Prognostic modelling provides an efficient means to analyse the coastal environment and provide effective knowledge for long term urban planning. This paper outlines how the use of SWAN and Xbeach numerical models within the ESRI ArcGIS interface can simulate geomorphological evolution through hydrodynamic forcing for the Greater Christchurch coastal environment. This research followed the data integration techniques of Silva and Taborda (2012) and utilises their beach morphological modelling tool (BeachMM tool). The statutory requirements outlined in the New Zealand Coastal Policy Statement 2010 were examined to determine whether these requirements are currently being complied with when applying the recent sea level rise predictions by the Intergovernmental Panel on Climate Change (2013), and it would appear that it does not meet those requirements. This is because coastal hazard risk has not been thoroughly quantified by the installation of the Canterbury Earthquake Recovery Authority (CERA) residential red zone. However, the Christchurch City Council’s (CCC) flood management area does provide an extent to which managed coastal retreat is a real option. This research assessed the effectiveness of the prognostic models, forecasted a coastline for 100 years from now, and simulated the physical effects of extreme events such as storm surge given these future predictions. The results of this research suggest that progradation will continue to occur along the Christchurch foreshore due to the net sediment flux retaining an onshore direction and the current hydrodynamic activity not being strong enough to move sediment offshore. However, inundation during periods of storm surge poses a risk to human habitation on low lying areas around the Avon-Heathcote Estuary and the Brooklands lagoon similar to the CCC’s flood management area. There are complex interactions at the Waimakariri River mouth with very high rates of accretion and erosion within a small spatial scale due to the river discharge. There is domination of the marine environment over the river system determined by the lack of generation of a distinct river delta, and river channel has not formed within the intertidal zone clearly. The Avon-Heathcote ebb tidal delta aggrades on the innner fan and erodes on the outer fan due to wave domination. The BeachMM tool facilitates the role of spatial and temporal analysis effectively and the efficiency of that performance is determined by the computational operating system.
In recent Canterbury earthquakes, structures have performed well in terms of life safety but the estimated total cost of the rebuild was as high as $40 billion. The major contributors to this cost are repair/demolition/rebuild cost, the resulting downtime and business interruption. For this reason, the authors are exploring alternate building systems that can minimize the downtime and business interruption due to building damage in an earthquake; thereby greatly reducing the financial implications of seismic events. In this paper, a sustainable and demountable precast reinforced concrete (RC) frame system in which the precast members are connected via steel tubes/plates or steel angles/plates and high strength friction grip (HSFG) bolts is introduced. In the proposed system, damaged structural elements in seismic frames can be easily replaced with new ones; thereby making it an easily and quickly repairable and a low-loss system. The column to foundation connection in the proposed system can be designed either as fixed or pinned depending on the requirement of strength and stiffness. In a fixed base frame system, ground storey columns will also be damaged along with beams in seismic events, which are to be replaced after seismic events; whereas in a pin base frame only beams (which are easy to replace) will be damaged. Low to medium rise (3-6 storey) precast RC frame buildings with fixed and pin bases are analyzed in this paper; and their lateral capacity, lateral stiffness and natural period are scrutinized to better understand the pros and cons of the demountable precast frame system with fixed and pin base connections.
The majority of Christchurch’s stormwater has historically been discharged untreated directly into urban surface waterways. These receiving waterways have become adversely affected by the contaminants carried in the stormwater, particularly sediment and heavy metals. An event-based contaminant load model was developed to identify the distribution and magnitude of contaminant loads entering the waterway, as well as to assess the reduction in TSS and heavy metal loads that can be achieved by various stormwater management options. The GIS-Excel based model estimates contaminant loads from an individual storm event based on different contributing impervious surfaces and key rainfall characteristics (rainfall intensity, duration, pH and antecedent dry days). It then calculates contaminant reduction loads that could be achieved through source reduction (e.g. green roofs, repainting) as well as from treatment (e.g. raingardens, wet ponds) applied to different surfaces within the catchment. This model differs from other annual load models as it is event-based and accounts for storm characteristics in its calculation of contaminant loads. Christchurch is a valuable case setting due the unique opportunity for retrofitting improved stormwater management in the post-earthquake rebuild. It is anticipated that this modelling approach could later be adapted for use in other urban settings outside of Christchurch.
A photograph of a large-scale, temporary structure, titled Synthesis, being installed for CityUps. CityUps was a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip depicting part of a large-scale, temporary installation titled Antigravity. The installation was created by students from The University of Auckland for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of two large-scale, temporary installations titled Upload (left) and Equilibrium (right). The installations were created by students from The University of Auckland, for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of a large-scale, temporary installation titled ScopeCity. The installation is on Manchester Street. The installation was created by students from Unitec for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A photograph of a large-scale, temporary structure, titled Synthesis, being installed for CityUps. CityUps was a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of two large-scale, temporary installations titled Aurora (front) and Synthesis (back, left). The installations were created by students from Unitec and CPIT, for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of a large-scale, temporary installation titled GlowCity. The installation is on Manchester Street. The installation was created by students from Unitec for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of a large-scale, temporary installation titled GlowCity. The installation is on Manchester Street. The installation was created by students from Unitec for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A photograph of a temporary installation titled Equilibrium. Equilibrium was created by architecture students from the University of Auckland for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A photograph of a temporary structure, titled GlowCity, being installed for CityUps. CityUps was a 'city of the future for one night only', and the main event of FESTA 2014.
A photograph of a temporary structure, titled GlowCity, being installed for CityUps. CityUps was a 'city of the future for one night only', and the main event of FESTA 2014.
A pdf copy of a post from the One Voice Te Reo Kotahi blog. The post is titled, "happy new year + panel confirmed for next forum".
A video clip of two large-scale, temporary installations titled Aurora (front) and Synthesis (back, left). The installations were created by students from Unitec and CPIT, for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of people dancing inside a large-scale, temporary installation titled Equilibrium. The installation was created by students from The University of Auckland for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A photograph of students from Unitec on the site of their temporary structure titled Aurora. The structure is being created for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of a large-scale, temporary installation titled Synthesis. The installation is on the corner of High Street. The installation was created by students from CPIT for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of a large-scale, temporary installation titled Antigravity. The installation is on Lichfield Street. The installation was created by students from The University of Auckland for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of people walking through a large-scale, temporary installation titled ScopeCity. The installation is on Manchester Street. The installation was created by students from Unitec for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of children playing with inflatable balls inside a large-scale, temporary installation titled Upload. The installation was created by students from The University of Auckland for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A video clip of a large-scale, temporary installation titled Antigravity. The installation is on Lichfield Street. The installation was created by students from The University of Auckland for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A blog post from Moya Sherriff about her seventh month as Intern for the Canterbury Cultural Collections Recovery Centre (CCCRC). In this post Sherriff introduces new groups to the Recovery Centre and considers best practice for cataloguing collections. This blog post was downloaded on 18 November 2014.
A video clip of a large-scale, temporary installation titled Continuum. The installation is on Lichfield Street. The installation was created by students from The University of Auckland for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A photograph of a temporary structure titled ING being installed for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014. ING was created by students from Unitec.
A video clip depicting a large, inflatable white ball being rolled through the intersection of High Street, Lichfield Street and Manchester Street. The ball was part of an installation for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
Posters created for Beca Heritage Week 2014, outlining SCIRT's repair work on the Armagh Street and Colombo Street bridges in the Central City. They were hung on the bridges for members of the public to read during SCIRT's walk and talk tours.
A video clip depicting a large, inflatable white ball being rolled through the intersection of High Street, Lichfield Street and Manchester Street. The ball was part of an installation for CityUps - a 'city of the future for one night only', and the main event of FESTA 2014.
A pdf copy of a spreadsheet tool used by designers to undertake a whole of life evaluation of rebuild options.