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An extended pressure range comparison of the blower door and novel pulse method for measuring the airtightness of two outdoor chambers with different levels of airtightness (2018)
Conference Proceeding
Wood, C., Zheng, X., Vega Pasos, A., Hsu, Y., & Smith, L. (2018). An extended pressure range comparison of the blower door and novel pulse method for measuring the airtightness of two outdoor chambers with different levels of airtightness. In Proceedings of 39th AIVC - 7th TightVent & 5th venticool Conference, Antibes Juan-Les-Pins, France, 18-19 September 2018 (915-925)

The steady pressurisation method measures the building leakage in a range of high pressures, typically 10-60 Pa. It is implemented by creating a steady pressure difference across the building envelope and measuring the corresponding airflow exchange... Read More about An extended pressure range comparison of the blower door and novel pulse method for measuring the airtightness of two outdoor chambers with different levels of airtightness.

Experimental study on the measurement of building infiltration and air leakage rate (at 4 and 50 Pa) by means of tracer gas methods, blower door and the novel pulse technique in a detached UK home (2018)
Conference Proceeding
Vega Pasos, A., Zheng, X., Sougkakis, V., Gillott, M., Meulemans, J., Samin, O., …Wood, C. J. (2018). Experimental study on the measurement of building infiltration and air leakage rate (at 4 and 50 Pa) by means of tracer gas methods, blower door and the novel pulse technique in a detached UK home. In Smart Ventilation for buildings (972-981)

Air infiltration contributes to a heat loss typically representing up to one third of the heating demand of a building. The building airtightness, also quantified as air leakage, is the fundamental building property that impacts infiltration. The ste... Read More about Experimental study on the measurement of building infiltration and air leakage rate (at 4 and 50 Pa) by means of tracer gas methods, blower door and the novel pulse technique in a detached UK home.

QUB/e: Validation of a transient method for determining whole building thermal performance and building element U-values in situ under actual operating conditions (2018)
Conference Proceeding
Sougkakis, V., Wood, C., Meulemans, J., Gillot, M., & Cox, T. (2018). QUB/e: Validation of a transient method for determining whole building thermal performance and building element U-values in situ under actual operating conditions. In SET 2018: 17th International Conference on Sustainable Energy Technologies

Growing evidence in recent years has suggested that a difference exists between the design and the as-built thermal performance of UK dwellings. This difference commonly known as the ‘performance gap’ may have serious implications on the UK governmen... Read More about QUB/e: Validation of a transient method for determining whole building thermal performance and building element U-values in situ under actual operating conditions.

Experimental studies of a pulse pressurisation technique for measuring building airtightness (2018)
Conference Proceeding
Zheng, X., Cooper, E., Zu, Y., Gillott, M., Tetlow, D., Riffat, S., & Wood, C. (in press). Experimental studies of a pulse pressurisation technique for measuring building airtightness.

A pulse pressurisation technique is developed and utilised for determining building leakage at low pressure, based on a 'quasi-steady pulse' concept. The underlying principle of the technique is to subject the building envelope to a known volume chan... Read More about Experimental studies of a pulse pressurisation technique for measuring building airtightness.

Experimental investigation of the impact of environmental conditions on the measurement of building infiltration, and its correlation with airtightness (2018)
Conference Proceeding
Vega Pasos, A., Zheng, X., Sougkakis, V., Gillott, M., Meulemans, J., Samin, O., …Wood, C. J. (2018). Experimental investigation of the impact of environmental conditions on the measurement of building infiltration, and its correlation with airtightness. In Smart Ventilation for Buildings

The air infiltration of a building, which fundamentally depends on its airtightness, can be a significant contributor to its heat loss. It can also be affected by other factors such as external terrain, leakage distribution, sheltering factor and env... Read More about Experimental investigation of the impact of environmental conditions on the measurement of building infiltration, and its correlation with airtightness.

Quantifying uncertainty in thermophysical properties of walls by means of Bayesian inversion (2018)
Journal Article
De Simon, L., Iglesias, M., Jones, B., & Wood, C. (2018). Quantifying uncertainty in thermophysical properties of walls by means of Bayesian inversion. Energy and Buildings, 177, 220-245. https://doi.org/10.1016/j.enbuild.2018.06.045

We introduce a computational framework to statistically infer thermophysical properties of any given wall from in-situ measurements of air temperature and surface heat fluxes. The proposed framework uses these measurements, within a Bayesian calibrat... Read More about Quantifying uncertainty in thermophysical properties of walls by means of Bayesian inversion.

Bayesian inferences of the thermal properties of a wall using temperature and heat flux measurements (2017)
Journal Article
Iglesias, M., Sawlan, Z., Scavino, M., Tempone, R., & Wood, C. J. (2018). Bayesian inferences of the thermal properties of a wall using temperature and heat flux measurements. International Journal of Heat and Mass Transfer, 116, https://doi.org/10.1016/j.ijheatmasstransfer.2017.09.022

The assessment of the thermal properties of walls is essential for accurate building energy simulations that are needed to make effective energy-saving policies. These properties are usually investigated through in-situ measurements of temperature an... Read More about Bayesian inferences of the thermal properties of a wall using temperature and heat flux measurements.

A comparison study of the blower door and novel pulse technique on measuring enclosure airtightness in a controlled environment (2017)
Conference Proceeding
Zheng, X., Cooper, E., Mazzon, J., Wallis, I., & Wood, C. J. (2017). A comparison study of the blower door and novel pulse technique on measuring enclosure airtightness in a controlled environment.

This paper introduces a comparison study of measuring the airtightness of a house sized test chamber using the novel pulse technique and the standard blower door method in a controlled environment. Eight different testing plates have been applied to... Read More about A comparison study of the blower door and novel pulse technique on measuring enclosure airtightness in a controlled environment.

Field trialling of a pulse airtightness tester in a range of UK homes (2016)
Journal Article
Cooper, E., Zheng, X., Wood, C., Gillott, M. C., Tetlow, D., Riffat, S., & Simon, L. D. (2019). Field trialling of a pulse airtightness tester in a range of UK homes. International Journal of Ventilation, 18(1), 1-18. https://doi.org/10.1080/14733315.2016.1252155

A new low pressure ‘quasi-steady’ pulse technique for determining the airtightness of buildings has been developed further and compared with the standard blower-door technique for field-testing a range of typical UK homes. The reported low pressure a... Read More about Field trialling of a pulse airtightness tester in a range of UK homes.

Ni Mg Mixed Metal Oxides for p-Type Dye-Sensitized Solar Cells (2015)
Journal Article
Zannotti, M., Wood, C. J., Summers, G. H., Stevens, L. A., Hall, M. R., Snape, C. E., …Gibson, E. A. (2015). Ni Mg Mixed Metal Oxides for p-Type Dye-Sensitized Solar Cells. ACS Applied Materials and Interfaces, 7(44), 24556-24565. https://doi.org/10.1021/acsami.5b06170

Mg Ni mixed metal oxide photocathodes have been prepared by a mixed NiCl2/MgCl2 sol-gel process. The MgO/NiO electrodes have been extensively characterized using physical and electrochemical methods. Dye-sensitized solar cells have been prepared from... Read More about Ni Mg Mixed Metal Oxides for p-Type Dye-Sensitized Solar Cells.