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Natural slate : a green roofing medium

This is an age of great concern about the environment and climate change. We are continually reading in the media of the impact of increased global temperature and changes in the world’s climate. The predicted effects are wide ranging, from higher sea levels, due in part to melting glaciers, to increased intensity and frequency of  tropical storms. These impacts will lead to flooding in low lying areas and, ironically, to water shortages in others. One of the principal causes of rising global temperature is the increase in greenhouse gases in the atmosphere, in particular that of carbon dioxide; CO2.

 
Historically the affluent countries of Europe and North America were the principal culprits in producing greenhouse gases. However, more recently the rapid economic growth in China, which is fuelled by coal, accounts for ever increasing rates of carbon emissions since the year 2000. Although the effects are global, it is the responsibility of every individual, every industry and every nation to work collectively to reduce the environmental impact of their activities.
 

 
It is not always possible to make an informed choice to determine which is the best environmental solution to a given problem. Is it better to import tomatoes from Spain, which grow without the need for artificial heating, or to select home grown produce which requires heating but minimises transport requirements?
 
According to the Office of National Statistics, the construction industry accounts for over 50% by weight of materials used in Britain and approximately 30% of road freight. As a result, the construction industry is a major contributor to greenhouse gas emissions.

One of the ways that the industry can help to reduce its carbon footprint is to select materials with the lowest overall contribution to emissions and environmental impact. Here again it is difficult to make informed choices. For example, aluminium, produced on a large scale by electrolysis, has a very high energy requirement and could be considered an environmentally unfriendly choice. However it is usually produced using hydroelectric power which has relatively low carbon emissions. In addition, aluminium is a very durable material and therefore on a whole life basis has a low carbon footprint. Similar factors should be taken into consideration when selecting the most environmentally friendly roofing material.

Relative carbon footprint of roofing materials
 
In order to select the roofing material with the lowest environmental impact it is necessary to take into account several factors:
•  The embodied energy; the energy required to extract, process and transport the material and to deal with production waste.
•  The durability of the material. The cost and environmental impact should be measured over the service life of the product; the greater the durability the lower the impact.
•  The potential for recycling or reclamation. It is also necessary to take into account the ability to re-use the material when the service life of the original roof has come to an end.
 
In recent years there has been considerable research into the embodied energy of building materials. For example the University of Bath[1] carried out a review of reports, conference papers, websites etc to provide an inventory of the embodied energy of different building materials. These included all the most common roofing materials listed in Table 1. The embodied carbon was estimated from the embodied energy by using the typical fuel split for the industry and applying UK emission factors. To enable a better comparison, the embodied carbon was then calculated per square metre of roof by applying a correction factor for the differences in weight per square metre of the different materials. Copper is extracted from sulphides such as chalcopyrite (CuFeS ). The separation of copper is a multistage process which includes roasting the ore to volatilize the sulphur and impurities such as antimony and arsenic. It is not surprising that copper has a high embodied energy and produces many waste products. It is however a durable material and easily re-used.
 
The extraction of lead from naturally occurring ore such as galena
(PbS) also requires roasting  and the removal of impurities, resulting in high embodied energy. It is similar to copper in that it is a very durable material with a high potential for re-use.
Clay tiles are produced by baking clay in a kiln at  temperatures between 800° and 1000°, which gives them embodied energy of 6.6 MJ/Kg.1
Unlike copper and lead, they have a relatively low life expectancy which tends to increase the whole-life environmental impact.
 
Concrete tiles are produced from a mixture of cement, aggregate and water. Cement is usually produced by heating limestone and clay, which leads to a very high embodied carbon value due to energy consumption of 6.1MJ/Kg.[1]
 
However, in addition to the carbon value due to energy, carbon dioxide is also released into the atmosphere as a by-product. As a result, cement production is a major contributor to greenhouse gases, and cement has a total embodied carbon of 0.97 Kg CO /Kg. Roofing tiles are made from a mix of 1 part Portland cement to 4 parts aggregate, giving them an overall embodied carbon of approximately 0.2 KgCO /Kg, the contribution of the aggregate being negligible.
 
 
Natural Stone
It is not surprising that natural stone, which requires only minimal processing, has the lowest embodied energy of all the roofing materials (Table 1). The values for energy consumption and hence carbon emissions depend on the ease of extraction and of cutting into suitably sized units.
 
Slate has a layered fabric along which it is readily split,makingit ideally suitable as a roofingmaterial. lt is capable of being split thinner than other naturalroofingmaterials and therefore has greater coverage per unit weight than other ehoices.Although there is a large variation in the embodied carbon of naturalroofing slates (rabie 1) its embodied carbon value is at most 16% of that of other roofingmaterials.
 
 
Durability
The choice of slate is also very important. Sorne slates are known to failwithin a few years of exposure on a roof. However,good quality slates,with the potentialto last over a hundred years,are one of the best environmentalehoices for a roofing material. For example,a poor quality slate with a life expectancy of 20 years would have an embodied energy value of approximately 5 KgCO/metre2 over a hundred year period.Compare this with a Cupa Heavy 3 which has service life of greater than 100 years, giving it an average embodied carbon value of only 1KgC0 /metre2 over a similar timeframe,lower than allother
2 types of roofing materials.
 
 
Reclaimed state
Good quality slate from any source can out•perform the original building.This can be seen in conservation areas and on historie buildings in Scotland where second-hand slates are still being used for repairs and maintenance,60 years after the Scottish industry ceased
to operare.Stocks or reclairned slates provide a ready source of locally
available material.
 
Conclusions
There are many factors to be considered when choosinga material for roofing a building.However,if reduced carbon emissions and environmentalimpactare amongthe most important considerations, there can be no better choice than naturalslate.
 
References
[1) G Hammond and CJones 2006.lnventory o{ carbon and energy (ICE)Versian
1.5 Beta,University of Bath UK.
[2) langdon Consultancy1995. The current cost of roo{ing.
[3) F Moal1995.Builder.
[4) J A Walsh 2002.Scottish Roo{ing Slate: Characteristics and Tests Publishers
Historie Scotland.
Written by Consultant Geologist Dr Joan Walsh
 
 
 
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