BUILDING ENERGY - Spring 2018 - 11

Schöck Isokorb® Structural Thermal Breaks.
Cut heat loss up to 90% and prevent condensation and mold at balconies,
canopies, steel beams, slab edges, parapets and rooftop connections.

FF-1091

▶ Reduce heat loss by up to 90%
▶ Reduce heat energy usage of the entire
building by up to 14%
▶ Reduce heating system capacity by up to 14%
▶ Increase warmth of interior floors by up to
27°F/15°C
▶ Prevent condensation and mold formation
▶ Comply with new code requirements for
continuous insulation

Uninsulated balconies, canopies, steel beams, slab edges, parapets and
rooftop connections penetrating insulated building envelopes act like
cooling fins, creating a thermal bridge between the cold exterior portion of
the structure and the warm interior structure that supports it.
Structural Thermal Breaks (STBs) from Schöck prevent this problem
by insulating the building envelope at the point of penetration, while
supporting loads equivalent to conventional concrete and/or steel structures.
Rely on STB products and unsurpassed technical support from Schöck-
the originator and world's largest producer with more than 10 million
installations in 38 countries.
Schöck Structural Thermal Breaks (STBs) for concrete construction (left) contain
insulation and load-bearing components with rebar that is fully cast into
interior and exterior concrete structures at the penetration. STBs for steel
construction (right) provide a modular bolted assembly that connects interior
to exterior steel structures.

Schöck North America:
info@schock-na.com
www.schock-na.com
855 572 4625


http://www.schock-us.com http://www.schock-na.com

Table of Contents for the Digital Edition of BUILDING ENERGY - Spring 2018

From the Executive Director
From the Board Chair
Product Choices for High-Performing Building: Materials Matter
Designing Solar for High-Density Areas
High Performance Building Valuation Techniques
Starting with the End in Mind: Enhanced Turnover for Efficient Building Operations
Behavior Based Strategies and Organizational Change in Commercial & Public Buildings: The Human Component of Energy Efficiency
Commercial HVAC Retrofits That Work
Stretch Codes Emerge as a High Impact Strategy For Energy Savings
Scale it Up: Monitoring-Based Demand-Side Operations for NYC Agencies
The Retrofit Revolution
Index to Advertisers
BUILDING ENERGY - Spring 2018 - intro
BUILDING ENERGY - Spring 2018 - cover1
BUILDING ENERGY - Spring 2018 - cover2
BUILDING ENERGY - Spring 2018 - 3
BUILDING ENERGY - Spring 2018 - 4
BUILDING ENERGY - Spring 2018 - 5
BUILDING ENERGY - Spring 2018 - From the Executive Director
BUILDING ENERGY - Spring 2018 - 7
BUILDING ENERGY - Spring 2018 - 8
BUILDING ENERGY - Spring 2018 - 9
BUILDING ENERGY - Spring 2018 - From the Board Chair
BUILDING ENERGY - Spring 2018 - 11
BUILDING ENERGY - Spring 2018 - Product Choices for High-Performing Building: Materials Matter
BUILDING ENERGY - Spring 2018 - 13
BUILDING ENERGY - Spring 2018 - 14
BUILDING ENERGY - Spring 2018 - 15
BUILDING ENERGY - Spring 2018 - 16
BUILDING ENERGY - Spring 2018 - 17
BUILDING ENERGY - Spring 2018 - Designing Solar for High-Density Areas
BUILDING ENERGY - Spring 2018 - 19
BUILDING ENERGY - Spring 2018 - 20
BUILDING ENERGY - Spring 2018 - 21
BUILDING ENERGY - Spring 2018 - High Performance Building Valuation Techniques
BUILDING ENERGY - Spring 2018 - 23
BUILDING ENERGY - Spring 2018 - 24
BUILDING ENERGY - Spring 2018 - 25
BUILDING ENERGY - Spring 2018 - Starting with the End in Mind: Enhanced Turnover for Efficient Building Operations
BUILDING ENERGY - Spring 2018 - 27
BUILDING ENERGY - Spring 2018 - 28
BUILDING ENERGY - Spring 2018 - 29
BUILDING ENERGY - Spring 2018 - 30
BUILDING ENERGY - Spring 2018 - Behavior Based Strategies and Organizational Change in Commercial & Public Buildings: The Human Component of Energy Efficiency
BUILDING ENERGY - Spring 2018 - 32
BUILDING ENERGY - Spring 2018 - 33
BUILDING ENERGY - Spring 2018 - 34
BUILDING ENERGY - Spring 2018 - 35
BUILDING ENERGY - Spring 2018 - Commercial HVAC Retrofits That Work
BUILDING ENERGY - Spring 2018 - 37
BUILDING ENERGY - Spring 2018 - 38
BUILDING ENERGY - Spring 2018 - 39
BUILDING ENERGY - Spring 2018 - 40
BUILDING ENERGY - Spring 2018 - Stretch Codes Emerge as a High Impact Strategy For Energy Savings
BUILDING ENERGY - Spring 2018 - 42
BUILDING ENERGY - Spring 2018 - 43
BUILDING ENERGY - Spring 2018 - 44
BUILDING ENERGY - Spring 2018 - Scale it Up: Monitoring-Based Demand-Side Operations for NYC Agencies
BUILDING ENERGY - Spring 2018 - 46
BUILDING ENERGY - Spring 2018 - 47
BUILDING ENERGY - Spring 2018 - 48
BUILDING ENERGY - Spring 2018 - 49
BUILDING ENERGY - Spring 2018 - 50
BUILDING ENERGY - Spring 2018 - The Retrofit Revolution
BUILDING ENERGY - Spring 2018 - insert1
BUILDING ENERGY - Spring 2018 - insert2
BUILDING ENERGY - Spring 2018 - 52
BUILDING ENERGY - Spring 2018 - 53
BUILDING ENERGY - Spring 2018 - 54
BUILDING ENERGY - Spring 2018 - 55
BUILDING ENERGY - Spring 2018 - 56
BUILDING ENERGY - Spring 2018 - 57
BUILDING ENERGY - Spring 2018 - 58
BUILDING ENERGY - Spring 2018 - 59
BUILDING ENERGY - Spring 2018 - Index to Advertisers
BUILDING ENERGY - Spring 2018 - 61
BUILDING ENERGY - Spring 2018 - 62
BUILDING ENERGY - Spring 2018 - cover3
BUILDING ENERGY - Spring 2018 - cover4
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