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Nanaimo Regional General Hospital (NRGH) Climate Change Vulnerability Assessment Report

A climate change vulnerability assessment was conducted by the Vancouver Island Health Authority for Nanaimo Regional General Hospital (NRGH) using the PIEVC protocol. The work consisted of identifying the potentially vulnerable infrastructure systems, determining possible climate change induced effects on relevant climatic parameters, and developing a risk rating for each possible interaction. For each of the medium and high-risk interactions, recommendations for climate adaptation were provided.

French

Nanaimo Regional General Hospital (NRGH) Climate Change Vulnerability Assessment Report

A climate change vulnerability assessment was conducted by the Vancouver Island Health Authority for Nanaimo Regional General Hospital (NRGH) using the PIEVC protocol. The work consisted of identifying the potentially vulnerable infrastructure systems, determining possible climate change induced effects on relevant climatic parameters, and developing a risk rating for each possible interaction. For each of the medium and high-risk interactions, recommendations for climate adaptation were provided.

English

Newfoundland and Labrador Infrastructure: Three Case Studies

Risk assessment of three Newfoundland and Labrador infrastructure case studes: A bridge in Corner Brook, Stormwater infrastructure in Goulds, and a high school in Placentia.

French

Three Newfoundland and Labrador Infrastructure Case Studies

Risk assessment of three Newfoundland and Labrador infrastructure case studes: A bridge in Corner Brook, Stormwater infrastructure in Goulds, and a high school in Placentia.

English

Assessment of 285 Shuter Street Apartment Tower

This report is a Case Study of the climate change vulnerability of a residential high-rise apartment tower at 285 Shuter Street owned by Toronto Community Housing Corporation (TCHC) and occupied by residential tenants. The building is a 16-storey apartment building constructed in 1964 and part of the TCHC portfolio of social housing, which includes more than 2215 buildings including high, mid and low-rise apartments, townhouses and houses. It is part of a three-tower complex currently within the Toronto Tower renewal program.

French

Assessment of University of Saskatchewan Current Engineering Building and New Addition

In early 2011, the University of Saskatchewan (U of S), in cooperation with Engineers Canada, embareked on a joint-funded project to assess the potential vulnerability of the Engineering Building to climate change. Associated Engineering (AE) was retained to conduct the ristk assessment and report on the impacts that future climate change may have on the exisiting engineering building as well as on a proposed building expansion.

French

Infrastructure Ontario/Ministry of Infrastructure - Three public buildings

Golder Associates, with Morrison Hershfield (the Consultants), have performred a Climate Change Vulnerability Assessment study in alignment with the protocol developed by the Public Infrastructure Engineering Vulnerability Committee (PIEVC), for Infrastructure Ontario (IO). This study brought together experts in building systems engineering, energy, water, climate, cultural heritage and other key disciplines, who worked with IO's project team, facility stakeholders, Engineers Canada and Environmnet Canda, to complete this vulnerability assessment.

French

Government of Canada Tunney’s Pasture Campus

The Public Infrastructure Engineering Vulnerability Committee identified buildings as one of four priority classes of infrastructure for consideration using the First National Engineering Vulnerability Assessment to gauge vulnerability and adaptability of infrastructure to climate change.

Three buildings – one low-rise and two high-rise – at Tunney’s Pasture Campus in Ottawa were assessed in this case study. The Sustainable Development Group of HOK Architects of Ottawa conducted the case study.

French

Government of Northwest Territories Thermosyphon Foundations in Warm Permafrost

Passive cooling by means of pressured heat exchange pipes was developed in Alaska by the U.S. Army Corps of Engineers in 1965 to preserve foundations in ‘warm’ permafrost. It has been widely applied in Alaska, northern Canada and Russia to preserve and cool permafrost. The original simple 20mm vertical pipe with a radiator in the air has evolved into other designs that include: thermopiles, sloped pipe thermosyphons and flat loop evaporator pipe (flat loop) thermosyphons.

French

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