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Rørhåndboka 2024 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
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
Demand-controlled ventilation
An introduction
Demand-controlled and occupant-controlled ventilation
Spare capacity
Pitfalls and common mistakes
Full airflow rate in case of fire
Energy saving with demand-controlled ventilation
Simultaneity
Fan energy savings
Energy saving for the reheating coil
Energy savings for space heating
Components in the ductwork
DCV damper
Adjustment of airflow rate
Distance to flow disturbances
Master/slave coupling compared to parallel coupling
DCV device (active supply air device)
Automatic mechanical CAV damper
Damper with actuator
Pressure-controlled zone
Control parameter in the room
Location of sensors
Sensor location for displacement ventilation
Sensor location with mixing ventilation
Motion detector
Temperature sensor
CO2 and temperature sensor
Selection of building automation principle
Lokalt regulert anlegg
Centrally controlled system
Management level (Building Automation System (BAS))
Automation level
Field level
Distributed intelligence
Selection of control principle for fans
Pressure-controlled system
Static pressure sensor near the air-handling unit
Static pressure sensor in the duct
Pressure control with zone damper
Optimally controlled system
Fan speed control based on damper angle
Damper angle control with zone damper
Optimization via pressure point adjustment
Active supply air devices
Mixing of variable and constant zones in the same ductwork
Pressure-controlled system and air supply from pressure-controlled duct
Automatic mechanical CAV damper to constant flow rate room
Pressure control of the zone
Design baseline and documentation
Functional description
Room form with tags and airflow rates
Topology chart
Functional testing at handover and performance testing
Start-up of a pressure-controlled system
Pressure-controlled system / zone without optimal function
Pressure-controlled system / zone with DCV damper and balancing damper
Performance test
Maximum simultaneity of the building
Minimum airflow rate in the building
How to change the set airflow rate
Test measurement of airflow rate
Spot check by third party inspection
Ducts
Arbeidsdokument
Demand-controlled ventilation
11
Demand-controlled ventilation
11.1
An introduction
11.1.1
Demand-controlled and occupant-controlled ventilation
11.1.2
Spare capacity
11.1.3
Pitfalls and common mistakes
11.1.4
Full airflow rate in case of fire
11.2
Energy saving with demand-controlled ventilation
11.2.1
Simultaneity
11.2.2
Fan energy savings
11.2.3
Energy saving for the reheating coil
11.2.4
Energy savings for space heating
11.3
Components in the ductwork
11.3.1
DCV damper
11.3.1.1
Adjustment of airflow rate
11.3.1.2
Distance to flow disturbances
11.3.1.3
Master/slave coupling compared to parallel coupling
11.3.2
DCV device (active supply air device)
11.3.3
Automatic mechanical CAV damper
11.3.4
Damper with actuator
11.3.5
Pressure-controlled zone
11.4
Control parameter in the room
11.4.1
Location of sensors
11.4.1.1
Sensor location for displacement ventilation
11.4.1.2
Sensor location with mixing ventilation
11.4.2
Motion detector
11.4.3
Temperature sensor
11.4.4
CO2 and temperature sensor
11.5
Selection of building automation principle
11.5.1
Lokalt regulert anlegg
11.5.2
Centrally controlled system
11.5.2.1
Management level (Building Automation System (BAS))
11.5.2.2
Automation level
11.5.2.3
Field level
11.5.2.4
Distributed intelligence
11.6
Selection of control principle for fans
11.6.1
Pressure-controlled system
11.6.1.1
Static pressure sensor near the air-handling unit
11.6.1.2
Static pressure sensor in the duct
11.6.1.3
Pressure control with zone damper
11.6.2
Optimally controlled system
11.6.2.1
Fan speed control based on damper angle
11.6.2.2
Damper angle control with zone damper
11.6.2.3
Optimization via pressure point adjustment
11.6.2.4
Active supply air devices
11.6.3
Mixing of variable and constant zones in the same ductwork
11.6.3.1
Pressure-controlled system and air supply from pressure-controlled duct
11.6.3.2
Automatic mechanical CAV damper to constant flow rate room
11.6.3.3
Pressure control of the zone
11.7
Design baseline and documentation
11.7.1
Functional description
11.7.2
Room form with tags and airflow rates
11.7.3
Topology chart
11.8
Functional testing at handover and performance testing
11.8.1
Start-up of a pressure-controlled system
11.8.1.1
Pressure-controlled system / zone without optimal function
Pressure-controlled system / zone with DCV damper and balancing damper
11.8.2
Performance test
11.8.2.1
Maximum simultaneity of the building
11.8.2.2
Minimum airflow rate in the building
11.8.2.3
How to change the set airflow rate
11.8.2.4
Test measurement of airflow rate
11.8.2.5
Spot check by third party inspection