The European Market for Thermal Insulation - Baltics
Report Overview
This report examines the European market for thermal insulation products and their
different uses in building and in industry, as well as identifying key trends impacting
the industry.
It builds up from previous data held in-house by IAL Consultants. All data has been
reviewed and updated for this new edition.
Scope of Study
IAL Consultants’ report on the European Market for Thermal Insulation Products is
comprised of ‘Country’ and ‘Market’ volumes.
This report is a Country Volume report.
Country and Market Volumes are available as follows:
Country Volumes
Country volumes focus on identifying the demand for common thermal insulation
materials used in a given country/region.
Market volumes focus on identifying the demand for a given insulation material in
Europe in a country-by-country analysis.
Country Volumes cover the following products:
Glass wool, stone wool, expanded polystyrene (EPS – grey and white), extruded
polystyrene (XPS), polyurethane/polyisocyanurate (PUR and PIR) foam, phenolic
foam, flexible insulation materials (expanded nitrile rubber (ENR) and polyethylene
(PE)), renewable insulation materials (e.g., wool, flax/hemp, cellulose, wood fibre),
and vacuum insulation panels (VIPs)/aerogel.
Methodology
The information included in this study is based on both secondary and primary
sources. The desk research examined relevant technical and trade journals,
published official statistics, and figures derived from trade associations. The
primary interview programme included high-level respondents in companies
manufacturing, distributing and/or installing thermal insulation materials.
Actual consumption figures are provided for 2022, which has been taken as the
base year. Figures are in volume (m3 and tonnes) and value (€). Typical densities
have been used to convert between the different volume units, and average prices
have been used to convert from volume to value. However, it must be noted that
material densities and prices can vary significantly for a given material according to
the product’s intended end use.
The study also presents five-year forecasts to 2027, derived from industry and
economic indicators, as well as other relevant legislative, commercial and/or
technical issues likely to affect individual countries, thermal insulation materials and
products, and the end uses to where these are applied.
Small discrepancies may appear in the total figures due to rounding.
Given the current uncertainties in the global economic and political situation,
forecasts for 2023 and beyond are based on the latest information available at the
time of publication, and IAL has endeavoured to factor in the latest developments.
However, given the fluidity of circumstances at this time, we recognise that these
forecasts are likely to be superseded by events, and therefore IAL may be updating
them, as appropriate, in any subsequent update of our estimates.
Thermal Insulation Materials Overview
Various factors affect the type and amount of thermal insulation required. These
can include:
Climate
Durability
Ease of installation and replacement at end of life
Cost effectiveness
Toxicity
Flammability
Environmental impact and sustainability
Energy efficiency
A brief description of each of the insulation materials covered within this study is
given below although, in reality, a combination of these can be used.
Mineral Fibres
Mineral fibre, or wool, is a non-metallic, inorganic material normally derived from
glass or rock. Both glass wool and stone wool can be used in similar applications,
except where high temperature resistance and fire protection are required. Stone
wool can withstand temperatures up to 1,177oC, whereas glass wool can only be
used up to 400oC.
Mineral fibres can be manufactured into a wide variety of physical forms and
shapes and to a range of densities, depending upon the intended application. The
most common forms are:
Rolls or blankets, typically for use in loft insulation
Laminated matting, for use in heating, water pipes, ventilation and air
conditioning ducts, containers, cooling and tank systems
Rigid slabs for:
(i) Flat and pitched mansard roofs, loft conversions, cavity walls and ceilings
(ii) Concrete floors
(iii) External wall dry ventilated cladding systems
(iv) Process plant apparatus engineering, furnace construction and plant
engineering
Fibre bonded to plasterboard for dry lining and semi-structural applications
Shells and moulded pipe sections for process plant and domestic cooking
appliances
Sprayed, for asbestos encapsulation, or blown, for loft and wall insulation, in old
or irregularly shaped buildings.
Expanded Polystyrene (EPS)
EPS is a relatively low-cost material with excellent insulating properties. Its
lightweight nature means that it adds little to structural weight, yet still offers high
dimensional stability. The foam is closed cell and therefore resistant to water
penetration, although it is not a water vapour barrier. EPS does not deteriorate, it is
non-toxic, non-irritant, and does not contain blowing agents. EPS has a low thermal
conductivity and therefore good thermal insulation properties. Its chief
disadvantages are its susceptibility to physical damage, its flammability
characteristics, and its low resistance to chemical attack, including substances like
dilute acids, alkalis, methanol and i-propanol. EPS foam can also be used at
extremely low temperatures without any time restriction.
EPS is typically encountered in three forms:
(i) As rigid lightweight slab or board for use in wall, floor and roof insulation and
cavity fill
(ii) EPS sheet bonded to plaster for use in dry lining and roofing extensions
(iii) Loose fill bead for use in cavity fill and loft insulation
For the first time, the EPS market is segmented into grey EPS and white EPS.
Extruded Polystyrene (XPS)
For extrusion, polystyrene with a high viscosity is most suitable, i.e., products with
a melt volume index (MVI) of 200/5 in the lower end of the range between 1 and 7
ml/10min.
The physical properties of XPS mean that it can be used in board form in roofing,
flooring and walling applications. The low moisture absorption of the material
makes it ideal for use in cold storage facilities and refrigerated transport, where it is
subjected to freeze/thaw cycles. The high compressive strength of the material also
makes it ideal for load-bearing applications. XPS does not rot and has relatively
high thermal insulation properties.
Due to its cost, XPS tends to be used in specialist areas where its properties are
specifically required.
Polyurethane/Polyisocyanurate Foam (PUR/PIR)
Produced from a mixture of polyols, isocyanates, process additives and blowing
agents, polyurethane foams can provide very high-performance insulating
products, despite the change from CFC to CFC-free blowing agents. The foam can
be produced in a number of ways depending upon its ultimate use:
(i) Continuous production of slabstock, which can be cut into flat sheets or shapes
(ii) Continuous lamination between two rigid substrates, suitable for structural
building applications
(iii) Lamination between two flexible substrates
(iv) In-situ moulding for refrigerators, pipe sections and cavity walls
(v) Surface spraying for flat roofing and storage tanks.
Polyisocyanurate foams, which offer improved fire resistance, have become
popular due to new building regulations. Polyisocyanurate foams are used in both
rigidand flexible-faced panels.
Polyurethane foams are not as widely used as some other materials due to their
relatively high cost. However, the excellent low thermal conductivity and wide
operating temperature mean that polyurethane can, if specified, be used in virtually
all areas of the construction sector.
Polyurethane is most widely used for the following applications:
Dry lining plasterboard for internal solid wall insulation where space is limited
External/cavity wall insulation
Suspended/floating floors
Pitched roofing for residential, agricultural and commercial buildings
Cold stores and food process plant
Refrigerated transport
Blown in-situ for flat roofs, storage tanks, windows and pipe work
Domestic and commercial refrigerators
Rigid pipe insulation.
Phenolic Foams
These rigid foams are less bulky than filled materials. The foams can exhibit
excellent low thermal conductivity such as 0.020W/mK. These foams have a wide
operating temperature from -180oC to +150oC. They also have an excellent fire
rating meeting all building regulations. In addition, they are thermoset materials and
do not drip or melt when exposed to flames.
Phenolic foams can have an openor closed-cell structure, the latter of which show
improved thermal resistance properties, are less flammable, and have lower
moisture vapour transfer rates.
They are produced in blocks for cutting to size, and this is typically done in the pipe
work sector, where phenolic foams are used for:
Heating, ventilation and air conditioning ducting
Cryogenic process plants
Refrigeration systems
Breweries/hospitals
They are also supplied as laminate panels and composite boards. These panels
are used for dry lining, roofing and external insulation, as well as cold tanks and
vessels, but have limited use in structural applications. Phenolic foams tend to be
faced to improve their durability.
Flexible Insulation
There are two insulation materials that can be grouped together under the heading
‘flexible insulation’ expanded nitrile rubber (ENR) and polyethylene (PE). Both are
primarily used for pipe insulation but are also used to insulate large tanks and
vessels. These materials are available as continuous tubes, self-adhesive ‘cuffs’,
rolls, mats and tapes.
ENR is a flexible closed-cell rubber with an operating temperature of -40oC to
+150oC. It has an excellent fire rating and enables specifiers to utilise it in industrial
pipe work as well as domestic pipe work. The closed-cell structure provides high
resistance to moisture, making it useful in controlling condensation. It is also
resistant to chemical attack from oil and grease as well as ozone.
In terms of thermal conductivity PE is comparable to ENR. It is also resistant to
moisture but does not perform well in terms of fire rating tests and therefore is
unsuitable for use in process plant. The lower cost of the material makes it popular
within the domestic lagging market where the flammability of material is not
specified.
Renewable Insulation Materials (RIM)
The green alternative to synthetic insulation is natural insulation products. They are
made from renewable, organic resources, can be reused and recycled, and are
fully biodegradable. They are non-toxic, allergen-free and can be safely handled
and installed. There are many different types available, including:
Sheep’s wool: Usually needs to be treated with chemicals to prevent infestation
and reduce fire risk
Flax and hemp: Natural plant fibres that are available in batts and rolls; typically
contains borates that act as a fungicide, insecticide and fire retardant
Cellulose: A recycled product made from newsprint and other cellulose fibre. It
can be blown into cavity walls, floors and roofs; used as a loose fill; and is also
available in quilts, boards and batts
Wood fibre: Made from wood chips that have been compressed into boards or
batts using water or natural resins as a binder.
Vacuum Insulation Panels (VIPs)/Aerogel
Vacuum insulation panels are specially designed panels that use the insulation of a
vacuum within a gas-tight film, in a board shape. A vacuum, or the absence of air,
has no thermal conductivity; therefore, these boards give outstanding thermal
conductivity.
Aerogel is a synthetic, porous, ultra-light material derived from a gel (silica), in
which the liquid component has been replaced with a gas.
End-Use Sector Definitions
For the purpose of this study, the end-use sectors have been split into building and
industrial.
Building
This sector includes commercial and domestic building, cold storage and
agricultural storage. The building sector generally takes up to 90% of volume (m3)
of the insulation market.
For the first time, domestic building is split into flooring, roofing and wall insulation.
Thermal insulation for domestic pipe work and air conditioning applications are not
included in the building market figures. It was found that some respondents could
not separate heating and ventilation figures for domestic and commercial buildings
from the usage in industrial buildings and process plant. There is therefore some
overlap in the definitions used by the trade. IAL Consultants’ approach of
combining both sectors into a unique pipe lagging market eliminates double
counting.
Industrial
This sector consists of the following:
Pipe lagging
This includes the thermal lagging of industrial pipe work, ducts and plant. Where
domestic pipe work has been identified this is also included, as well as insulation of
district heating pipes.
Process Plant and Machinery
This section includes all applications in process plant (except the lagging of pipe
work and ducts) and in ancillary equipment. A special feature of this end-use sector
is the requirement for very high temperature insulation in furnaces, ovens, etc.
Domestic and Commercial Appliances
This sector covers refrigerators, freezers, cookers and storage and other heaters.
Market figures exempt other minor uses, such as irons and commercial presses.
Transport
Road, rail, and sea transport is considered. Applications include the production of
refrigerated vehicles and boatbuilding.