL Sensor Fault| Indicates no signal from pressure transmitter (R452a)| Electrical supply failure to the R422a pressure transmitter| Repair or replace power source

E02

| ****

BPL Sensor Fault

| Indicates no signal from pressure transmitter (R452a)| Pressure measurement of the R452a line is out of range| Compare pressure with another pressure reading and replace pressure transmitter if needed
E03| BPH Sensor Fault| Indicates no signal from pressure transmitter (R717)| Broken wire to R717 pressure transmitter| Repair pressure transmitter wire or replace pressure transmitter
E03| BPH Sensor Fault| Indicates no signal from pressure transmitter (R717)| Electrical supply failure to the R717 pressure transmitter| Repair or replace power source

E03

| ****

BPH Sensor Fault

E06

| ****

Low pressure BPL

| ****

Indicates too low R452a pressure

| ****

Choked restrictor / wrong piping

| Factory setting 0.3 bar, we can have several problems: a) Restrictor is blocked (clean it).

b) Wrong piping and as addition ammonia is

draining, so check piping’s. c) Check SV float

E07| High pressure BPL| Indicates too high R452a pressure| R452s system pressure too high| a) Expansion valve is not working

b) To high ambient temperature (24 bar /54 ºC)

All alarms except (*) activates red light on box outside
For alarms not resettable and/or cause not identified, please contact Danfoss
Level legend: 0 = Read view, 2 = Installer view (code 200) 3 = Danfoss Service view (Contact Danfoss)

Good Practice

The wiring of Modbus RTU (RS485) must be carried out in accordance with the standard ANSI/TIA/EIA-485-A-1998.
Galvanic separation shall be provided for segments crossing buildings.
The common ground shall be used for all devices on the same network inclusive router, gateways etc.
All bus connections in the cables are made with twisted pair wires.
The recommended cable type for this is AWG 22/0.32 mm2. If used for longer distances please use a AWG 20/0.5mm2 or AWG 18/0.75mm2 cable. The cables characteristic impedance shall be between 100 – 130Ω The capacitance between conductors shall be less than 100 pf per meter.

Note: the length of the cables influences the communication speed used. Longer cable lengths mean lower baud rate should be used. Maximum cable length allowed is 1200m. Use a minimum 20 cm distance between 110V/230V/400V power line cables and bus cables.

Maintenance/Service/Disposal

Table 03 Maintenance checklist – Perform once a year minimum

1	Use P&I dagram and check that all powered components are working properly
2	Check for alarms in the MCX controller
3	Fans, air filters and fins must be cleaned for dirt and dust
4	Expansion valve must be inspected and must be replaced if damaged
5	Ensure expansion valves sensor bulb has good contact with suction line
6	Replace water in water bubble bath. Check pH level frequently and replace

when pH > 12.6
7| Check cover is mounted correctly and all bolts are tightened accordingly
8| Check and verify the amperage of the unit
9| Check for abnormal compressor noises in normal operating conditions (may indicate loose bolts, worn bearings or pistons)

Table 04 Procedure to isolate IPS for servicing

| Multipoint| Single point purging from receiver
---|---|---

1

| Close all supply lines from the purge points of the ammonia system.

Do not close any stop valve between IPS 8 and float valve

| ****

Restart the controller to force pump-down

2| Restart the controller to force pump-down| Wait 20 minutes
3| Wait 20 minutes|
4| Stop the compressor by turning the compressor switch QM1 to the off position| Stop the compressor by turning the compressor switch QM1 to the off position
5| Close the SVA shut-off valve in the drain line (located under the IPS 8)| Close the SVA shut-off valve in the drain line (located under the IPS 8)

6

| Release the remaining system pressure to atmosphere by opening the SNV drain valve. This can also be done by

attaching a permanent magnet on the AKVA 10 valve for forced

opening

| Release the remaining system pressure to atmosphere by opening the SNV drain valve. This can also be done by

attaching a permanent magnet on the AKVA 10 valve for forced

opening

Disposal of the IPS 8
If an IPS 8 unit is worn out and has to be replaced, the disposal must be done in accordance with national legislation and only done by competent personnel.

Danfoss A/S

Climate Solutions
danfoss.com
+45 7488 2222

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