Heating

HVAC tab in model data - Simple HVAC

The data required to define the heating system will depend on whether the HVAC model option is set to Simple or Compact and if set to Compact the type of Compact HVAC system selected.

Heating capacity

The heating capacity can either be entered by hand or can be Autosized using the Heating Design Calculations. By default, if immediately prior to a Simulation the heating capacity has not been entered (neither by hand nor from a previous Heating design calculation) then a Heating design autosizing simulation is started to calculate the capacity. The Plant sizing building model option controls the way this works.

You can change heating capacities by hand if you wish but you should bear in mind that, by default, if Model Options change, all heating and cooling capacities are reset to zero. Set the Plant sizing model option to '2-Manual' to avoid this happening.

If the HVAC system is Unitary multizone then the central heating coil capacity is calculated as the sum of the individual zone heating energy requirements.

Heating Plant

Heating fuel

Select the type of fuel used to generate the heating energy - choose from:

Interface Fuel Name	Fuel in results
1-Electricity from grid	Electricity
2-Natural Gas	Gas
3-Oil	Oil
4-Coal	Solid fuel
5-LPG	Bottled gas
6-Biogas	Bottled gas
7-Anthracite	Solid fuel
8-Smokeless Fuel (inc Coke)	Solid fuel
9-Dual Fuel Appliances (Mineral + Wood)	Other
10-Biomass	Other
11-Waste Heat	Other

You should select 1-Electricity from grid you wish the results displayed in DesignBuilder to agree with those calculated by EnergyPlus directly for District heating and displayed on the Summary tab of the Simulation screen.

Heating system CoP

The heating system Coefficient of Performance is used to calculate the fuel consumption required to meet heating demand. The value represents the total seasonal efficiency of the entire heating system and should include the effect of all energy consumption associated with building heating such as any boiler fan energy, boiler inefficiency, control equipment etc. It does not include energy involved in air or water distribution (fans or pumps) or control gear, which is accounted for in the Auxiliary energy.

Heating system CoP data is specified by zone so you can model different heating efficiencies in each zone. But generally you should access this data from the building level and allow zones to take on building default.

Local Heating Units

Heating type

There are two heating types available:

1-Convective - the space is heated by an air system and controlled to the air temperature set point. The system is modelled using the EnergyPlus "Ideal Loads" system.
2-Radiative/convective units - used for modelling general systems where a radiant heat is a factor. Allows modelling of convective systems, hot water radiator systems, underfloor heating systems, baseboard heating etc. using EnergyPlus 'High Temp Radiant System'.

1-Convective

When using Simple HVAC you can specify the heating supply air conditions of the air.

Maximum supply air delivery temperature

The maximum dry-bulb air temperature of the air supplied for heating the zone (in °C or °F).

Maximum supply air humidity ratio

The constant humidity ratio (mass of water per mass of dry air) of the warm supply air to be delivered when heating is required. The default humidity ratio is 0.0156. You should be careful to enter a value that is a valid condition, i.e. it is under the 100% saturation line on the Psychrometric Chart.

2-Radiant/Convective Units

When the Simple HVAC, 1-Room ventilation Mechanical ventilation and 1-DesignBuilder Simple HVAC autosizing method model options are set you can model radiant heating systems. Set the heating system type as 2-Radiant/convective units (above) and enter the heating radiant fraction and the way radiant heat is distributed through the space.

Important: Recent versions of EnergyPlus no longer support the radiant/convective option combined with Simple HVAC cooling systems, so if you need radiant heating and cooling in the same zone then you should switch to Detailed HVAC.

Heating radiant fraction

The fraction of the power input to the radiant heater that is actually radiant heat transfer. The fraction should be between 0 and 1. In conjunction with the Radiant distribution option, it defines the breakdown of how the power input to the heater is distributed to the rest of the zone.

Radiant distribution

The Radiant distribution allows you to control how the radiant heat from the Radiant unit is distributed around the room. Options are:

1-Uniform - radiant heat is distributed uniformly around the zone.
2-Floor - heat is distributed uniformly across all floors in the zone. Use this for modelling floor heating systems.

Technical Note

DesignBuilder uses the EnergyPlus 'HIGH TEMP RADIANT SYSTEM' to model radiant heating systems when in Simple HVAC mode. This system type is intended for modelling 'high-temperature' radiant sources but it can equally well be used for low temperature radiant sources.

Note: for all Simple HVAC systems, heating setpoint temperatures are defined on the Activity tab.

Operation

Heating operation schedule

This schedule data is used in conjunction with the heating setpoint temperatures on the Activity tab to define the time-varying heating setpoint schedule in the zone. The operation schedule defines the times when full and setback setpoints should be met and the setpoint data on the Activity tab define the actual setpoint values. See Defining setpoint temperature schedules for more on this.

Note: the zone heating operation schedule is also used in Detailed HVAC with the default 1-Simple HVAC Detailed HVAC Activity data setting.