Emporium - South Structure
Oakville, Ontario, Canada

Identification

Also Known AsEmporium - South Structure

Primary AddressApproximately 2460 Prince Michael Drive[1]

Postal CodeL6H 0G8[1]

Additional Addresses2470 Prince Michael Drive[1]

FrontsDundas Street, and Prince Michael Drive

CityOakville, Ontario, Canada

Urban AgglomerationGreater Golden Horseshoe

ComplexEmporium at Joshua Creek

Nearby BuildingsEmporium - North Structure, and 209 Oak Park

Technical

TypeMid-Rise

DesignationResidential Condominium[1][2][3]

StatusComplete

Floors Above-Ground8[1][3]

Floors Below-Ground2[1]

Residential Suite Count121[1]

AmenitiesConcierge[1], Fire Feature, Fitness Facilities[3][4], Games Room[3], Guest Suite[3], Multimedia Room[3], Events Room[3], Hot Tub[3], and Pool - Indoor

Companies

ArchitectIBI Group[1][5]

Civil EngineersKrcmar Surveyors Ltd.[5]

DeveloperAshely Oaks Homes[1][2][3]

Electrical ContractorCrotech Electrical[1]

Electrical EngineeringM V Shore Associates Ltd.[1][5]

Elevator ContractorKONE Canada[1]

Excavating ContractorBlue Star Construction[1]

Foundation ContractorTrio Forming[1]

General ContractorAshely Oaks Homes[1]

Interior DesignMike Niven Interior Design Inc.[1][5]

Landscape ArchitectStrybos Associates Ltd.[1][5]

Mechanical EngineeringM V Shore Associates Ltd.[1][5]

Mechanical Trades ContractorMayfair Electric[1]

Precast Concrete ContractorRES Precast Inc[1]

Structural EngineeringStephenson Engineering Ltd.[1][5]

History

Complete (2012)

Proposed (2009 to 2012)

References

  1. 2010-11-23: Reed Construction Data, "Emporium Condominium, Phase One, South Building, 2460, 2470 Prince Michael Dr, Dundas St W, L6H 0G8"
  2. 2010-11-01: Condo Life, "November 2010 Edition"
  3. 2012-04-27: National Post, "Street Smarts: Four new Oakville condos"
  4. 2009-12-07: HomeGuides, CondoGuide - The GTA Edition, "Have it all at Emporium at Joshua Creek", page(s) 140
  5. 2010-11-23: Reed Construction Data, "Emporium Condominium, Phase Two North Building, 2480 Prince Michael Dr, Dundas St W, L6H 0G8"