The paper "Existing Domestic Building in the UK" is an engrossing example of coursework on architecture. Traditional buildings in the United Kingdom have a long history. Whereas there has been a long history of energy efficiency as well as conservation improvements as well as widespread recognition of the need for carbon saving by energy management, the United Kingdom has failed to overcome inconsistency and attain the energy efficiency needed to mitigate climate change. Developing energy efficiency building is a priority for engineers in the 21st century. The foundation of any building is very important since it determines the durability of that building.
There are various types of foundations that are suitable for different buildings and also different sites. The type of foundation will dictate the strength of the building. The walls play an important role in giving the building the shape and the finish that it requires. DPC forms are an important part that prevents dampness from rising up the walls. A building without DPC can allow dampness to rise up the walls and cause problems or sickness to the people occupying the building.
Improving sustainability credentials is the goal of every engineer in order to get an energy efficiency building that meets the building standards set by the government. This report discusses important components of the domestic building in the UK and how energy efficiency has been achieved using realistic means. The report ends with a personal reflection on the lesson learned through the preparation. Components of construction of a domestic building Structures need a foundation. The foundation is important for supporting the building loads as well as distributing then to the surrounding subsoil’ s.
The type of foundation has to be appropriate for the site and the type of building. It is important to make a good choice. Foundations have to transmit the load of building safely to the ground. Consequently, all buildings must have adequate foundations (usually concrete), that will vary from one project to another project depending on the conditions of the specific case. The building foundation is also referred to as an artificial foundation and the ground on which it stands is known as the natural foundation (Chudley & Greeno, 2013).
The early building was founded on firm or rocky ground; it was until the early twentieth century that concrete was escalating used as a foundation base for the walls. A foundation is needed to make sure that loads of the building are sustained as well as safely transmitted to the ground. Load bearing elements comprise of party walls, external walls, piers, chimney breasts, and internal bearing walls have to sit on an adequate foundation (Evins et al, 2012). It is important to make sure that the excavation for a new foundation in any way does not undermine the adjacent structures.
It is good to excavate at least the same depth similar to the bottom of the foundation of the adjacent building.
Castleton, H.F., Stovin, V., Beck, S.B. and Davison, J.B., 2010. Green roofs; building energy savings and the potential for retrofit. Energy and buildings, 42(10), pp.1582-1591.
Chudley, R. and Greeno, R., 2013. Building construction handbook. Routledge.
Chung, W., 2011. Review of building energy-use performance benchmarking methodologies. Applied Energy, 88(5), pp.1470-1479.
Evins, R., Pointer, P., Vaidyanathan, R. and Burgess, S., 2012. A case study exploring regulated energy use in domestic buildings using design-of-experiments and multi-objective optimisation. Building and Environment, 54, pp.126-136.
Emmitt, S. and Gorse, C.A., 2013. Barry's introduction to construction of buildings. John Wiley & Sons.
Firth, S.K., Lomas, K.J. and Wright, A.J., 2010. Targeting household energy-efficiency measures using sensitivity analysis. Building Research & Information, 38(1), pp.25-41.
Gwynne, A., 2013. Guide to building control. John Wiley & Sons.
Morrissey, J. and Horne, R.E., 2011. Life cycle cost implications of energy efficiency measures in new residential buildings. Energy and Buildings, 43(4), pp.915-924.
Sadineni, S.B., Madala, S. and Boehm, R.F., 2011. Passive building energy savings: A review of building envelope components. Renewable and Sustainable Energy Reviews, 15(8), pp.3617-3631.
Watson, P., 2010. An introduction to UK energy performance certificates (EPCs). Journal of Building Appraisal, 5(3), pp.241-250.