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EnergyPlus and Model Outputs

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CEE 243:Week 5

Introduction to EnergyPlus & Model Outputs

E+ model of Y2E2

James O’Donnell Ph.D.

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EnergyPlus and Model Outputs

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Agenda

1. EnergyPlus Concepts

2. Examples

3. Ideal Industry Integration of Simulation

4. Conclusions

5. Homework

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Big ideas

• creating simulation models requires a process

to model the facility and populate assumptions

about building thermal properties

– Best to create analyses with careful attention to a

well-established process

• E+ allows flexible assumptions and simulation

outputs. This session shows:

– The principles behind EnergyPlus

– Visualization of important E+ Outputs

– Other possible simulation outputs

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EnergyPlus Concepts

• E+ assumes

– Time dependent heat conduction

• Conduction through building surfaces calculated with

conduction transfer functions

• Heat storage and time lags

– Air Migration between zones

• Air exchange follows a nodal model

– Only analyzes what is explicitly described

• Missing wall does not let air in

• Missing roof does not let sun in

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EnergyPlus Concepts (cont’d)

• Heat balance loads calculation (one of two load

calculation methods recommended by

ASHRAE)

• Moisture balance calculation

• Simultaneous building/systems solution

• Sub-hourly time steps

• Modular HVAC system simulation

• WINDOW 6 methodology

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EnergyPlus Concepts (cont’d)

• Simple input/output file structures

• No surface, zone or system limits

– Defaults to 50 coils per HVAC loop

– Can be increased

• Links to other software

– COMIS, wind-induced airflow

– TRNYSYS, Photovoltaics

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EnergyPlus Structure

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Note: these UIs

are not available

in mid-2011

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Integrated Simulation Manager

• Fully integrated simulation of loads,

systems and plant

– Integrated simulation allows capacity limits to

be modeled more realistically

– Provides tighter coupling between the air-

and water-side of the system and plant

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Integrated Simulation Manager (cont’d)

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Note: these arrows

represent two-way

information flow

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Today’s Learning Itinerary

• Run Control

• Geometry

• Internal Loads

• Systems

• Control

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Process to create an EnergyPlus model

BIM

GST

IDF Generator

(LBNL project)

IDF Geometry

IFC Geometry

IDF Setpoints

Schedules

IDF HVAC

systems

IDF Controls

Architectural

drawings

Mechanical

drawings

EPW Weather

file

Field

surveys

Manufacturer

product data

Predicted

data Material

library

Data Format

Legend:

Model or data

Process Tool

Information Flow

Design BIM

Analytical BIM

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Examples

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Examples

1. Example 1: Geometry Only

2. Example 2: Manually modify to add

insulation for one zone

3. Example 3: Load Determination

4. Example 4: HVAC System

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Example Description

• 1 zone building with a door and a window on the south façade.

• Construction Descriptions – Walls, Floors, Ceiling (Cavity Wall)

– Window (Single Pane)

• Create in ArchiCAD

• Save as IFC

• Run Through GST

• GST Output = Energyplus input file.

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Run Control

Assume:

• Design Day (San Jose)

• Design Day Only

• No annual simulation

15 4/28/2011 CEE243

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Simple Model Setup

• Box model with concrete walls low

thermal mass (Shown in Sketch Up).

– 1 South Facing Window

– 1 South Facing Door

• Necessary Inputs

• Design Day Data (Santa Clara).

16 4/28/2011 CEE243

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Simple Model 1 Output

• Outputs with an RVI file

• Look at zone temperature

• Conductive heat transfer

• Output Contains OA DB, Zone DB, Perhaps Wall Conductance

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Example 1: Output (2 Two Design Days)

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Example 1: AO DB Temp V Zone DB Temp

Temp (C)

-5

0

5

10

15

20

25

30

35

Environment:Outdoor Dry Bulb [C](Hourly) TESTZONE_001:Zone/Sys Air Temperature [C](Hourly)

Note: zone temp swings far

from assumed functional

intent of 23oC ~= 74oF

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Simple Model 2

• Add insulation to the walls

• Add Triple Glazing

• Compare with previous results

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Example 2: Output (2 Design Days)

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0

5

10

15

20

25

30

35

Tem

pe

ratu

re C

Example 2: AO DB Temp V Zone DB Temp

Environment:Outdoor Dry Bulb [C](Hourly) TESTZONE_001:Zone/Sys Air Temperature [C](Hourly)

Note: zone temp stays

close to assumed functional

intent of 23oC ~= 74oF

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Simple Model 3

• Zone sizing

• System sizing

• Highlight Max heating and cooling loads

and max heating Load

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Simple Model 3 Outputs: Zone Sizing

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0

2000000

4000000

6000000

8000000

10000000

12000000

14000000

Sen

sib

le L

oad

(W

)

Zone Sensible Load: Alternative 1

TESTZONE_001:Zone/Sys Sensible Heating Energy [J](Hourly) TESTZONE_001:Zone/Sys Sensible Cooling Energy [J](Hourly)

Note: heating in winter

Note: cooling in summer

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Example 3: Impact of moving building from San Jose to San Francisco

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0

2000000

4000000

6000000

8000000

10000000

12000000

14000000

Lo

ad (

J)

Design Days: Zone Sensible Loads

TESTZONE_001:Zone/Sys Sensible Heating Energy [J](Hourly) TESTZONE_001:Zone/Sys Sensible Cooling Energy [J](Hourly)

Note: heating in winter

slightly less

Note: cooling in summer

slightly less

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Systems Definition

• Engineering Description (On Board)

• E+ Description (On Board)

• Additional inputs

– Setpoint Schedules,

– Branches etc.

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Example 4: System Temperatures

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0

5

10

15

20

25

Tem

pe

ratu

re C

System Dry Bulb Temperatures

Environment:Outdoor Dry Bulb [C](Hourly)AIR LOOP INLET NODE:System Node Temp[C](Hourly)COOLING COIL AIR INLET NODE:System Node Temp[C](Hourly)ZONE 1 NODE:System Node Temp[C](Hourly)ZONE 1 DAMPER INLET NODE:System Node Temp[C](Hourly)

Note: outdoor air temp in

winter is cold

Note: higher air loop inlet temp

during occupied hours

Note: space loads raise

cooling coil inlet temp

above air loop inlet temp

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Output Tables

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End Uses

Electricity

[GJ]

Natural Gas

[GJ]

Other Fuel

[GJ]

District

Cooling [GJ]

District

Heating [GJ] Water [m3]

Heating 0 0 0 0 0 0

Cooling 0 0 0 0 0 0

Interior

Lighting 0.31 0 0 0 0 0

Exterior

Lighting 0 0 0 0 0 0

Interior

Equipment 0.53 0 0 0 0 0

Exterior

Equipment 0 0 0 0 0 0

Fans 0.27 0 0 0 0 0

Pumps 0.06 0 0 0 0 0

Heat

Rejection 0 0 0 0 0 0

Humidificatio

n 0 0 0 0 0 0

Heat

Recovery 0 0 0 0 0 0

Water

Systems 0 0 0 0 0 0

Refrigeration 0 0 0 0 0 0

Generators 0 0 0 0 0 0

Total End

Uses 1.16 0 0 0 0 0

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E+ Outputs

• Variables

• Meters

• Geometry

• Reports

• Daylighting

• Fuel and Environmental

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Conclusions

• Overview of EnergyPlus

• How to request EnergyPlus outputs

• How to read EnergyPlus outputs

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Homework

• Look at E+ Getting Started Guide

Tutorials 1 & 2

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CEE 243: Week 5

E+ model of Y2E2

James O’Donnell Ph.D

Material Courtesy of Tobias Maile Ph.D

Copyright 2011

EnergyPlus and Model Outputs

CEE 243

Agenda

• Geometry model

• HVAC model

• Homework

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• complex processes associated with

analytical model development

• Current simulation tools require many

assumptions and work-arounds to

address current limitations

Big Ideas

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Creating an EnergyPlus model

BIM

GST

IDF Generator

(LBNL project)

IDF Geometry

IFC Geometry

IDF Setpoints

Schedules

IDF HVAC

systems

IDF Controls

Architectural

drawings

Mechanical

drawings

EPW Weather

file

Field

surveys

Manufacturer

product data

Predicted

data Material

library

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Geometry

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Y2E2 ArchiCAD Screenshot of design model

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Office

s

Corrido

r

Atria

Conference

Restrooms

IT-room

Electrical

room

Class room

Storage

Kitchen

AHU1

AHU2 AHU3

2nd floor room layout: Note: spaces have functions

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Boundary for air

handler unit

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2nd floor zoning (simplified model)

Radiators

Active beams (AHU1)

Fan coil units Active beams (AHU3)

Active beams (AHU2)

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Geometric features

• “Real” 3D geometry (simplified)

• Thermal zones based on HVAC equipment type

• “Air walls” to separate atria from other zones – assumed

walls with high thermal conductivity

• Geometric features have construction and material

definitions used in energy analysis

• Shading devices (roofs & on south façade)

• Simplified E+ windows (no “Window6” files)

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DXF screenshot of analytical model

39

Note: missing

elements that

must be added

manually back to

analytical model

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Manual additions to geometry model

• Atria windows do not get across (triangular)

• Roof windows (skylights) do not get across (limitation in

ArchiCAD)

• Other manual corrections (window to wall relationships,

etc.)

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Constructions and materials

• Define construction including

material layers with thickness

in ArchiCAD

• IDFGenerator looks up

material name in E+

database and assigns

material parameters (e.g.,

density)

• Direction of material layer

matter (turn asymmetric

constructions around)

– From outside the zone into it

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Air

systems

Radiant slab

PV

VAV reheat

CAV Active

beams

Fume

hoods

Radiators

Radiators

Radiators

CAV Active

beams

CAV Active

beams

FC

units

FC

units

FC

units

Server

rack

Tempered

cold water

system

Tempered

hot water

system

Main

cold

water

system

Main

hot

water

system

CoGen

hot

steam

CoGen

chilled

water

HVAC system

overview

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Geometry simplifications/assumptions

• Beams and columns are ignored

• All zones are full height (no plenum spaces)

• Inconsistent 2D drawings

-> Alignment of elements between floors

• No internal doors (insignificant)

• No internal shading devices (blinds)

• Manual windows are always closed

• 3rd-5th level space boundaries are ignored

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2nd and 3rd level space boundaries

Space 005(#1415)

Space 001

Space 003

Space 004

Space 005(#1415)

Space 001Space 003

Space 004

Space boundary

Wall 010

Wall 011

Wall 004

Wall 001

Wall 012Gap due to the wall-butt-print

Source: IAI - Implementation guideline for 2nd level space boundaries 44

2nd Level space boundary

#1: interior to interior

2nd Level space

boundary #2

1st Level space

boundary #1:

interior to exterior

3nd Level space

boundary #1

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HVAC

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HVAC assumptions/simplifications

• No pressure is modeled

• Natural ventilation (simplified for now)

– ZoneVentilation object

• CV/VAV approximation

• AHU simplification (supply and return difference cannot

be modeled in E+)

• Main and tempered water loops are separate in E+ but

connected in reality

• Steam connection simplification (no heat exchanger

steam to hot water available in E+)

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HVAC air system – typical offices

CAV

Active beam

Zone 1

Active beam

Zone 2

AHU

Atrium

Cooling Coil

Cooling Coil Cooling Coil Heating Coil Heating Coil

Simplification for E+:

• E+ can only model

either CAV or

Active Beam

• Since air flow for

active beams is

constant this

assumption is

probably not

problematic

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AHU simplifications

Fan

Zone 1

Zone 2

ACB

ACB

Coil Plenum

Outside Air

Mixer

Coils

Heat Recovery

Outside

Simplification for E+:

• Closed loop

• Supply air flow = exhaust airflow

• Heat recovery efficiency needs

to be reduced

• Exhaust fan parameters adjusted Fan

Outside

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Steam supply simplification

District hot water

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Actual Model

To zone equipment To zone equipment

Main and tempered water loops

50

Simplified analytical model for E+

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Update input

IDF Geometry

IDF Setpoints

Schedules

IDF HVAC

systems

IDF Controls

EPW Weather

file

Observed data

(Y2E2)

Predicted

data

Space Air Temp

Setpoint

Estimated plug

loads and lighting

Outside Air Temp

Wetbulb Temp or

Relative Humidity

Wind direction and

speed

Direct and diffuse

solar radiation

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Outputs: Annual (2009) Energy Use

0

1,000,000

2,000,000

3,000,000

4,000,000

5,000,000

6,000,000

7,000,000

8,000,000

9,000,000

10,000,000

COOLING ELECTRICTY HEATING

MEASURED SIMULATED

MJ

52

Note: causes of

discrepancies not

yet understood

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Output: Monthly Energy Consumption

0

100,000

200,000

300,000

400,000

500,000

600,000

700,000

800,000

900,000

1,000,000

Jan 2009 Feb 2009 Mar 2009 Apr 2009 May 2009 Jun 2009 Jul 2009 Aug 2009 Sep 2009 Oct 2009 Nov 2009 Dec 2009

MEA-COOLING MEA-ELECTRICTY MEA-HEATING

SIM-COOLING SIM-ELECTRICTY SIM-HEATING

MJ

53

Measured heating

inverse of cooling

Measured –

simulated gaps

Measured –

simulated gaps

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EnergyPlus and Model Outputs

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• complex processes associated with

analytical model development

• Current simulation tools require many

assumptions and work-arounds to

address current limitations

Big Ideas

54