This document summarizes various components used in motorized valve systems. It describes two port and three port motorized valves that control the flow of hot water and heating. It also discusses cylinder thermostats that govern hot water temperature, room thermostats located on walls, boiler thermostats that control primary water temperature, and programmers that allow timed control of heating and hot water. Additional components like frost thermostats, pipe thermostats, system cleaners, inhibitors, radiator valves, balancing valves, keys, and thermostatic radiator valves are also overviewed.
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This is a general idea discussion, how we can improve our control methods by adding some control elements in conventional control loops (specially in solid fuel boilers)
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LinkedIn - https://www.linkedin.com/feed/update/urn:li:activity:6703977987584389120
YouTube - https://youtu.be/zS18jm5PCVs
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2. Components
Two port motorised valve
Commonly know as a zone valve, this can be
activated by a room or cylinder thermostat.
This allows hot water and the heating
circuits to be controlled separately.
When there is a call for heat, the zone valve opens and allows
water from the boiler to circulate around the pipework. Likewise,
when the thermostat is up to temperature, the zone valve is
closed (isolates).
3. Components
Three port mid-position valve
This valve controls the flow of water to both the heating and hot
water circuits. It reacts to both the cylinder and room
thermostat.
The three ports are labeled:
• AB = flow for the boiler
• A = central heating
• B = hot water
5. Components
Cylinder thermostat
Situated one-third of the way up a hot water cylinder, governing
the temperature of the hot water. This is linked to the zone valve
or three port valve.
These can be a bi-metallic strip, volatile liquid or gas type.
Commonly set to a maximum of 600C.
6. Components
Room thermostat
Situated 1.5 metres up a wall and approximately 3 metres away
from a heat source, and not on an outside wall.
These can be a basic bi-metallic type, or nowadays a
programmable, Wi-Fi, app-activated and digital type, according
to the customer’s requirements.
More commonly, a compensating room thermostat can be fitted.
7. Components
Boiler thermostat
This is located on the boiler and governs the temperature of the
primary water. This water heats up the heat exchanger in the hot
water cylinder, as well as heating the heat emitters in each room.
These commonly have a phial attached to the return pipe of the
boiler indicating when the system is up to temperature.
8. Components
Programmer
These allow independent timed control of both the hot water
and the central heating. They are commonly situated in the
kitchen or airing cupboard of a property.
They often have a boost or override button to allow the system
to operate outside of the programmed timings.
9. Components
Frost thermostat and pipe thermostat
These are incorporated into a system to stop vulnerable parts of
the system from freezing.
They override the programmer and other thermostats, and
should be set between 30C and 50C.
The frost thermostat is positioned in vulnerable areas and the
pipe thermostat is strapped to vulnerable pipes. They will
activate the circulator and boiler briefly to warm up the system
water.
10. Components
Working safely
Prior to working on any electrical component, including the
boiler, ensure that no one can accidentally turn on the system by
using the safe isolation procedure.
To do this, switch off the fused spur, remove the fuse, lock off
the fuse holder and place a sign indicating the system is being
worked on.
When working on a domestic system don’t forget to let the
customer and any other person in the property know
approximately how long it will be out of service for. This also
applies when decommissioning a system.
11. Components
Magnetic system cleaner
There are many different styles and makes but essentially they
contain a magnet that collects all the corroded iron particles –
magnetite. The magnet is removed when the system is serviced,
flushing the magnetite away and keeping the system water in
good condition.
12. Components
Inhibitor
A chemical protection against scale and corrosion within a
central heating system. This can be added via the F&E or through
a radiator. The inhibitor level can be tested and topped up if
necessary.
Companies claim that inhibitors extend the life of the system and
ensure maximum efficiency and minimum fuel usage. (The
primary vent must terminate over the F&E due to the chemical
content of the primaries.)
13. Components
Radiator valves
A radiator valve is fitted at either end of a domestic radiator: one
with a wheel head, which the customer can turn. This alters the
flow of water into the radiator to suit the customer’s needs.
The other end will be a lock shield valve. This is an identical
valve, but the wheel head has been removed and a lock shield
cap put in its place. The lock shield valve is for the engineer to
use so the system can be balanced.
14. Components
Balancing the system
The lock shield valve is used to balance the system when the
system is commissioned.
If the system is left unbalanced, the radiators will not warm up
uniformly and there will not be the required 100C temperature
difference between the flow and return pipework.
15. Components
Balancing the system
As the system water is circulated around the system, there is
resistance offered by the pipework, fittings and types of bends.
As water will always take the easiest option, this resistance
means some radiators will heat up more quickly and some
radiators may stay cool.
To balance the system correctly, the index radiator needs to be
identified. This is the radiator that heats up last and therefore
has the greatest resistance.
16. Components
Balancing the system
1.Open all the radiator valves on the system fully.
2.Fire the boiler.
3.Feel which radiator heats up first, mark it 1 and close the
wheel head valve off.
4.Feel for the second, third, fourth radiator etc until all the
radiators have been marked in sequence of heating.
5.The final radiator to heat up and to be marked should be the
index radiator.
17. Components
Balancing the system
Now count the number of full turns it takes to close the lock
shield valve from the open position.
Divide the number of turns by the number of radiators, plus one
installed in the system.
Eg: My system has 9 (9 + 1 = 10) radiators and the lock shield
valve rotates 5 full turns
5
10
= half a turn
18. Components
Balancing the system
Work from the index radiator back to the first radiator to warm
up.
• Leave the index radiator lock shield valve fully open
• Radiator 9: close the lock shield valve half a turn
• Radiator 8: close the lock shield valve one full turn
• Radiator 7: close the lock shield valve one-and-a-half turns etc
• Radiator 1: leave the lock shield valve just open
This is a rule of thumb method but shows the principle of
balancing a system.
19. Components
Balancing the system
Now fire the boiler up again and allow the system to warm up and
reach temperature.
Feel the radiators as they warm up. They should be warming up
uniformly.
When the system is warm there should be a 100C temperature
difference between the flow and return pipework. This can be
measured by using clip-on thermometers or digitally.
20. Components
Radiator key
To make up a radiator, you will need PTFE tape or hemp and
paste to create the watertight seal on the threads. The valves are
screwed into the radiator
using a radiator key.
TBOE – top bottom opposite ends
BBOE – bottom bottom opposite ends
To bleed the radiator of any air or gas, you will need a bleed key
for the top of the radiator.
21. Components
Bleed key
At the top of every radiator and towel rail there is an air release
valve to allow the manual release of air.
22. Components
Thermostatic radiator valve
Building Regulations part L and the Heating Compliance Guide
require TRVs to be fitted on systems.
This valve replaces the wheel head valve, allowing the customer
to control the temperature of a single radiator. It has a special
head fitted to the valve, which reacts to ambient air
temperature. Within the head there is a sensor containing a
volatile liquid, which expands when heated. The warmer the
room the greater the expansion, which closes off the valve by
pushing a pin down in the valve.
As the room cools so the liquid contracts, opening the valve and
allowing the radiator to heat up.
23. Components
Thermostatic radiator valve
One radiator in the circuit must be left without a TRV fitted. Building
Regulations state this should be the radiator in the same room as the
room stat.
If a radiator fitted with a TRV is removed for decorating, it is important
to fit a decorators cap over the head to the valve.
If the customer has long curtains and requires a TRV to be fitted, a
remote head could be installed.
TRVs used to be fitted only on the flow but
nowadays they are reversible. Be
careful when fitting these otherwise
the customer could end up with a noisy
radiator.
24. Components
Thermostatic radiator valve
These items can be fitted with remote sensors, which allow the
TRV to operate if long curtains or other furniture could interfere
with the operation of the phial.
25. Components
Automatic bypass valve
Most modern systems are fitted with an ABV. This allows a build
up of system pressure due to thermostatic radiator valves
closing, with the circulator still working. This is released through
the system pipework, thus prolonging the pump life.
The ABV is fitted between the primary flow
and return pipe; some boilers have an ABV
already installed. This allows the flow of water
through the boiler if the TRVs and zone
valves close.
26. Components
Filling loop
A flexible, temporary connection between the incoming mains
and the central heating system. It is used on pressurised sealed
systems, including combination boilers.
The Water Regulations require the loop to be disconnected after
use. Either side of the loop is a quarter-turn isolator and the
incoming mains is protected by a double check valve, as required
by the Water Regulations.
27. Components
Expansion vessel
These are used on a sealed system to take up the 4% expansion
of the heated water and are sized according to the system. Inside
the vessel is a rubber diaphragm or bladder. On the dry side it is
charged through a schrader valve to 1bar pressure. On the wet
side the expanded water pushes against the diaphragm,
compressing the air but containing the expansion.
28. Components
Pressure relief valve
In case the sealed system over-pressurises a PRV is installed,
allowing the excess pressure to be discharged safely. The
discharge pressure is factory set.
A common cause for the build-up of pressure is when the
expansion vessel fails or loses its charge.
29. Components
Automatic air release valve
Fitted at high points in the system, these are commonly found
fitted inside boilers. They allow air to be released from the
system, closing automatically.