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Rørhåndboka 2025 Pluss
Prenøk
Styring og regulering av tekniske anlegg i bygg.
VVS-TV
Ventøk
Varmenormen (2017)
Vannbaserte oppvarmings- og kjølesystemer (2014)
Ventilasjonsteknikk Del I (utgave 2019)
Ventilasjonsteknikk Del II (utgave 2019)
VVS-tegning med oppgavesamling
Kompendium for Fgass-sertifisering (2019)
Praktisk kuldeteknikk
RHB digitalt tillegg
Sanitærteknikk - Prosjektering og utførelse av sanitærinstallasjoner i bygg
Stensaas, Leif I. Ventilasjonsteknikk Del I - Grunnlaget og systemer (1998)
Tekniske bestemmelser - Standard abonnementsvilkår for vann og avløp
Kuldehåndboka 2007
Veileder for vannbehandling i lukkede energianlegg
Klimadata M21
Driftøk
Arbeidsdokument
Introduction to ventilation
Indoor climate
Humid air
Varmeoverføring
Basic fluid mechanics
Basic fluid mechanics
The continuity equation
Bernoulli’s equation
Pressure measurements
Pressure changes in the ducting system
Friction losses and pressure loss gradient diagram
Hydraulic diameter
Equivalent diameter
Impact or local losses
Fluid mechanics with equations
Reynolds numbers
Hydraulic diameter
Kinematic viscosity
Laminar and turbulent airflow
Friction loss with equations
Moody's diagram
Impact loss (Minor loss)
Cross-sectional expansion
Cross-sectional reduction
Bend
Branching
Other minor losses
Pressure drop calculation and balancing
Pressure drop calculation and balancing without optimization
Pressure drop calculation and balancing with optimization
Airflow requirements
Main types of ventilation systems
Airflow patterns in rooms (under construction)
Sound and noise reduction in ventilation systems
Energy use in buildings
Demand-controlled ventilation
Ducts
Arbeidsdokument
Basic fluid mechanics
5
Basic fluid mechanics
5.1
The continuity equation
5.2
Bernoulli’s equation
5.2.1
Pressure measurements
5.3
Pressure changes in the ducting system
5.3.1
Friction losses and pressure loss gradient diagram
5.3.1.1
Hydraulic diameter
5.3.1.2
Equivalent diameter
5.3.2
Impact or local losses
5.4
Fluid mechanics with equations
5.4.1
Reynolds numbers
5.4.1.1
Hydraulic diameter
5.4.1.2
Kinematic viscosity
5.4.2
Laminar and turbulent airflow
5.4.3
Friction loss with equations
5.4.3.1
Moody's diagram
5.4.4
Impact loss (Minor loss)
5.4.4.1
Cross-sectional expansion
5.4.4.2
Cross-sectional reduction
5.4.4.3
Bend
5.4.4.4
Branching
5.4.4.5
Other minor losses
5.5
Pressure drop calculation and balancing
5.5.1
Pressure drop calculation and balancing without optimization
5.5.2
Pressure drop calculation and balancing with optimization