EU F-Gas regulations – Stationary Air Conditioning & Heat Pumps

Stationary Air Conditioning & Heat Pumps

This guidance is for organisations affected by the 2014 EU F-Gas Regulation (517/2014). The F-Gas
Regulation creates controls on the use and emissions of fluorinated greenhouse gases (F-Gases)
including HFCs, PFCs and SF6.

In the stationary air-conditioning and heat pump sectors, the EU F-Gas Regulation affects the use of HFCs as refrigerants. The 2014 EU F-Gas Regulation replaces the 2006 Regulation, strengthening all of the 2006 requirements and introducing a number of important new measures.

The EU F-Gas Regulation is an important piece of legislation that will result in significant reductions in the emissions of F-Gases. These are very powerful greenhouse gases, with global warming impacts that are several thousand times higher than CO2 (per kg of gas emitted). All EU Member States agree that it is important to reduce emissions of these gases.

This Information Sheet describes the requirements that apply to stationary air-conditioning and heat
pumps. 

Sector description

EU F-Gas Regulations – Stationary Air-Conditioning & Heat Pumps


The stationary air-conditioning and heat pump sector is a major user of HFCs. The majority of end
user applications are in domestic, commercial and public sector buildings. There are 5 main categories
of equipment used in the stationary air-conditioning and heat pump sector:

a) Single split systems. These consist of an indoor cooling unit connected to an outdoor
condensing unit (compressor and condenser). HFC 410A is dominant in new systems and
refrigerant charge is typically between 1 kg and 5 kg.

b) Large split systems and packaged units. This includes a range of direct expansion airconditioning
systems including multi-splits, VRF systems and rooftop packaged plants. HFC
410A is dominant in new systems and refrigerant charge is typically between 5 and 50 kg.

c) Chiller systems. These are usually used to cool large buildings, using chilled water as a
secondary refrigerant. Large chillers often use HFC 134a and have typical refrigerant charges
between 50 kg and 500 kg. Smaller chillers might use HFC 410A or HFC 407C and have charges
between 5 kg and 50 kg.

d) Heating only heat pumps. This includes air source, ground source and water source heat
pumps for building heating. Domestic systems often use HFC 410A and typically have a
refrigerant charge between 3 kg and 5 kg. Larger systems using various refrigerants are used
in commercial, industrial and public buildings.

e) Hermetically sealed movable air-conditioning systems. Small integral air-conditioning units
that can be moved between different rooms in a building. These usually use HFC 134a or HFC
410A and have refrigerant charges of well under 1 kg.

Many stationary air-conditioning systems are “reversible”, meaning that they can operate as cooling
systems in hot weather and heat pump heating systems in cold weather.
VRF systems are usually designed to operate simultaneously in cooling and heating modes, for
different parts of a building.

Purchase of new equipment

EU F-Gas Regulations – Stationary Air-Conditioning & Heat Pumps


 HFC Bans
The rules for purchase of new equipment depend on the type and size of equipment. There are two
bans on the use of HFCs in new stationary air-conditioning and heat pump systems:
• Ban 1: Use of HFCs with a GWP1 above 150 will be banned in all new hermetically sealed
movable air-conditioning equipment placed on the EU market after January 1st 2020

• Ban 2: The use of HFCs with a GWP above 750 will be banned in single split systems
containing less than 3 kg of refrigerant placed on the EU market after January 1st 2025

There are no HFC bans that apply to larger air-conditioning systems (including chillers and larger split
systems) or to heating only heat pumps.

When purchasing new air-conditioning and heat pump equipment you should also consider the HFC
phase down
. This will reduce the quantity of HFCs that can be sold in the EU – by 2030 there will be
an 80% cut in HFC supply. Equipment bought now will still be operating when deep cuts in HFC supply
are in force.

Irrespective of the bans described above, it makes sense to always purchase equipment
using refrigerants with the lowest practical GWP to minimise the future impact of the phase down

Operation of existing equipment

EU F-Gas Regulations – Stationary Air-Conditioning & Heat Pumps


The 2014 F-Gas Regulation includes a number of requirements that affect the use and maintenance
of existing stationary air-conditioning and heat pump equipment containing HFC refrigerants.

The rules depend on the type and size of equipment being used. The regulations affecting existing
equipment relate to
(a) leak prevention,
(b) record keeping, and
(c) the use of trained technicians.
These requirements are described below.

Leak prevention and mandatory leak checks

EU F-Gas Regulations – Stationary Air-Conditioning & Heat Pumps


The intentional release of F-Gases into the atmosphere is prohibited and operators of all stationary air-conditioning and heat pump equipment must take all measures that are technically and economically feasible to minimise leakage. Where leaks are detected operators must carry out repairs without undue delay.

Under the 2006 Regulation, the legal responsibility for preventing F-Gas releases was only given
to the operator (usually the owner) of the equipment. In the 2014 Regulation there is a similar legal
responsibility given to third party contractors carrying out installation, maintenance, leak checking or
refrigerant recovery on behalf of operators.

Mandatory leak checks are required on all stationary air-conditioning and heat pump equipment
above certain size thresholds. Under the 2006 EU F-Gas Regulation, the thresholds were set in terms of
the physical quantity of refrigerant in the system – those containing more than 3 kg required a regular
leak check. Under the 2014 EU F-Gas Regulation the requirements are similar, but the size thresholds
are defined in terms of tonnes CO2 equivalent.

These new CO2 equivalent (CO2e) size thresholds mean that the kg threshold for each refrigerant is different. Refrigerants with a higher GWP (e.g. HFC 410A) will have a lower size threshold than refrigerants with a lower GWP (e.g. HFC 134a). Table 1 shows leak testing requirements under both Regulations. Example thresholds are given for HFC 410A and HFC 134a.

The new CO2e thresholds will require some systems below the old 3 kg threshold to be regularly leak
tested. The size threshold for HFC 410A is only 2.4 kg. Operators should check which of their systems are affected by the new CO2e size thresholds. Most of the leak checking rules apply from 1st January 2015, continuing the similar requirement in the 2006 Regulation.

However, for systems with less than 3 kg, the 5 tonnes CO2e threshold only applies from 1st January 2017.
If a leak is found during a mandatory leak check it must be repaired without undue delay and the
leak test repeated within one month to ensure the repair was effective.

For all stationary air-conditioning & heat pump systems containing over 500 tonnes CO2e

there is a mandatory requirement for an automatic leak detection system to be fitted. This is a
continuation of a similar requirement in the 2006 Regulation, although the size threshold is changed
from 300 kg to 500 tonnes CO2e. This will have an impact on plants using higher GWP refrigerants.
For HFC 410A the threshold for automatic leak detection systems is reduced from 300 kg to 240 kg.
This rule applies from 1st January 2015.

However, for lower GWP refrigerants it is possible that the new size threshold is higher than the old threshold of 300 kg. For HFC 134a, which is commonly used in large chillers, the new threshold is 350 kg.
An automatic leak detection system is defined as a “calibrated mechanical, electrical or electronic
device for detecting leakage of F-Gases which, on detection, alerts the operator or a service company
of any leakage”.

Automatic leak detection systems must be tested at least every 12 months to ensure proper functioning.

Record keeping

EU F-Gas Regulations – Stationary Air-Conditioning & Heat Pumps


Operators of stationary air-conditioning and heat pump equipment must keep records for each piece
of equipment that is subject to a mandatory leak check (i.e. above the 5 tonnes CO2e threshold). The
records that must be kept are similar to those required under the 2006 Regulation:

a) quantity and type of F-Gas installed

b) quantities of F-Gas added during installation, maintenance or when repairing a leak

c) whether the F-Gases used have been recycled or reclaimed (including the name and
address of the recycling or reclamation facility and, where applicable, the certificate number).

d) quantity of any F-Gases recovered

e) the identity of the undertaking that installed, serviced or decommissioned the equipment,
including, where applicable, their certificate number

f) dates and results of all mandatory leak checks

g) NEW: if the equipment was decommissioned, the measures taken to recover and dispose of
the F-Gases.

Records must be kept by the plant operator for at least 5 years. Records collected by a
contractor on behalf of an operator must be kept by the contractor for at least 5 years
The records shall be made available on request to the UK Government’s competent authority (i.e. the
Environment Agency) or to the Commission.

Service Ban

EU F-Gas Regulations – Stationary Air-Conditioning & Heat Pumps


For refrigeration equipment using high GWP refrigerants there is a new Service Ban. It is important
to note that the Service Ban does not apply to stationary air-conditioning and heat pump systems.
Use of trained technicians.

All refrigerant handling operations on stationary air-conditioning and heat pump equipment
containing HFC refrigerants must be carried out by suitably trained technicians holding an F-Gas
handling certificate and working for an F-Gas Certificated company. This includes plant installation,
leak testing, maintenance and end-of-life decommissioning.

End of Life Requirements

EU F-Gas Regulations – Stationary Air-Conditioning & Heat Pumps


Any stationary air-conditioning and heat pump equipment containing HFC refrigerants being disposed
of at end-of-life must undergo an HFC recovery process.

The HFC refrigerant must be recovered by a certificated technician before the plant is dismantled.
Modern refrigerant recovery machines should be able to remove well over 95% of the refrigerant in
an old system.

For hermetically sealed movable air-conditioning systems the refrigerant can be recovered before the
plant is sent for disposal. Alternatively the whole unit can be sent to a specialist recovery facility
where HFCs can be recovered.

All recovered F-Gases can either be:

a) sent for destruction by incineration at a licenced waste facility

b) sent to a specialist plant that can re-process the old refrigerant into a gas with properties
identical to virgin refrigerant, to create “reclaimed refrigerant”

c) given a basic cleaning process, to create “recycled refrigerant”.

Given the HFC supply shortage that will be created by the phase down process, it is worth trying to
send the old refrigerant for reclamation as it may have a good residual value. If the old refrigerant is
too contaminated it cannot be reclaimed and must be sent for destruction. It is important not to mix
different gases in the same recovery cylinder – as this would render them unsuitable for reclamation.