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Role of Insulation in Buildings !

Insulation refers to an energy savings measure, which provides resistance to heat flow. Naturally, heat flows from a warmer to a cooler space. By insulating a house, one can reduce the heat loss in buildings in cold weather or climate, and reduce the heat surplus in warmer weather or climate. Insulating a house has several benefits such as energy savings, cost savings and increased comfort. Barriers to undertake energy savings measures may be split incentives, relatively high investment costs, and the time and effort required to realise the energy savings. There are several types of insulation against heat loss in cold climates, each with its own technical characteristics and financial costs and benefits. Insulation measures are generally one of the most cost effective energy savings measures.

Introduction 

By insulating a house, one can reduce the heat loss in buildings in cold weather or climate, and reduce a heat surplus in warmer weather or climate. Thus, insulation limits the need for heating or cooling the house. Heat losses or heat surpluses arise because of differences between the indoor and outdoor air temperature. Naturally, heat flows from a warmer to a cooler space, and the temperatures will converge to an equilibrium temperature, a physical phenomenon based on mechanisms like transmission (the heat flow through materials) and ventilation (heat flow by air). Insulation aims at reducing the speed of this convergence of temperature in order to decrease the need for heating or cooling.

This technology description focuses on insulation against heat loss, but includes some references on insulation for cooling.

Several types of insulation measures exist. Below insulation measures for residential buildings are described:

Wall, roof and attic, floor and soil insulation

Wall, roof and floor insulation may be done by fixing insulation material to the wall, roof or floor, either on the inside of outside, e.g. by using insulation plates. Different materials for walls, roofs and floors require different types of insulation measures. Buildings may for example have cavity walls consisting of two ‘skins’ separated by a hollow space. This space already provides some insulation but can be filled up with additional insulation material, e.g. foam, to further improve the insulation effect. Roof insulation for flat roofs differs from insulation for steeper roofs.

Floors are usually made of wood or concrete, each requiring specific insulation measures. Another option to reduce heat losses to the ground is soil insulation, for example by placing insulation material on the soil in a so-called “crawl space” (a very low basement).

The age of a building is an important factor determining the type of insulation and the way in which it is installed, e.g. if insulation is put on the outside or inside of the construction.

Window and door insulation

Windows and exterior doors have a large impact on the heating and cooling requirements of a building. New materials, coatings, and designs have led to significantly improved energy efficiency of new, high-performing windows and doors. New high-quality windows may be up to six times more energy efficient than lower-quality, older windows (Pew Centre, 2009). Some of the latest developments concerning improved windows include multiple glazing, the use of two or more panes of glass or other films for insulation, and low-emissivity coatings reducing the flow of infrared energy from the building to the environment (Pew Centre, 2009). Attention needs to be paid not only to the window itself, but also to the window frame, which can significantly impact a window’s insulation level.

Sealing cracks

Another insulation measure that reduces the amount of heat loss is sealing cracks in the ‘shell’ of the building. Cracks cause infiltration of cold air from outside or leakage of warm air to the outside. Strips or other material can be used to seal cracks in moving parts, such as windows and doors, and in places where different construction parts are attached to each other.

 

Feasibility of technology and operational necessities : 

Increasing insulation is technically feasible for almost all buildings, although it is most efficient to add insulation during the construction phase. Because of the diversity of insulation measures, a suitable option is generally available for almost every building, since most buildings have room for improvement with respect to insulation. Next to technical requirements, human preferences regarding comfort and aesthetics also play a role, e.g. for windows better insulation comes with lower insolation, i.e. less light.

In practice, the suitability of insulation measures depends largely on the current technical state of a dwelling. Specifically the insulation already in place limits additional insulation. This is due to the physical space left for insulation and the suitability of the existing construction (e.g. availability of a cavity wall or sufficient cavity width, enough frame space to install better insulated but usually thicker windows, enough crawl space under the floor), but also because the law of diminishing returns applies: Every additional layer of insulation yields less energy savings than the previous one.

The level of insulation that can be achieved by different insulation materials, i.e. the insulation value, is typically expressed as the R-value. The R-value indicates the insulation material’s resistance to heat flow. The higher the R-value, the better the insulation of a wall, roof or floor. For windows the value U is used, mathematically different but analogue to the R-value. Opposite to the R-value, the lower the U value the better the insulation of the window.

Status of the technology and its future market potential  

Insulation measures against heat loss are common practice in countries with frequent cold weather, where they are applied at the construction of new buildings, but also during the renovation of buildings. Older buildings commonly have a much lower level of insulation than newer ones, which in OECD countries are typically built according to the latest energy performance regulations. A large technical potential remains to improve insulation levels of the existing building stock using mature technologies. Many insulation measures would also be cost-effective due to savings in energy costs.

In the US, for example, more than 60% of single-family, residential houses are estimated to be “under-insulated”, i.e. by improving the level of insulation home owners could save costs, avoid GHG emissions, and improve indoor climate. In India only 5 % buildings are using Building Insulation and mostly for HVAC purposes

Common barriers why these measures are not implemented include: high initial investment costs, lack of financing options for the up-front investments, the time and effort required to undertake renovation measures in existing buildings, relatively long payback times for some measures, lacking knowledge and awareness, and split incentives, i.e. the decision makers who can / must decide on the level of insulation in a building and pay for the higher upfront costs are not the same persons who will reap the benefits of lower energy costs for heating and/or cooling.

Governments of India have introduced measures to reduce these barriers, including mandatory energy efficiency standards, building certification, voluntary labelling, and financial incentives to stimulate investments into increased insulation and other energy saving measures in buildings. Moreover governments, civil society and industry organisations use information campaigns to increase awareness and knowledge of energy saving options in buildings. In India MNRE & BEE (Bureau of Energy Efficiency) the main regulatory framework to prescribe the use of energy labels for Energy Efficient buildings in India and also it is a requirement in the recent launched Energy Conservation Building Code – 2017 by BEE.

How the technology could contribute to socio-economic development and environmental protection 

Insulation leads to energy savings, which reduce the demand for fossil fuels and associated GHG emissions and other environmental impacts. It is estimated that improvements in the level of insulation of the existing building stock can reduce heating requirements by a factor of two to four. New houses built according to the latest available technology and design in various cold-climate countries use as little as 10% of the energy for heating than houses built according to the local national building codes.

For countries with milder winters, where heating is still required, as is the case in many developing countries, modest levels of insulation at a reasonable cost may already reduce the heating requirements by more than half of current levels, and in addition may contribute to reducing indoor temperatures in summer. If there is no air conditioning, lower temperatures in summer improve indoor comfort, or, if air conditioning is used, lead to additional energy savings.

 

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