Open Access. Powered by Scholars. Published by Universities.®
- Discipline
- Keyword
-
- Design (4)
- Compliant perform (3)
- Designing buildings (3)
- Highly energy efficient (3)
- Intent (3)
-
- Retrofit (3)
- Specification. (3)
- Architecture (1)
- BR443 (1)
- Building regulations (1)
- Chilled Ceilings (1)
- Concrete (1)
- Cooling Towers (1)
- DIT (1)
- Displacement Ventilation (1)
- Evaporative Cooling (1)
- Free Cooling (1)
- Grangegorman (1)
- Heat Transfer (1)
- Hollow block (1)
- ISO6946 (1)
- Low Energy Cooling (1)
- Masterplanning (1)
- Moore Ruble Yudell (1)
- Thermal Transmittance (1)
- Urban (1)
- Urbanism (1)
- Uvalue (1)
Articles 1 - 6 of 6
Full-Text Articles in Architecture
Loosening The Ties That Bind: Grangegorman Masterplan, Noel Brady
Loosening The Ties That Bind: Grangegorman Masterplan, Noel Brady
Articles
Interview with James Mary O'Connor, Architect and Masterplanner with Moore Rubel Yudell designers of the Masterplan for DIT at Grangegroman, Dublin
Breaking The Mould 3, Joseph Little
Breaking The Mould 3, Joseph Little
Articles
This article is the third in a series looking at thermal upgrades to single-leaf walls of existing houses. The theme for this article was intended to be an analysis of various drylining options for brick and rubble-built walls of older properties. That will follow. The following events forced a change in focus.
An Independent Analysis Of The Thermal Characteristics Of Irish Concrete Hollow Blocks And Hollow Block Wall Upgrades And A Discussion On Hollow Block Design, Joseph Little, Beñat Arregi Goikolea Mr
An Independent Analysis Of The Thermal Characteristics Of Irish Concrete Hollow Blocks And Hollow Block Wall Upgrades And A Discussion On Hollow Block Design, Joseph Little, Beñat Arregi Goikolea Mr
Articles
Hollow block walls, whether originally built with external render and internal plaster, or more recently with external render and insulated drylining, represent the most common form of wall construction in Leinster over the last 50 years (see image in Figure 8). In terms of vapour movement, air movement and thermal performance it is also one of the least understood forms of construction practiced in Ireland.
This technical paper and two articles by the same author published by Construct Ireland in February and May 2009 (Issues 6 & 7, Vol. 4) form a concerted effort to rectify this knowledge deficit. It …
Breaking The Mould 2 : An Analysis Of Single-Leaf Insulation Upgrades, Joseph Little
Breaking The Mould 2 : An Analysis Of Single-Leaf Insulation Upgrades, Joseph Little
Articles
This article is the second in a series looking at thermal upgrades to single-leaf walls of existing houses. It compares a range of ways of upgrading masonry single-leaf walls, particularly the ubiquitous hollow block wall, and the impact of those decisions on moisture content, wind- and airtightness, cost and heating. Future articles will look at various drylining approaches for a range of walls including brick walls of various widths.
Breaking The Mould 1 : A Study Of Condensation In Single-Leaf Concrete Wall Upgrades, Joseph Little
Breaking The Mould 1 : A Study Of Condensation In Single-Leaf Concrete Wall Upgrades, Joseph Little
Articles
This article is the first of a series looking at upgrade options and issues associated with single-leaf walls of existing houses. This article will focus on insulated drylined concrete block walls of the ubiquitous housing estate house. This will include the findings of software that dynamically models moisture movement through the wall over several years. The article following this will look at a range of options for replacing existing drylining or installing drylining where it never was before, be that for a solid block wall of a 1950s house or a solid brick wall of an 1850s house.
Heat Transfer Correlations For Low Approach Evaporative Cooling Systems In Buildings, Ben Costelloe, Donal Finn
Heat Transfer Correlations For Low Approach Evaporative Cooling Systems In Buildings, Ben Costelloe, Donal Finn
Articles
The experimental performance of an open industrial scale cooling tower, utilising small approach temperature differences (1–3 K), for rejection of heat at the low water temperatures (11–20 °C) typical of chilled ceilings and other sensible air–water heat dissipation systems in buildings, is examined. The study was carried out under temperate maritime climatic conditions (3–18 °C wet-bulb temperature range). Initially a theoretical analysis of the process at typical conditions for this climate was conducted, which indicated that a water to air (L/G) mass flow rate ratio of less than 1.0 was required for effective operation. Consequently for these low L/G ratios, …