An entry from Deb Robertson's blog for 24 October 2010 entitled, "A Present a Week {till Christmas} Week 16".
An entry from Deb Robertson's blog for 13 September 2010 entitled, "A Present a Week {till Christmas} Week 10".
An entry from Jennifer Middendorf's blog for 7 May 2011 entitled, "Returning to the present briefly".
An entry from Deb Robertson's blog for 19 December 2011 entitled, "Another Quilt Finished for 2011.... A Wedding Present for Jo and Tahu...".
A pdf copy of a post from the One Voice Te Reo Kotahi blog. The post is titled, "Healthy Christchurch Hui - OVTRK presention".
Topiary plants presented by the Christchurch Garden City Trust liven up the Re:START Mall.
Topiary plants presented by the Christchurch Garden City Trust liven up the Re:START Mall.
Topiary plants presented by the Christchurch Garden City Trust liven up the Re:START Mall.
A pdf copy of a PowerPoint presentation which illustrates the locations where Duncan Gibb presented his Brunel lecture.
A pdf copy of a PowerPoint presentation used by Duncan Gibb when presenting his Brunel lecture.
A photograph of Celia Wade-Brown, Mayor of Wellington, speaking at a graduation ceremony for more than 40 new civil defence volunteers in the Wellington Town Hall. Members of the Wellington Emergency Management Office team were presented certificates of appreciation during this event. The certificates were presented to the members to honour their involvement in the emergency response to the 22 February 2011 earthquakes in Christchurch.
A photograph of Fred Mecoy, the Wellington City Council's Emergency Preparedness Manager, speaking at a graduation ceremony for more than 40 new civil defence volunteers in the Wellington Town Hall. Members of the Wellington Emergency Management Office team were presented certificates of appreciation during this event. The certificates were presented to the members to honour their involvement in the emergency response to the 22 February 2011 earthquakes in Christchurch.
A pdf copy of a presentation which SCIRT presented to Red Cross volunteers, telling them about what SCIRT is and what it does.
A paper presented at the New Zealand Concrete Industry Conference 2015 about the design and construction challenges faced when strengthening the Memorial Arch.
Got to admire someone taking a lovely red sports car out on our roads at present. File Ref: CCL-2011-03-17-St Albans-IMG_0374 From the collection of Christchurch City Libraries.
A pdf copy of one of a series of presentations which Red Cross presented to SCIRT, telling them about what the community is undergoing and how Red Cross helps.
A photograph of a building on Norwich Quay in Lyttelton decorated to look like a Christmas present. A sign on the building reads, "All I want for Christmas is an answer from EQC!".
A photograph of two people presenting at The Physics Room during Urban T(act)ics, a symposium exploring tactics and acts of urbanism. The event was organised by Barnaby Bennett and was part of FESTA 2013.
A plaque on the side of the Edmonds Band Rotunda on Cambridge Terrace. The plaque reads, "This rotunda shelter and circular seat were presented by T.J.Edmonds to celebrate fifty years of residence in Christchurch 26th September 1929".
A photograph of two people presenting at The Physics Room during Urban T(act)ics, a symposium exploring tactics and acts of urbanism. The event was organised by Barnaby Bennett and was part of FESTA 2013.
A photograph of two people presenting at The Physics Room during Urban T(act)ics, a symposium exploring tactics and acts of urbanism. The event was organised by Barnaby Bennett and was part of FESTA 2013.
This paper presents on-going challenges in the present paradigm shift of earthquakeinduced ground motion prediction from empirical to physics-based simulation methods. The 2010-2011 Canterbury and 2016 Kaikoura earthquakes are used to illustrate the predictive potential of the different methods. On-going efforts on simulation validation and theoretical developments are then presented, as well as the demands associated with the need for explicit consideration of modelling uncertainties. Finally, discussion is also given to the tools and databases needed for the efficient utilization of simulated ground motions both in specific engineering projects as well as for near-real-time impact assessment.
Our poster will present on-going QuakeCoRE-founded work on strong motion seismology for Dunedin-Mosgiel area, focusing on ground motion simulations for Dunedin Central Business District (CBD). Source modelling and ground motion simulations are being carried out using the SCEC (Southern California Earthquakes Center) Broad Band simulation Platform (BBP). The platform computes broadband (0-10 Hz) seismograms for earthquakes and was first implemented at the University of Otago in 2016. As large earthquakes has not been experienced in Dunedin in the time of period of instrumental recording, user-specified scenario simulations are of great value. The Akatore Fault, the most active fault in Otago and closest major fault to Dunedin, is the source focused on in the present study. Simulations for various Akatore Fault source scenarios are run and presented. Path and site effects are key components considered in the simulation process. A 1D shear wave velocity profile is required by SCEC BBP, and this is being generated to represent the Akatore-to-CBD path and site within the BBP. A 3D shear velocity model, with high resolution within Dunedin CBD, is being developed in parallel with this study (see Sangster et al. poster). This model will be the basis for developing a 3D shear wave velocity model for greater Dunedin-Mosgiel area for future ground motion simulations, using Canterbury software (currently under development).
A photograph of a damaged building on Norwich Quay in Lyttelton. The temporary wooden wall at the front of the building has been painted to look like a Christmas present. A sign has been placed on the wall and reads, "All I want for Christmas is an answer from EQC!
A photograph of Melanie Oliver, director of The Physics Room, presenting at Urban T(act)ics, a symposium held at The Physics Room to explore tactics and acts of urbanism. The event was organised by Barnaby Bennett and was part of FESTA 2013.
A photograph of Melanie Oliver, director of The Physics Room (left), and two others, presenting at Urban T(act)ics. Urban T(act)ics was a symposium held at The Physics Room to explore tactics and acts of urbanism. The event was organised by Barnaby Bennett and was part of FESTA 2013.
A photograph of the photocopy template for the Christchurch City Council's yellow sticker. The sticker was used by the Civil Defence after the 2010 and 2011 earthquakes to indicate that a building had been inspected and that structural damage or other safety hazards had been found. The sticker states that there should be no entry to the building, 'except on essential business'. It also states that 'earthquake aftershocks present danger' and that people who enter must do so at their own risk.
Background Liquefaction induced land damage has been identified in more than 13 notable New Zealand earthquakes within the past 150 years, as presented on the timeline below. Following the 2010-2011 Canterbury Earthquake Sequence (CES), the consequences of liquefaction were witnessed first-hand in the city of Christchurch and as a result the demand for understanding this phenomenon was heightened. Government, local councils, insurers and many other stakeholders are now looking to research and understand their exposure to this natural hazard.
Soil-structure interaction (SSI) has been widely studied during the last decades. The influence of the properties of the ground motion, the structure and the soil have been addressed. However, most of the studies in this field consider a stand-alone structure. This assumption is rarely justifiable in dense urban areas where structures are built close to one another. The dynamic interaction between adjacent structures has been studied since the early 1970s, mainly using numerical and analytical models. Even though the early works in this field have significantly contributed to understanding this problem, they commonly consider important simplifications such as assuming a linear behaviour of the structure and the soil. Some experimental works addressing adjacent structures have recently been conducted using geotechnical centrifuges and 1g shake tables. However, further research is needed to enhance the understanding of this complex phenomenon. A particular case of SSI is that of structures founded in fine loose saturated sandy soil. An iconic example was the devastating effects of liquefaction in Christchurch, New Zealand, during the Canterbury earthquake in 2011. In the case of adjacent structures on liquefiable soil, the experimental evidence is even scarcer. The present work addresses the dynamic interaction between adjacent structures by performing multiple experimental studies. The work starts with two-adjacent structures on a small soil container to expose the basics of the problem. Later, results from tests considering a more significant number of structures on a big laminar box filled with sand are presented. Finally, the response of adjacent structures on saturated sandy soil is addressed using a geotechnical centrifuge and a large 1g shake table. This research shows that the acceleration, lateral displacement, foundation rocking, damping ratio, and fundamental frequency of the structure of focus are considerably affected by the presence of neighbouring buildings. In general, adjacent buildings reduced the dynamic response of the structure of focus on dry sand. However, the acceleration was amplified when the structures had a similar fundamental frequency. In the case of structures on saturated sand, the presence of adjacent structures reduced the liquefaction potential. Neighbouring structures on saturated sand also presented larger rotation of the footing and lateral displacement of the top mass than that of the stand-alone case.
Introduction This poster presents the inferred initial performance and recovery of the water supply network of Christchurch following the 22 February 2011 Mw 6.2 earthquake. Results are presented in a geospatial and temporal fashion. This work strengthens the current understanding of the restoration of such a system after a disaster and quantifies the losses caused by this earthquake in respect with the Christchurch community. Figure 1 presents the topology of the water supply network as well as the spatial distribution of the buildings and their use.