Open Source HVAC System: Difference between revisions
Jump to navigation
Jump to search
(Fixed an internal link) |
(Added some more information) |
||
| Line 2: | Line 2: | ||
*This page is going over how the whole of an HVAC system is run in an OBI building | *This page is going over how the whole of an HVAC system is run in an OBI building | ||
*Essentially what systems do what, and how the concept of temperature control, humidity control, and air quality/flow fit into the system that is the house | *Essentially what systems do what, and how the concept of temperature control, humidity control, and air quality/flow fit into the system that is the house | ||
=General Characteristics= | |||
*Energy Efficient | |||
*Smart (Can integrate with a [[BMS]] and/or weather station and/or the internet ) | |||
*Control over ALL factors (Temperature, Humidity, and Airflow), not just temperature | |||
*Hydronic Heating in Floors (and likely floor cooling) | |||
*Potential Storage | |||
*Potential Solar Thermal + Biomass Thermal Augmentation | |||
=Basic Sub-Systems= | =Basic Sub-Systems= | ||
Revision as of 04:04, 19 November 2020
Basics
- This page is going over how the whole of an HVAC system is run in an OBI building
- Essentially what systems do what, and how the concept of temperature control, humidity control, and air quality/flow fit into the system that is the house
General Characteristics
- Energy Efficient
- Smart (Can integrate with a BMS and/or weather station and/or the internet )
- Control over ALL factors (Temperature, Humidity, and Airflow), not just temperature
- Hydronic Heating in Floors (and likely floor cooling)
- Potential Storage
- Potential Solar Thermal + Biomass Thermal Augmentation
Basic Sub-Systems
Hydronics
- Open Source Hydronics System
- Currently heating via floor radiators
- Cooling should be easily adaptable
- Currently heating via floor radiators
- Any geothermal heat exchange/storage?