Improving life through heat transfer solutions

SCOPE Sequencer Panel This manual must be made available to the boiler operator at all times

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Table of Contents

I. Warning & Cautions Explained ...................................................................................................... 4 II. Warning & Cautions In Manual ..................................................................................................... 4 III. Safety ................................................................................................................................................. 5 IV. Regulations ....................................................................................................................................... 6

SECTION - 1 INTRODUCTION ........................................................................................................ 7 1.1 General .............................................................................................................................. 7 1.2 Technical Data ................................................................................................................. 7 1.3 Product Overview ........................................................................................................... 7

SECTION 2 - INSTALLATION ........................................................................................................... 9 2.1 General .............................................................................................................................. 9 2.2 Pre-Installation ................................................................................................................. 9 2.2.1 Receiving Inspection .................................................................................................... 9 2.2.2 Siting ............................................................................................................................... 9 2.3 Electrical Requirements ................................................................................................ 10 2.4 Standard Electrical Customer Connections ............................................................. 10 2.5 Enviromental Requirements ........................................................................................ 10

SECTION 3 – POST INSTALLATION ............................................................................................. 11 3.1 Electrical Installation Testing ...................................................................................... 11 3.2 Mechanical Installation Testing .................................................................................. 11

SECTION 4 - COMMISSIONING .................................................................................................... 12 4.1 Commissioning The Panel ........................................................................................... 12 4.2 Connecting To Boilers .................................................................................................. 12 4.3 Connecting To Slow Open Valves ............................................................................. 12 4.4 Connecting To Thermcouples .................................................................................... 12 4.5 Connecting To Steam Flow Rate Sensor .................................................................. 12 4.6 Connecting To BMS ...................................................................................................... 12

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SECTION 5 - OPERATION ............................................................................................................... 13 5.1 General ............................................................................................................................ 13 5.2 Controls ........................................................................................................................... 13 5.2.1 Scope Panel Controls ................................................................................................ 13 5.2.2 Start-Up ........................................................................................................................ 14 5.2.3 Main Screen ................................................................................................................ 16 5.2.3.1 Login .......................................................................................................................... 17 5.2.3.2 Individual Boiler Status .......................................................................................... 18 5.2.3 Status ............................................................................................................................ 19 5.2.4 I/O ................................................................................................................................. 20 5.2.5 Option ........................................................................................................................... 21 5.2.5.1 Logging ...................................................................................................................... 22 5.2.6 Lag / Lead .................................................................................................................... 23 5.2.7 Settings ......................................................................................................................... 24 5.2.7.1 Settings Screen One .............................................................................................. 25 5.2.7.2 Settings Screen Two .............................................................................................. 26 5.2.8 Engineer ....................................................................................................................... 27 5.2.8.1 Engineer Screen One ............................................................................................. 27 5.2.8.2 Engineer Screen Two ............................................................................................. 28 5.2.8.3 Engineer Screen Three .......................................................................................... 29 5.3 Scope Functions ............................................................................................................ 30 5.3.1 Setting Set Points ....................................................................................................... 30 5.3.2 Boiler Change Over ................................................................................................... 30 5.3.3 Slow Opening Valve Control ................................................................................... 30 5.3.3 Scope Shut Down In Emergency Situation .......................................................... 31 5.4 Scope Panel Monitoring ............................................................................................... 31

SECTION 6 - MAINTENANCE ........................................................................................................ 32 6.1 Cleaning ........................................................................................................................... 32 6.2 Weekly ............................................................................................................................. 32 6.3 Six-Monthly ..................................................................................................................... 32

SECTION 7 - TROUBLESHOOTING ............................................................................................. 33

APPENDIX A – SCOPE SPECIFICATION ..................................................................................... 34 Specification ........................................................................................................................... 34 Mechanical Drawing ............................................................................................................ 35 Electrical Drawing - Complete ........................................................................................... 36

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I. Warnings & Cautions Explained

For your safety!

The following WARNINGS, CAUTIONS and NOTES appear in various sections of this manual.

• WARNINGS must be observed to prevent serious injury or death to personnel.• CAUTIONS must be observed to prevent damage or destruction of equipment or loss of operating

effectiveness.• NOTES must be observed for essential and effective operating procedures, conditions and as a

statement to be highlighted.

It is the responsibility and duty of all personnel involved in the operation and maintenance of this equipment to fully understand the WARNINGS, CAUTIONS and NOTES by which hazards are to be eliminated or reduced.

Personnel must become familiar with all aspects of safety and equipment prior to operation or maintenance of the equipment.

II. Warnings & Cautions in Manual

! WARNING !

This product is designed and constructed to withstand the forces encountered during normal use. Use of the product other than as a Sequencer, or failure to install the product in accordance with these

Instructions, product modifications or repair could:

• Cause personal injury or loss of life• Cause damage to the product and/or property

• Invalidate CE marking

These precautions must, at all times, be stored in a safe place near the product installation.

Product complies with Low Voltage Directive (LVD) 2014/35/EU by meeting requirements found within BS EN 60204-1:2018

Product complies with Restriction of Hazardous Substances (RoHS) 2011/65/EU by meeting requirements found within EN IEC 63000:2018

Product complies with Electromagnetic Compatibility Directive (EMC) 2014/30/EU. This product is suitable for Industrial Class A environments. However, it may be exposed to interference

above the Heavy Industrial Immunity limits if:

• The product or wires to or from are near a radio transmitter• If excessive electrical noise is present on the mains supply.

• Cellular telephones and mobile radios could cause interference if used within 1 meter of theproduct or wires to or from it.

! CAUTION !

It is vitally important that the instructions given in this manual are strictly adhered to. Failure to carry out the routine maintenance checks could result in a drastic reduction in the life expectancy of the system

and increase the possibility of fire, explosion, property damage, personal injury or loss of life.

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III. Safety

The instructions provided for the operation and maintenance of the boiler MUST be observed. Failure to do so could result in damage to the boiler and serious personal injury.

! WARNING ! ! WARNING !

Do not try to do repairs or any other maintenance work you do not understand.

Obtain a service manual from Fulton Ltd or call a Fulton service engineer.

Key to gain access to the inside of the panel should be left with the senior member of staff responsible for the equipment, or one that has been empowered by this member and knowing

the risks within an electrical panel.

It is the responsibility of the installer to ensure all parts supplied with the boiler are fitted in a

correct and safe manner

Adequate lighting should be provided when access the internals of panel before any work is

completed.

Understand the electrical circuit before connecting or disconnecting an electrical

component. A wrong connection can cause injury and or damage.

Correct tools should be used for any work that is completed upon the panel; these should be listed

in a method statement before work is carried out.

A defective panel can injure you or others. Do not operate a panel which is defective or has missing parts. Make sure that all maintenance procedures are completed before using the

panel.

ALL Parts and cables before the Isolator may still be live even when this is turned to off, if work is

to be carried out on this section this must be isolated first.

LIFTING EQUIPMENT Make sure that lifting equipment complies with all local regulations and is suitable for the job. You can be injured if you

use faulty lifting equipment. Make sure the lifting equipment is in good condition.

Steam leaks should be frequently looked for within the facility, this panel can allow steam to enter the plant based on the program that has

been set up and thus personnel may not be present to view when this happens and locate

risks.

Operating the panel beyond its design limits can damage the panel, it can also be dangerous. Do not operate the panel outside its limits. Do not

try to upgrade the panel performance by unapproved modifications.

If slow opening valves are fitted these should be tested as frequently as possible, minimum of

monthly tests, this can be tested via the program.

Non-approved modifications can cause injury and damage. Contact your Fulton dealer before

modifying the boiler.

Panel has a mass of 23kg, care should be taken when handling and life risk assessments and method statements should be completed if

anything beyond the normal handling for the personnel involved is completed. All parties who should lift this needs to have access to the mass

of the unit and relevant PPE.

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! WARNING ! ! WARNING !

Never attempt to operate equipment that has failed to pass all the safety checks.

Panel in packaging will have a minimum mass of 25kg, care should be taken when handling and lift risk assessments and method statements should be completed if anything beyond the normal handling for the personnel involved is

completed. All parties who should lift this needs to have access to the mass of the unit.

If any “Manual Reset” limit device trips, DO NOT reset without determining and correcting the

cause. (Manual Reset Limits may include flame safeguard, high or low gas pressure, high

pressure limit.)

This equipment should only be used with Fulton VSRT boilers, unless specified in writing by

Fulton that this is not the case for an application.

Commissioning of the sequencer panel should only be completed by Fulton personnel or

supervised by Fulton personnel. ! CAUTION !

! CAUTION ! Do not try and amend, remove or change the program on the PLC.

Obey all laws and local regulations which affect you and your boiler.

Proper electrical power and type must be supplied to the panel as per the specification, if

unknown request information from Fulton.

IV. Regulations

Observe the following when working on this system:

• Work on gas equipment must only be carried out by a qualified gas engineer• Work on electrical equipment must only be carried out by a qualified electrician• All legal instructions regarding the prevention of accidents• All legal instructions regarding environmental protection• The Code of Practice of relevant trade associations• All current safety regulations as defined by PED, DIN, EN, DVGW, TRGI, TRF, VDE and all locally

applicable standards• Gas Safety (Installation & Use) Regulations - The appropriate Building Regulation either the Building

regulations, the Building Regulation (Scotland) or Building Regulations (Northern Ireland). - TheWater Fittings Regulation or Water Bylaws in Scotland, - The current I.E.T. Wiring Regulations

! CAUTION !

In case of emergency this panel has been designed and constructed to meet all of the essential requirements of the applicable European Directives and subject to proper maintenance should not give

occasion to any hazardous conditions.

If such a condition should occur during commissioning or during subsequent operation of this product, whatever the cause, then the electrical supply to the panel should be isolated immediately, until the fault

has been investigated by a competent person and rectified.

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SECTION - 1 INTRODUCTION

1.1 General

Prior to shipment, the following inspections and tests are made to ensure the highest standards of manufacturing for our customers:

• Material inspections• Manufacturing process inspections• Electrical components inspection• Packing, inspection and final check

This manual is provided as a guide to the correct operation and maintenance of your Fulton equipment, and should be read in its entirety and be made permanently available to the staff responsible for the operation of the boiler. It should not, however, be considered as a complete code of practice, nor should it replace existing codes or standards which may be applicable. Fulton reserves the right to change any part of this installation, operation and maintenance manual.

Installation, start-up, and maintenance of this equipment can be hazardous and requires trained, qualified installers and service personnel. Trained personnel are responsible for the installation, operation, and maintenance of this product, and for the safety assurance of installation, operation, and maintenance processes. Do not install, operate, service or repair any component of this equipment unless you are qualified and fully understand all requirements and procedures.

1.2 Technical Data

For a specification, refer to Appendix A – Scope Specification

1.3 Product Overview

The sequencer panel is fitted into a metal industrial electrical cabinet, with a touch screen HMI on the outside. It is designed to monitor the functions of multiple boilers that are working on the same system, monitoring normal occurrences such as pressure and flow rate - also errors, faults and alarms.

The sequencer panels purpose is to ensure the boilers are ready for process normally when left overnight so they don’t fully cool down and can be safely and gradually brought to temperature/pressure. This is because in normal operation, the boilers be will be powered up quickly when required, if this is done it can cause fatigue on the boilers and will also cost more money due to the added energy of start-up.

Optional slow opening steam valves can also be installed after the boilers, these will gradually open when slowly powering up, this will allow the steam system to slowly re-pressurise. This is an advantage because in a lot of cases as many boiler locations being quickly powered up, the pressure is released very quickly from the boilers, this causes the condensate within the system’s pipework to be transported through it very quickly (water hammer) which can lead to significant damage to the system, potentially health and safety risks and very loud and uncomfortable noises within the system.

The sequencer also automatically switches which boiler(s) (depending on how many are fitted and steam demand) are taking the lead, which are assisting, and which are in reserve (banked); this will help to ensure that they are evenly utilised over their life. The SCOPE sequencer panel will also automatically change a boiler from assist or reserve up to lead or assist with an increased steam demand, so manual intervention is not required. It will do the opposite in a low demand situation from a high demand. It can also change a boiler over to a new lead or assist if the current lead or assist is in an alarm situation to ensure seamless supply of steam, providing of course, that the remaining boilers can cope.

The SCOPE Sequencing panel has optional extras that can be utilised such as controlling of valves after boilers, hotwell and boiler room temperature monitoring and feedback to BMS central system.

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Figure 1.1 - SCOPE Mechanical Drawing

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SECTION 2 - INSTALLATION 2.1 General The installation of a SCOPE Sequencer Panel should be carried out by competent personnel in accordance with all relevant safety regulations. It is the responsibility of the installer to ensure that these regulations are complied with. 2.2 Pre-Installation Prior to delivery, consideration should be given to the following: (planning regulations may call for more consents than those listed below, always check with your Local Planning Authority).

A. Local Planning consents where appropriate B. Consideration given to access for delivery and positioning of the panel C. Preparation of a suitable structure to fit to (see mechanical drawing in 1.3), which must be able to

support the total weight (max 23kg) of the panel under operating conditions. The locations of services to the site required for the system, under operating conditions. The entirety of the Panel must be located between 0.6m and 1.7m from the level at which the user will stand on, the boilers should be visible from the panel location without moving

D. Electricity supply check the loading required/available E. Suitable access for delivery and off-loading F. Safe access to the plant when installation is complete. Appropriate front, side and top clearances

must be maintained (see mechanical drawing in 1.3). This will allow access around the equipment to facilitate maintenance and a safe work environment

2.2.1 Receiving Inspection The customer should examine the equipment for any damage. It is the responsibility of the installer to ensure all parts supplied with the equipment are fitted in a correct and safe manner. 2.2.2 Siting

! WARNING !

Failure to provide required and safe access to the equipment could impede commissioning and maintenance. Service technicians are instructed not to commence commissioning if hazardous conditions

exist.

The panel must be kept closed at all times unless maintenance, installation or commissioning work is being carried out.

! CAUTION !

The Panel must only be fitted in the orientation shown in Appendix A.

(Reference should be made to Utilisation Procedures as stated in IGE/UP/10 Part 1 Communication 1676, and in particular to Section 5, Location of Appliances). The boiler house should be sufficiently sized to allow easy and safe access to all parts of the panel for operational and maintenance purposes. Reference should be made to Appendix A – SCOPE Specification and data product submittals to ascertain the relevant dimensions and weights.

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2.3 Electrical Requirements

! CAUTION !

Any electrical work should be undertaken by a qualified electrician to current local regulations.

! WARNING !

Assure all electrical connections are powered down prior to attempting replacement or service of electrical components or connections of the equipment.

An individual wiring diagram for the boiler is sent with the panel (also in Appendix A). Make sure the information on the electrical drawing corresponds to your voltage and frequency. Check the supply voltage and make sure that there is no over-or under-voltage exceeding 10% of the nominal value. Note: The power ratings and requirements are given in Appendix A - SCOPE Specification and affixed to the CE plate. 2.4 Standard Electrical Customer Connections Steam flow rate - Input Connect the steam flow rate as per the electrical drawing. This will then receive the 4-20mA signal from the sensor and log the steam flow rate after the steam header if the sensor is fitted. Thermocouple plant room temperature - Input Connect the thermocouple plant room as per the electrical drawing. This will then receive the k-type thermocouple input signal from the sensor and log the plant room temperature if the sensor is fitted. Common alarm out - Output Connect the common alarm out as per the electrical drawing. This will then feedback to the BMS if a common alarm has occurred on any of the boilers. Steam pressure re-transmission - Output Connect the Steam pressure re-transmission as per the electrical drawing. This will then provide an analogue output to the BMS of the header steam pressure. 2.5 Environmental Requirements The effects of heat, vibration, shock and electrical interference need to be minimised to as low as possible, for further information read the safety precautions at the start of the manual.

! CAUTION !

Do not install outdoors without contacting Fulton first and adding further weather protection.

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SECTION 3 – POST INSTALLATION 3.1 Electrical Installation Testing Earth bonding should be tested. Electric terminals should be tightened. Cables should be inspected to ensure no exposed conductors are accessible by a small screwdriver or larger. Internally and externally. 3.2 Mechanical Installation Testing Supports for the panel must be tested to ensure they can cope with any vibration in the environment. Any external cable trunking used must be fit for purpose and properly supported.

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SECTION 4 - COMMISSIONING

! WARNING !

Commissioning by qualified persons only.

4.1 Commissioning the Panel It is essential that the commissioning procedures listed below are carried out by a Fulton service engineer who will have the necessary experience and testing equipment to ensure that the installation is not only correct but is operating safely and at optimum efficiency. 4.2 Connecting to Boilers Connect as per electrical drawing. 4.3 Connecting to Slow Open Valves Connect as per electrical drawing and SOV installation manual. Please note the SOV will need their own power source and will not be powered via the SCOPE sequencer panel. 4.4 Connecting to Thermocouples Connect as per electrical drawing and thermocouple installation manual. 4.5 Connecting to Steam Flow Rate Sensor Connect as per electrical drawing and steam flow rate sensor installation manual. 4.6 Connecting to BMS Modbus can be connected into the communication port of the HMI screen inside the panel. This feature must be turned on and enabled in order to use. Contact your service engineer to ensure this can be used.

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SECTION 5 - OPERATION

! CAUTION !

The following instructions are given for the guidance of the operator in the use of the Fulton steam boiler. No responsibility can be accepted by Fulton Ltd if these instructions are ignored.

5.1 General The following instructions are given for the guidance of the competent operator in the use of the SCOPE Sequencing panel and to provide adequate information to ensure that when the panel is put into use it will be done safely and without risk to health. Where original equipment service manuals are supplied, they must be read and understood in conjunction with this manual. All warnings and cautions must be observed. 5.2 Controls The following description of the controls used on the SCOPE Sequencing panel is intended to provide the operator with a basic understanding of the operating principles, which is essential for the continued efficient operation of the panel. 5.2.1 Scope Panel Controls Common alarm input This is an input from the boiler to say the common alarm has triggered. If the sequencing panel receives this and the boiler that sends it is the lead it will, after a short delay, switch a boiler in lag/standby to lead. If the alarm is reset, which requires manual intervention at the boiler, the lead will be switched back to the original boiler. Up to 4 Inputs. Digital input. Boiler firing input Send a signal to the sequencer. Will show on the sequencer HMI that the boiler is running, it will count the run time of the boiler for records and display purposes. Up to 4 Inputs. Digital input. Fully opened valve input Fitted if SOV are fitted. Signal received from the valve that will tell the sequencer panel a valve is fully open; the sequencer panel will stop sending the signal to open the valve. Up to 4 Inputs. Digital input. Fully closed valve input Fitted if SOV are fitted. Signal received from the valve that will tell the sequencer panel a valve is fully closed; the sequencer panel will stop sending the signal to close the valve. Up to 4 Inputs. Digital input.

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Low water indication input Signal received that the boiler has low water. Will display that it has occurred and count occurrences. Sequencer panel will not action from this as common alarm will also be received in this circumstance and the program will take action from this. Up to 4 Inputs. Digital input. Boiler pressure input A 4-20mA Input, representing the boiler pressure. Sequencer panel will display this data. If a boiler can’t maintain the pressure set point for a nominal time (usually 30 minutes) then a further boiler will have its set point increase to help maintain the demand. Up to 4 Inputs. Analogue input. Boiler demand input A 4-20mA Input, representing the demand on the boiler. This is a signal received from the boiler and based off the burner duty. If the boiler shows a demand of 80% or over for a customer set time, then a further boiler will have its set point increased to help with the demand. If demand changes back and is considerably more than needed it will drop the set point of the secondary boilers. Up to 4 Inputs. Analogue input. Steam header pressure input A 4-20mA Input, that will be set from 0-100%, fitted at the steam header after all valves join that will display and record on the panel the pressure going to the plant (if steam header pressure sensor is fitted). Analogue input. Steam flow rate input A 4-20mA Input, that will be set from 0-100%, set based on input upon commissioning. Will be used if a flow rate monitor is fitted after a boiler. Logged and displayed visually on the sequencer panel Analogue input. Thermocouple plant room temperature input A K-type thermocouple, based on min to max temperature set on site. Always set in a high position which is above the boiler(s), must be fitted near the boilers. Will visually show the temperature on the sequencer panel and log it (if plant room thermocouple is fitted). 5.2.2 Start-Up

! CAUTION !

It is recommended that the first power up is completed by a Fulton Engineer.

Steam leaks within the overall system should be thoroughly checked for and prevented before powering up the SCOPE system.

If Slow Opening Valves are installed, they should be checked to be in good operation and condition before being brought into service.

Before the SCOPE panel is switched on all boilers should be turned on and brought up to normal operating pressure/temperature as per the boiler instruction manual. The initial set up must be completed by a trained Fulton engineer to ensure that the Control methodology in place matches that of the steam generation and distribution system. Once this initial set up has taken place, it will be safe to power up the SCOPE system and put it online. The SCOPE start-up routine can vary depending on what equipment is installed. The longest will be if slow opening steam distribution control valves are installed as these must home themselves, so the SCOPE panel knows their location.

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After approximately 60 seconds the SCOPE animated logo will appear on screen and a push button as indicated below.

At this point further checks should be made that the Steam System is both safe and ready to be put into operation.

! CAUTION !

Before the SCOPE system is brought online ensure all boilers and associated equipment’s safety checks according to their respective operation manual have been completed, only then can SCOPE be started, if

in doubt do not enable.

The start button can now be pressed. If the Slow opening valve system is being employed, then at this point the steam valves will all be driven to the closed position if they are not already. Once this action has been completed the SCOPE system will either commence automatically sequenced operation of the steam boilers or if the sequencing has not been set up the panel will await the inputs in order to begin sequencing. The “Main Screen will then be shown (Figure 5.1). This shows a graphical representation of the boilers connected to scope. The picture will be representative of the boiler that is installed.

Figure 5.1 - SCOPE

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5.2.3 Main Screen Below (figure 5.2) is the main screen for SCOPE.

• Menu – Left hand side o The “Main” button returns to the Main/Home page seen in figure 5.2 o The “Status” button takes the user to a screen giving information on the boilers o The “I/O” button takes the user to a breakdown of what options are available and on o The “Option” button allows the viewing of data relating to the installed options o The “Lag/Lead” button allows the change of set-points o The “Settings” button allows the user to change basic configurations o The “Engineer” button allows the engineer to change advanced configurations

• Middle Section

o Along the top of the screen there is the Fulton logo, date and time o If the Fulton logo is pressed it will provide the contact details of Fulton o At the top right is the date and time, if this is pressed access can be gained to the login o Below this is the readouts there are two system overviews displayed: o Header pressure after the boilers o Total demand as a percent o Below this is the boiler read outs which shows the following o A graphical representation of the boiler – if pressed takes to the individual boiler status –

5.2.5 o Demand on boiler - bar chart o Pressure of boiler from 0-13.8 bar g for VSRT - bar chart o Position of slow opening valve if fitted, fully blue means fully open - bar chart o Four indicators: o Highest one indicates setpoint Lead (green), Banked (yellow), Lag (yellow), off (red) o Middle one is Valve position open or closed; Open (green), Shut (red), Opening or Closing o Bottom one is whether this boiler is being sequenced; SEQON – green, SEQOFF red

Figure - 5.2 Main Screen

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5.2.3.1 Login To access the login screen to gain further functionality the date and time can be pressed. There are four login statuses:

• Operator o Very limited functionality, predominantly a viewing login

• Manager o Can change functionality

• Service o Can change functionality as to how the SCOPE sequencer panel works within the

“Engineer” section • Admin

o Full functionality

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5.2.3.2 Individual Boiler Status If a boiler is pressed on the “Main” screen the individual boiler status will be shown. To return to the original screen press “Main” on the left-hand side.

There are a number of statuses:

• The screen shows the boiler type, serial number and date of manufacture • The time since last service (set during service engineer visit) • Whether the boiler is powered up or off (status) • Whether the burner is on or off • The total hours the boiler has run for and its pressure • Whether a service is due soon, immediately or not at all

It is also possible to change to next or previous boiler by pressing the respective buttons.

Figure 5.3 – Individual Boiler

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5.2.3 Status This screen shows the current functionality of all boilers connected to the SCOPE sequencer panel. It will be split down per boiler.

From top to bottom the screen shows:

• Current status of the boiler with respect to its setpoint: o Lead o Assist o Lag o Banked o Off

• Steam pressure inside the boiler • The total hours the boiler has run while connected to the panel • Total number of common alarm occurrences • Total number of low water occurrences • Total number of boiler lockouts occurrences • Individual boiler demand on each individual boiler • Slow open valve position, can be:

o Open o Closed o Fault

Figure 5.4 - Status

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5.2.4 I/O The I/O screen is for fault finding and shows the current status of all I/O functions to and from the sequencer panel. For info on each see electrical drawing in appendix. The ones in the middle section are inputs and outputs and will either be on or off. The ones on the right-hand side are analogue inputs and outputs.

Figure 5.5 – I/O

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5.2.5 Option The “Option” lists the items or options that are currently enabled or connected to the sequencer panel. This will include the following:

• Slow opening valves • Modbus • Logging

The images can be pressed to take to a screen with further information or functionality.

Figure 5.6 - Options

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5.2.5.1 Logging If the logging image is pressed it will show graphical representations of the sensors readings that are currently employed, such as steam pressures and steam demand.

Navigate using the arrows at the bottom right, the logging available is as follows:

• Pressure logging o Header pressure o Individual boiler pressures

• Demand o Individual boiler demand o Average Demand

• Steam flow header (option) o Flow rate at header

Figure 5.7 – Options Logging

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5.2.6 Lag / Lead This screen allows for the viewing of the set points, with information at the top with regards pressure set point and header set point. Then below this it gives an indication as to which boiler is on which set point, if boiler 4 is currently the lead it will say “4” on the right of Lead Boiler. The setpoint this boiler will then be working towards is on the right of its corresponding setpoint. This page is for indication purposes only.

Figure 5.8 – Lead/Lag

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5.2.7 Settings

! CAUTION !

Ensure the setpoints on the Yokogowa UT32A match with the setpoints in the first settings screen, contact Fulton if unsure how to do.

Ensure all set points on the Yokogowa are the same and are the same setpoint number, if not the SCOPE panel will not operate the boilers correctly.

The settings screens are used to configure the SCOPE system. Everything in here needs manager level login or above in order to make changes.

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5.2.7.1 Settings Screen One

At the top of the screen there are demand monitoring and fault changeover buttons.

• Demand Monitoring – This monitors the demand from the boiler. Next to it is the indication that will show on or off. If over 80% for an allotted time it will raise another boiler’s set point if possible

• Fault Changeover – If one of the boilers is locked out for more than the lag time (default 180 seconds) this will allow another boiler to start up and reach lead set point. If the original lead boiler comes back online, it will retake the lead position. Next to it is the indication that will show on or off

Below the demand monitoring is the setpoints the boilers are currently working towards; this will be a list corresponding to the number of boilers. On the right where the numbers are, the set points can be inputted by pressing them, it brings up a keyboard to edit. These must correspond to what has been inputted on the Yokogowa UT32A, contact Fulton if unsure how to do. On the right-hand side below fault changer over is further settings.

• Header low alarm will show up an indication on the screen that the pressure that is inputted is not being achieved. After the header delay time is reached it will start up another boiler. If the numbers on the right are pressed it brings up a keyboard where the pressure can be changed

• Header delay is the time the SCOPE panel will wait before starting up another boiler because the header pressure is too low (default 180 seconds). If the numbers on the right are pressed it brings up a keyboard where the pressure can be changed

• Demand delay brings a further boiler to lead pressure if the demand from the Yokogowa on the lead boiler(s) is above 80% for this time (default 180 seconds). If the numbers on the right are pressed it brings up a keyboard where the pressure can be changed

• Fault delay is the amount of time a boiler will be in fault before another will start up to take its set point. If the numbers on the right are pressed it brings up a keyboard where the pressure can be changed

• Right at the bottom is where the time and date can be changed • Further settings can then be reached by pressing arrows at the bottom

Figure 5.9 – Settings

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5.2.7.2 Settings Screen Two The second settings screen is below (figure 5.10). This screen allows the user to change which boiler is lead and whether they are on.

It is split into increments of 2 hours and by days of the week. For example, if it shows “one” then boiler one will be the lead. To change, each button can be manually pressed, and it will dial through the options. It is advised to not change the lead of the boiler every two hours and give each boiler a reasonable amount of time as lead. At the bottom there is an indication as to which boiler is currently lead.

Figure 5.10 – Settings

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5.2.8 Engineer The engineer screen can only be accessed with a Service login or above. 5.2.8.1 Engineer Screen One

The first screen allows the engineer to change span the inputs from high to low inputs corresponds to what numbers. Each goes from left to right, where the first numerical input is the number at which 4mA is set to and the high number next is set to what the 20mA will be. This should be set at the extremes of the equipment and will only be used for logging purposes. After that there is the operational values these numbers will correspond to what the user can change. These must always be within the 4-20mA scaling range. These are then scaled linearly from 4-20mA. First on the list from top to bottom is:

• Boiler (number) PTD, this relates to each individual boiler’s pressure transducer. This is a pressure scale in bar.

• Header PTD, this relates to the header pressure transducer. This is a pressure scale in bar. • B(number) demand relates to each boiler’s demand from the Yokogowa. This is a percentage scale

from 0-100%. The 4-20mA scaling will nearly always be the same as the operational values. • Boilers present, this allows the engineer to set the number of boilers connected. • At the bottom is an arrow to access the next engineer’s screen.

Figure 5.11 – Engineer

SP-IOMM-2020-1 28

5.2.8.2 Engineer Screen Two The second engineer screen is below (figure 5.12). This one tells the SCOPE sequencing panel what is connected and details about what is connected. This screen allows the engineer to change the currently selected options and configure the boiler details.

On the left-hand side from top to bottom.

• SOV Option is whether the Slow opening valve(s) are connected or not. • Modbus Option is whether the Modbus is connected or not. • Boiler (#) Type is what boiler type is connected. • Boiler (#) Date is the date of manufacture of boiler, found on the name plate.

On the right-hand side from top to bottom.

• Logging is to enable or disable this facility • Boiler (#) Serial is the serial number of the boiler, found on the name plate • Boiler (#) Hours is the length of time the boiler has ran for in hours • At the bottom there is arrows to go to engineer screen 1 or 3

Figure 5.12 – Engineer

SP-IOMM-2020-1 29

5.2.8.3 Engineer Screen Three

! WARNING !

Do not use auto valve calibration when boilers are online or under pressure.

Do not use Auto valve Calibration when maintenance or persons are within the vicinity of the valves.

Engineer screen three is below (figure 5.13).

The SOV modes allow valves to open and close based on the header pressure If the header pressure is below the pressure on the right-hand side, it will cause a boiler that is being brought online to open at the rate in the boxes on the right of “Pulse Open”. If the pressure is higher than that shown in the “Pressure” box and a boiler is being taken offline it will cause it to close at the rate on the right of “Pulse Close”. The pulse open or close is the amount of time in seconds that the SCOPE will drive the valve for and the delay how long it will then wait for. Valve low limit indicates the nominal number that signifies the low position for the valve(s). This will be set by the auto valve calibration below. The valve high limit will work in reverse to the low limit. This should be completed upon every service and record any significant deviation, as this could indicate issues with the valve(s).

Figure 5.13 – Engineer

SP-IOMM-2020-1 30

5.3 Scope Functions This chapter describes the functions of the SCOPE system. 5.3.1 Setting Set Points Up to four boilers can have their “Set-points” controlled by the SCOPE Sequencing Panel. Setpoints are the user defined pressure levels that a boilers pressure will try to maintain whether there is steam demand or not. Each boiler can be placed into up to four different set-points, these set-points are normally a combination of the below:

• Lead – normally the highest pressure required of the boiler • Assist – normally at the highest pressure required of the boiler or just below • Lag – normally pressure below the highest pressure so the boiler can power up quickly if required • Banked – normally a pressure around half the required pressure, set so the boilers do not have to

heat up quickly damaging them and can responds quicker to demand The setpoints must be first setup on the Yokogowa UT32A and recorded. All boilers must have the same setpoints set in the same location. Once the Yokogowa has been setup correctly these figures must be duplicated into the SCOPE Sequencer panel, this is one using “Settings Screen One”, refer to this to complete this process 5.2.7.1. 5.3.2 Boiler Change Over This will normally be completed automatically for the following reasons:

• When a fault occurs • When steam demand on a boiler is too high for the current boiler(s) to handle • When the pre-set time inputted has completed for the current boiler(s)

If the steam demand caused another boiler to increase its set-point when the steam demand, then drops it will after a set time change the set-point back down one level. To affect a boiler changeover “Settings Screen One” and “Settings Screen Two” can be used. 5.3.3 Slow Opening Valve Control

! CAUTION ! If the panel is switched off at the isolator the slow opening valves will remain in the position they were in

until the panel reset function has been activated.

Only if the Slow Opening Valve option is fitted. This will be completed automatically with its primary function to slowly pulse open on start up to prevent a sudden pressurisation of a cold steam system that will cause serious water hammer, which can be a significant safety risk. Valves will be opened based on the boiler set-points or on start-up to home. Only within the Engineer section can changes be made to the SOV.

SP-IOMM-2020-1 31

5.3.3 Scope Shut Down In Emergency Situation SCOPE itself has been risk assessed and designed to not need an in-built e-stop. In the extremely unlikely event of an emergency occurring the isolator on the panel should be turned off. 5.4 Scope Panel Monitoring The SCOPE panel can monitor and log different functions of the boilers it is connected with, some of which can be fed back to the central “Building Management System” – BMS. This can be viewed in the “Option”, “Main” and “Individual Boiler Status” Section.

• Low water alarm facility - will monitor and log the amount of times boiler’s low alarms are triggered • Boiler Firing - will monitor and log when the boiler is firing to help record the “hours run” • Common Alarm - will monitor and log the number of occurrences the boiler’s common alarm is

triggered • Boiler Demand - will monitor and log the boilers burners duty from 0-100%, if over 80% for a

sustained period of time the SCOPE system raises the set point of another boiler if possible. • Steam header Pressure monitor - This will monitor and log the pressure in the header after the

boiler(s) • Boiler plant room temperature - if fitted this will monitor and log the boiler plant room temperature • Header Steam flow rate - if fitted this will monitor and log the header steam flow rate

SP-IOMM-2020-1 32

SECTION 6 - MAINTENANCE

! WARNING !

Read the safety precautions at the start of this manual before starting any maintenance.

! CAUTION !

It is vitally important that the instructions given in this manual are strictly adhered to. Failure to carry out the daily, weekly, monthly and six-monthly checks could result in a drastic

reduction in the life expectancy of the SCOPE system.

Tests should be carried out by a competent person trained to perform such tests. If any test shows that the equipment is not operating correctly, the fault should be investigated and corrected before the boiler is used. Any rectification or repairs should be carried out by trained, competent service personnel. 6.1 Cleaning If the SCOPE panel requires cleaning, a damp cloth (tap or deionised water; or isopropyl alcohol) must be used only. Any other cleaning materials could lead to damage on the product and invalidate the warranty. 6.2 Weekly Visually inspect the internals and externals of the panel for any damage, or sign of ingress. If any parts seem damage turn off panel and contact Fulton immediately. 6.3 Six-Monthly If fitted, Slow opening valves must be tested by Fulton engineers to ensure good running. Fulton service engineers should check internals and test the panel to ensure it is operating correctly, if not parts will be replaced. This can be organised by contacting your Fulton representative and is advised to completed alongside the boiler six monthly and annual maintenance.

SP-IOMM-2020-1 33

SECTION 7 - TROUBLESHOOTING

! WARNING !

Read the safety precautions at the start of this manual before starting any troubleshooting.

To confirm whether a fault has occurred enter the I/O menu and view whether the correct statues are showing.

SP-IOMM-2020-1 34

APPENDIX A – SCOPE SPECIFICATION Specification General information:

• Mains Supply - Basic unit o AC input Voltage – 230V, +10%/-15%; 110V, +10%/-15% - 47-63Hz o AC Current Consumption - 1.23A @ 230VAC / 2.47A @ 110VAC

• Mains Supply - Powering SOV o AC input Voltage – 230V, +10%/-15%; 110V, +10%/-15% - 47-63Hz o AC Current Consumption – 2.37 @ 230VAC / 5.2A @ 110VAC

• Operating temperature o +5oC to 40oC

• Transportation and storage temperature o -25oC to 70oC o Up 70oC for periods not exceeding 24h

• Altitude o Can operate up to 1000m above sea level

• Contaminates o IP22 (EN60204)

• Humidity o 5 to 95% RH

• Weight o Max 23kg

• Dimensions o W – 500mm o H – 500mm o D – 210mm

• Location o Panel must be placed between 0.6 to 1.7m off the ground o Panel door must be allowed to open to 110o o Panel must not be placed on or around hazards o Panel musts be placed with good access o Water or steam pipes should not be placed above

SP-IOMM-2020-1 35

Mechanical Drawing

Figure A 1.1 SCOPE Mechanical Drawing

SP-IOMM-2020-1 36

D-0001-2005SF 04 1 3

0 VDC

TRANSFORMER

L

N

E

PR: 230 VACSEC: 24VDC

MCB 1

MCB 2230 VAC 24VDCMAIN ISOLATOR

LED TOSIGNIFYPOWERIS ON

HMI + CPUUSP-104-B10

0V

ETH1ETH2

D+D-

SGGND+V

+VH

GNDL

-V

RS485+MODBUS

CANBUS

GND

CANBUSOPTION

ETHERNETCONNECTION

RS485 COMMSOPTION

INPUT/OUTPUT MODULEUID-W1616R

CM3 I0I1

I2I3

I4I5

I6

ETHERNETI7

I8I9

I10I11

I12I13

I14I15

CM0CM1

OØO1

O2O3

O4O5

O6O7

O8O9

O10O11

O12O13

O14O15

GND0V

CM2

ANALOG MODULEUIA-0800N

I0ICM0

I1ICM1

I2ICM2

I3ICM3

I4ICM4

I5ICM5

I6ICM6

I7ICM7

GND

MULTI I/O MODULESU1S-WCB1-2

INPUTS

OUTPUTS

I0ICM0

I1ICM2

OØICM3

O1ICM4

RT2+RT2-

RT3+RT3-

THERMOCOUPLES

ANALOG I/O

I0I1

I2I3

I4I5

I6I7

I8I9

OØO1

O2O3

O4O5

O6O7

O8O9

+V

CM1OV

GND

DIGITALINPUTS

DIGITALOUTPUTS

REM

OTE

DIS

ABLE

BO

ILER

1 -

3.10

REM

OTE

DIS

ABLE

BO

ILER

2 -

4.10

REM

OTE

DIS

ABLE

BO

ILER

3 -

5.11

REM

OTE

DIS

ABLE

BO

ILER

4 -

6.11

CO

MM

ON

ALA

RM

BO

ILER

1 -

7.12

CO

MM

ON

ALA

RM

BO

ILER

2 -

9.13

CO

MM

ON

ALA

RM

BO

ILER

3 -

10.1

3

CO

MM

ON

ALA

RM

BO

ILER

4 -

11.1

3

BOIL

ER O

NE

RU

N -

12.1

3

BOIL

ER T

WO

RU

N -

13.1

4

BOIL

ER T

HR

EE R

UN

- 14

.14

BOIL

ER F

OU

R R

UN

- 15

.15

SOV

4 O

PEN

- 16

.15

SOV

4 C

LOSE

D -

18.1

6

SPAR

E - 1

9.16

SPAR

E - 2

0.17

SOV 1 D

RIVE C

LOSED

- 19.16

SOV 1 D

RIVE O

PEN - 18.16

SETPOIN

T 2 BOILER

FOU

R - 17.15

SETPOIN

T 2 BOILER

THR

EE - 16.15

SETPOIN

T 2 BOILER

TWO

- 15.14

SETPOIN

T 2 BOILER

ON

E - 14.14

SPARE - 12.13

SPARE - 11.13

SPARE - 10.13

SPARE - 9.13

SPARE - 8.12

SOV 4 D

RIVE C

LOSED

- 7.11

SOV 4 D

RIVE O

PEN - 6.11

SPARE - 5.10

CO

MM

ON

ALARM

OU

T - 10.18

SPARE - 20.17

BOIL

ER O

NE

PRES

SUR

E - 2

1.19

- 21

.20

BOIL

ER T

WO

PR

ESSU

RE

- 22.

20 -

23.2

0

BOIL

ER T

HR

EE P

RES

SUR

E - 2

3.21

- 24

.21

BOIL

ER F

OU

R P

RES

SUR

E - 2

4.22

- 25

.22

BOIL

ER O

NE

DEM

AND

- 25

.23

- 26.

23

BOIL

ER T

WO

DEM

AND

- 27

.24

- 27.

24

BOIL

ER T

HR

EE D

EMAN

D -

28.2

5 - 2

8.25

BOIL

ER F

OU

R D

EMAN

D -

29.2

5 - 2

9.26

HEA

DER

PR

ESSU

RE

- 30.

27 -

30.2

8

STEA

M F

LOW

- 31

.28

- 32.

28

HEA

DER

PR

ESSU

RE

RET

RAN

SMIT

- 32

.29

- 33.

29

SPAR

E - 3

3.30

- 34

.30

PLANT R

OO

M + - 36.30

HO

TWELL TEM

P - - 35.29

HO

TWELL TEM

P + - 34.29

PLANT R

OO

M - - 36.30

SETPOIN

T 3 BOILER

THR

EE - 21.35

SETPOIN

T 3 BOILER

TWO

- 20.34

SETPOIN

T 3 BOILER

ON

E - 19.34

SOV 3 D

RIVE C

LOSED

- 18.33

SOV 3 D

RIVE O

PEN - 17.33

SOV 2 D

RIVE C

LOSED

- 16.32

SOV 2 D

RIVE O

PEN - 14.32

SPARE - 38.32

SPARE - 37.31

SETPOIN

T 3 BOILER

FOU

R - 22.35

SOV

1 O

PEN

- 37

.31

SOV

1 C

LOSE

D -

38.3

2

SOV

2 O

PEN

- 14

.32

SOV

2 C

LOSE

D -

15.3

2

SOV

3 O

PEN

- 16

.33

SOV

3 C

LOSE

D -

17.3

3

LOW

WAT

ER B

OIL

ER O

NE

- 18.

34

LOW

WAT

ER B

OIL

ER T

WO

- 20

.34

LOW

WAT

ER B

OIL

ER T

HR

EE -

21.3

5

LOW

WAT

ER B

OIL

ER F

OU

R -

22.3

5

82R1 VOLT FREE COMMON ALARMOUT - 23.17

OPTIONS1. SLOW OPENING VALVE OPTIONS

a) 2 SOV - OPTION 1b) 3 SOV - OPTION 2*c) 4 SOV - OPTION 3**

2. THERMO COUPLESa) HOTWELL - OPTION 4b) PLANTROOM - OPTION 5

3. BOILER QUANTITY (TWO - STANDARD)a) THIRD BOILER - OPTION 6b) FOURTH BOILERS - OPTION 7***

4. HEADER STEAM FLOWa) STEAM FLOW - OPTION 8

5. HEADER PRESSURE RE-TRANSMIT - BMSa) PRESS RE-TRANSMIT - OPTION 9

6. VOLT FREE CONTACTS a) ADDED VOLT FREE CONTACTS

*MUST HAVE OPTION 1,6**MUST HAVE OPTION 1,2,6 AND 7***MUST HAVE OPTION 6

OP1 OP2

OP1 OP2OP4 OP5

A1

A2

R1

OP3OP6 OP6 OP6 OP6OP6 OP6

OP7 OP6

OP7 OP7 OP7 OP7 OP7 OP7

OP6 OP7

OP8 OP9

A-0001-0200-OPTIONS

12345 896

1BOTTOM OF TERMINAL2

34

56

78

910

1112TOP OF TERMINAL

3.10

1

3.9

3

4.10

4

5.10

5

5.11

6

6.11

OP3

8

6.11

7.11

97.

12

10

8.12

11

12

9.13

9.13

1314

1516

1718

1920

2122

2324

2526

2728

2930

3132

13

10.1

3

14

10.1

3

7 15

11.1

3

16

11.1

3

17

12.1

3

12.1

3

18

T1 T2 T3 T4 T5 T6 T7 T8 T9 T10

T11

T12

T13

T14

T15

T16

19

13.1

4

20

14.1

4

21

14.1

4

22

15.1

4

23

15.1

5

16.1

5

16.1

5

17.1

5

18.1

6

18.1

6

19.1

6

19.1

6

20.1

7

20.1

7

24

25

26

28

27

29

30

31

32

4243

4421

.19

21.2

0

22.2

0

23.2

0

23.2

1

24.2

1

24.2

2

25.2

2

25.2

3

26.2

3

27.2

4

27.2

4

4546

4748

4950

5152

5354

5556

5758

5960

6162

6364

28.2

5

28.2

5

29.2

5

29.2

6

30.2

7

30.2

8

T17

T18

T19

T20

T21

T22

T23

T24

T25

T26

T27

T28

T29

T30

T31

T32

31.2

8

32.2

8

32.2

9

33.2

9

33.3

0

34.3

0

34.2

9

35.2

9

36.3

0

36.3

0

37.3

1

37.3

1

38.3

2

38.3

2

413334

3536

3738

3940

33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56

57

58

59

60

62

64

66

68

70

72

74

76

61

63

65

67

69

71

73

75

77

79

78

80

6566

6768

6970

7172

7374

7576

7778

7980

14.3

2

14.3

2T3

3

T34

T35

T36

T37

T38

T39

T40

15.3

2

16.3

2

16.3

3

17.3

3

17.3

3

18.3

3

18.3

4

19.3

4

20.3

4

20.3

4

21.3

5

21.3

5

22.3

5

22.3

5

BOTTOM OF TERMINALTOP OF TERMINAL

OP1

OP6 OP7 OP7 OP7 OP6 OP6

OP6

OP6 OP7 OP7

OP7

OP8 OP9 OP4 OP5OP1 OP1 OP1 OP1

OP1 OP1 OP2OP2

SPASPA

SPA SPA

SPA SPA

SPASPA

SPA

7

SERIAL NUMBER: _______________________________

PANEL BUILDER INTIALS:_________________________

PANEL BUILDER SIGNATURE:_____________________

PART NUMBER AND OPTIONS:____________________

SIGNING THIS CONFIRMS THE PANEL HAS BEEN BUILT AS PER THISDRAWING. SCAN THIS SIGNED DRAWING AND KEEP IN MANUFACTURING

DOSSIER, ORIGINAL DRAWING TO GO WITH PANEL.

8384

8586

T42

24.2

1

24.2

2

25.2

2

8788

8990

25.2

3

26.2

3

26.2

4

27.2

4

9192

9394

27.2

5

28.2

5

28.2

5

29.2

6

84 85 86 87 88 89 90 91

24VD

C O

UT

- 24.

21

24VD

C O

UT

- 24.

22

24VD

C O

UT

- 25.

22

24VD

C O

UT

- 26.

23

24VD

C O

UT

- 26.

23

24VD

C O

UT

- 26.

24

24VD

C O

UT

- 27.

24

24VD

C O

UT

- 27.

25

92 93

24VD

C O

UT

- 28.

25

24VD

C O

UT

- 28.

25

9596

9798

29.2

6

30.2

7

30.2

8

31.2

8

99100

101102

32.1

9

32.2

0

33.2

0

100 101 102

0VD

C O

UT

- 33.

21

0VD

C O

UT

- 34.

21

0VD

C O

UT

- 34.

21

0VD

C O

UT

- 35.

22

0VD

C O

UT

- 33.

20

0VD

C O

UT

- 32.

20

103 104 105

0VD

C O

UT

- 35.

22

0VD

C O

UT

- 36.

23

0VD

C O

UT

- 36.

23

Mc12/3

Mc22/18

Mc32/27

Mc83/36 Mc4

2/37

Mc83/37 Mc1

2/8Mc22/17

Mc32/27

Mc42/36

Mc12/8

Mc22/17

Mc12/2 Mc3

2/27

Mc22/12 Mc4

2/36

Mc32/22 Mc8

3/37

Mc42/31 Mc8

3/36

Mc53/6

Mc53/7 Sc1

2/4

Sc12/4 Sc2

2/14

Sc22/14 Sc3

2/24

Sc32/24 Sc4

2/33

Sc42/33 Sc1

2/2

Sc12/2 Sc2

2/12

Sc22/12 Sc3

2/22

Sc32/22 Sc4

2/31

Sc42/31 Sc5

3/4

Sc53/4 Sc6

3/14

Sc63/14 Sc7

3/14

Sx73/14 Sc8

3/23

Sc83/23 Sc9

3/23

Sc93/23 Mc5

3/7Mc53/6

Mc63/17

Mc63/16 Mc6

3/16

Mc63/17 Mc7

3/27

Mc73/26 Mc7

3/26

Mc73/26 Mc1

2/8

Mc12/2 Mc2

2/17

Mc22/12 Mc3

2/27

Mc32/22 Mc4

2/36

Mc42/31 Mc1

2/1

Mc12/1 Mc2

2/11

Mc22/11 Mc1

2/8

Mc22/18 Mc3

2/36

94 95 96 97

24VD

C O

UT

- 29.

26

24VD

C O

UT

- 29.

26

24VD

C O

UT

- 30.

27

24VD

C O

UT

- 30.

28

24VD

C O

UT

- 31.

28

103104

105106

33.2

1

34.2

1

34.2

1

35.2

2

107108

35.2

2

36.2

3

Mc42/37

0VD

C O

UT

- 32.

19

106 107

0VD

C O

UT

- 37.

24

108 10999

T43

T44

T45

T46

T47

T48

109110

36.2

3

37.2

4

37.2

4

CABLE NUMBERSHEET/LOCATION

CABLE NUMBERSHEET/LOCATION

OP6

+V CM5

PC PC

81

2

8182

T41

23.1

5

23.1

7

Mc93/4

Mc93/4

VOLT FREECOMMONALARM IN -23.15

Mc32/21

Mc32/20 Mc4

2/30

Mc42/30

83 98

24VD

C O

UT

- 31.

28

31.2

8

0VD

C O

UT

- 37.

24

110

SP-IOMM-2020-1 37

04 2 3

83Mc1 24VDC TB5-602

TB5-604

TB5-608

CR 12

CR 13

CR03

SEQ R3

73

TB5-603

TB5-605

TB5-6099

Mc1

Mc1

17Mc1

11 14

11 14

21 24

11 14

33Sc1 - BOILER ONE PRESSURE +

34Sc1 - BOILER ONE PRESSURE -

+

-PT2

BOILERPRESSURE

42

Sc1

- BO

ILER

ON

E D

EMAN

D +

Sc1

- BO

ILER

ON

E D

EMAN

D -

TB1-122

D-0001-2005SF

PC 1YOKOGOWA

205+ 206

-

41

SEQ R3

13 15

99Mc1 - 0VDC

SEQ R4

13 1574Mc1

20Mc1

SETPOINT 3 BOILER ONE

SETPOINT 2 BOILER ONE

LOW WATERBOILER ONE

COMMONALARMBOILER 1

BOILER ONERUN

85Mc2 24VDC TB5-602

TB5-604

TB5-608

CR 12

CR 13

CR03

SEQ R3

75

TB5-603

TB5-605

TB5-60911

Mc2

Mc2

19Mc2

11 14

11 14

21 24

11 14

35Sc2 - BOILER TWO PRESSURE +

36Sc2 - BOILER TWO PRESSURE -

+

-PT2

BOILERPRESSURE

44

Sc2

- BO

ILER

TW

O D

EMAN

D +

Sc2

- BO

ILER

TW

O D

EMAN

D -

TB1-122

PC 1YOKOGOWA

205+ 208

-

43

SEQ R3

13 15

100Mc2 - 0VDC

SEQ R4

13 1576Mc2

22Mc2

SETPOINT 3 BOILER TWO

SETPOINT 2 BOILER TWO

LOW WATERBOILER TWO

COMMONALARMBOILER 2

BOILER TWORUN

87Mc3 24VDC TB5-602

TB5-604

TB5-608

CR 12

CR 13

CR03

SEQ R3

77

TB5-603

TB5-605

TB5-60913

Mc3

Mc3

21Mc3

11 14

11 14

21 24

11 14

37Sc3 - BOILER THREE PRESSURE -

38Sc3 - BOILER THREE PRESSURE -

+

-PT2

BOILERPRESSURE

46

Sc3

- BO

ILER

TH

REE

DEM

AND

+

Sc3

- BO

ILER

TH

REE

DEM

AND

-

TB1-122

PC 1YOKOGOWA

205+ 208

-

45

SEQ R3

13 15

101Mc3 - 0VDC

SEQ R4

13 1578Mc3

24Mc3

SETPOINT 3 BOILER THREE

SETPOINT 2 BOILER THREE

LOW WATERBOILER THREE

COMMONALARMBOILER 3

BOILERTHREE RUN

89Mc4 24VDC TB5-602

TB5-604

TB5-608

CR 12

CR 13

CR03

SEQ R3

79

TB5-603

TB5-605

TB5-60915

Mc4

Mc4

23Mc4

11 14

11 14

21 24

11 14

39Sc4 - BOILER FOUR PRESSURE -

40Sc4 - BOILER FOUR PRESSURE -

+

-PT2

BOILERPRESSURE

48

Sc4

- BO

ILER

FO

UR

DEM

AND

+

Sc4

- BO

ILER

FO

UR

DEM

AND

-

TB1-122

PC 1YOKOGOWA

205+ 208

-

47

SEQ R3

13 15

102Mc4 - 0VDC

SEQ R4

13 1580Mc4

26Mc4

SETPOINT 3 BOILER THREE

SETPOINT 2 BOILER THREE

LOW WATERBOILER FOUR

COMMONALARMBOILER 4

BOILERFOUR RUN

OPTION 6 - BOILER THREE OPTION 7 - BOILER FOUR

PC PC

REMOTEDISABLEBOILER 1

SS1

SEQUENCERON/OFFSWITCH

R4 - 4.6

R3 - 4.6

1Mc1

211212210

84Mc1 REMOTE

DISABLEBOILER 2

SS1

SEQUENCERON/OFFSWITCH

R4 - 14.16

R3 - 14.16

3Mc2

211212210

86Mc2 REMOTE

DISABLEBOILER 3

SS1

SEQUENCERON/OFFSWITCH

R4 - 24.25

R3 - 24.25

5Mc3

211212210

88Mc3 REMOTE

DISABLEBOILER 4

SS1

SEQUENCERON/OFFSWITCH

R4 - 24.25

R3 - 24.25

7Mc4

211212210

90Mc4

SP-IOMM-2020-1 38

24VDC FROMEXTERNAL

VALVE ACTUATOR

0V0V

5253

5556

L^

0VDC

L˅24V

5 6

1 3 4

SOV

1 D

RIV

E C

LOSE

D

SOV

1 D

RIV

E O

PEN

28 30

SOV 1 O

PEN

SOV 1 C

LOSED

6163

24VDC FROMEXTERNAL

VALVE ACTUATOR

0V0V

5253

5556

L^

0VDC

L˅24V

5 6

1 3 4

SOV

2 D

RIV

E C

LOSE

D

SOV

2 D

RIV

E O

PEN

66 68

SOV 2 O

PEN

SOV 2 C

LOSED

6567

24VDC FROMEXTERNAL

VALVE ACTUATOR

0V0V

5253

5556

L^

0VDC

L˅24V

5 6

1 3 4

SOV

3 D

RIV

E C

LOSE

D

SOV

3 D

RIV

E O

PEN

70 72

SOV 3 O

PEN

SOV 3 C

LOSED

6971

24VDC FROMEXTERNAL

VALVE ACTUATOR

0V0V

5253

5556

L^

0VDC

L˅24V

5 6

1 3 4

SOV

4 D

RIV

E C

LOSE

D

SOV

4 D

RIV

E O

PEN

6 8

SOV 4 O

PEN

SOV 4 C

LOSED

2527

OPTION 1 - SOV 1 AND 2 OPTION 2 - SOV 3 OPTION 3 - SOV 4

HEADER PRESSURE

Mc5 Mc5 Mc6 Mc6 Mc7 Mc7 Mc8 Mc8

Mc5 Mc5 Mc6 Mc6 Mc7 Mc7 Mc8 Mc8

49Sc5

50Sc5

+

-PT2

HEADERPRESSURE

51Sc6

52Sc6

+

-FR

FLOW RATESENSOR

53Sc7

54Sc7

+

-BMS

BUSINESSMANAGEMENTPRESSURE IN

COMMON ALARM

04 3 3D-0001-2005SF

57Sc8

58Sc8

+

-HWT HOTWELL

THERMOCOUPLE

PLANT ROOM THERMOCOUPLE

59Sc9

60Sc9

+

-PRT PLANT ROOM

THERMOCOUPLE

CABLESMc1 - 8 REQUIRED - 1, 9, 17, 20, 73, 74, 81, 96Mc2 - 8 REQUIRED - 3, 11, 19, 22, 75, 76, 82, 97

OPTION 8 - FLOW RATE SENSOR

OPTION 9 - BMS PRESSURE RE-TRANSMIT

OPTION 4 - HOTWELL THERMOCOUPLE

OPTION 5 - PLANT ROOM THERMOCOUPLE

Mc3 - 8 REQUIRED - 5, 13, 21, 24, 77, 78, 83, 98Mc4 - 8 REQUIRED - 7, 15, 26, 26, 79, 80, 84, 99Mc5 - 4 REQUIRED - 28, 30, 61, 63Mc6 - 4 REQUIRED - 65, 66, 67, 68Mc7 - 4 REQUIRED - 69, 70, 71, 72Mc8 - 4 REQUIRED - 6, 8, 25, 27Mc9 - 2 REQUIRED - 81,82Sc1 - 4 REQUIRED - 33, 34, 41, 42Sc2 - 4 REQUIRED - 35, 36, 43, 44Sc3 - 4 REQUIRED - 37, 38, 45, 46Sc4 - 4 REQUIRED - 39, 40, 47, 48

Sc6 - 2 REQUIRED - 51, 52Sc5 - 2 REQUIRED - 49, 50

Sc7 - 2 REQUIRED - 53, 54Sc8 - 2 REQUIRED - 57, 58Sc9 - 2 REQUIRED - 59, 60

DOC START

REVISION DATA

01

REVISION DESCRIPTION

PC PC

A-0001-0200-OPTIONS

12345 8967

SERIAL NUMBER: _______________________________

COMMISIONER'S INTIALS:_________________________

COMMISIONER'S SIGNATURE:_____________________

PART NUMBER AND OPTIONS:____________________

SIGNING THIS CONFIRMS THE PANEL HAS BEEN BUILT AS PER THISDRAWING. SCAN THIS SIGNED DRAWING AND KEEP IN MANUFACTURING

DOSSIER, ORIGINAL DRAWING TO GO WITH PANEL.

30/10/20

DATE

CHANGED COMMON ALARM TOVOLT FREE. MOVED ALONG 24VDCAND 0VDC TERMINALS.ADJUSTED THE BOILER PANELELECTRICAL DESIGN, SIMPLYFYING.VOLT FREE OPTION ADDED.

02 10/11/20

81Mc9

82Mc9

+

-BMS

BUSINESSMANAGEMENTSYSMEM

ADDED T41 TERMINAL AND PUSHEDOLD T41 UP ONE

03 01/02/21

MOVED RELAYS DOWN TODISTINGUISH FROM ON/OFFSWITCHES

04 08/03/21

SP-IOMM-2020-1 42