Retrotec USACE User Manual

K12 ENERGY & PROCESS ASSESSMENT PROTOCOL

Hence, global recommendations for energy assessment protocol for old

buildings are as follows:

Identify the traditional building techniques according to the age of old

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buildings.
Understand the thermal behavior of the whole old building, with its

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active and passive measures.
Have a bioclimatic approach of the old building to understand the

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energy consumption.
Study the thermal behavior of the building in winter and summer.

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Consider that the most effi cient energy savings are often passive mea-

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sures (without equipment).
Do not create thermal bridges in old buildings where they do not exist.

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Do not propose energy savings solutions that may bring about structural

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disorders.

Old buildings and modern buildings differ in several holistic characteristics

and their subsequent energy impact (Table K1):

TABLE K1. SOME DIFFERENCES BETWEEN OLD AND MODERN BUILDINGS FOR

ENERGY ASSESSMENT.

Old buildings

Modern buildings

• Local materials and building design used during several centuries

• Location and orientation according to sun path, wind, and precipitation

(strong thermal interaction with microclimate)

• Indoor distribution with crossing rooms according uses

• Thermal buffer zones

• Specifi c optimized openings

• Materials very sensitive to water (variable U-value) but with a good dimen-

sional stability

• Signifi cant use of plaster and superfi cial coatings allowing the absorption of

air humidity without disorder (rooms without heating or cooling systems)

• Heavy structural masonries with strong thermal inertia inside the facades

and distribution walls

• Diversity of walls on the same fl oor according to use (representative stones

on the street side and wood side on the backyard)

• Diversity of wall thickness with structural constraints according to the fl oors

(reduced thickness for the higher fl oors)

• Wooden fl oors reasonably well insulated with good energy performance

• Materials fi lling partitions and fl oors with hygrothermical regulation properties

• Few thermal bridges in facades because of traditional building techniques

• Developed building systems according to new demographi-

cal, economical, and industrial constraints

• No optimization of climatic constraints: location, orientation,

openings, etc.

• Choices infl uenced by urban regulations

• Indoor distribution according general models in order to cre-

ate spaces independent of local environment.

• Industrial materials insensitive to water but sensitive to ther-

mal dilatations.

• Few absorptive materials inside the building

• Identical and prefabricated walls with limited thickness

• All walls are identical, industrialized, horizontal, and vertical

• Standardization of building design without any distinction

between structural walls and facades.

• Full concrete fl oors with heat transfer between different fl oor

levels

• Secondary materials with mainly an aesthetical role

• Signifi cant thermal bridges because of building techniques

with jointed prefabricated elements