Plant Application Guide — EnergyPlus 9.6

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Primary Chilled Water Loop – Chiller(s) and purchased cooling[LINK]

The Secondary Cooling system is constructed by using a PlantLoop object. It uses two chillers (a small constant COP chiller and a bigger electric chiller) and purchased district cooling. Therefore, the supply side of the loop contains the chillers and the purchased cooling, and the demand side contains one side of the plate heat exchanger. The loop is operated by using plant equipment operation schemes and schedules. Refer to Figure 1 for a simple diagram of the Primary Cooling Loop.

Simple line diagram for the primary chilled water loop [fig:simple-line-diagram-for-the-primary-chilled]

Simple line diagram for the primary chilled water loop [fig:simple-line-diagram-for-the-primary-chilled]

Flowcharts for the Primary Chilled Water Loop Input Process[LINK]

This series of flowcharts serve as a guide for identifying and inputting the Primary Chilled Water loop and its components into the input file. The working fluid in this loop is water. The EnergyPlus line diagram for this loop is provided in Figure 2. A simple flowchart for the separation of the half loops is provided in Figure 3.

EnergyPlus line diagram for the primary chilled water loop [fig:energyplus-line-diagram-for-the-primary]

EnergyPlus line diagram for the primary chilled water loop [fig:energyplus-line-diagram-for-the-primary]

Simple flowchart for the separation of half-loops in the primary chilled water loop [fig:simple-flowchart-for-the-separation-of-half]

Simple flowchart for the separation of half-loops in the primary chilled water loop [fig:simple-flowchart-for-the-separation-of-half]

Primary Cooling System Supply Side Loop Construction[LINK]

The main components on the supply side half loop for the primary chilled water loop are two chillers and district cooling object that supply chilled water and the constant speed pump that circulates the chilled water through the loop. This pump (‘CW Primary Circ Pump’) is the primary pump in the primary/secondary pumping setup. This half loop supplies chilled water to the plate heat exchanger which is placed on the demand side half loop. The supply side half loop contains six components, six branches, twelve nodes, and one splitter-mixer pair. The EnergyPlus line diagram for the Primary Cooling loop supply side is provided in Figure 4. The flowchart for supply side branches and components is provided in Figure 5. The flowchart for supply side connectors is provided in Figure 6.

EnergyPlus line diagram for the supply side of the primary chilled water loop [fig:energyplus-line-diagram-for-the-supply-side-005]

EnergyPlus line diagram for the supply side of the primary chilled water loop [fig:energyplus-line-diagram-for-the-supply-side-005]

Flowchart for Primary Cooling Loop supply side branches and components [fig:flowchart-for-primary-cooling-loop-supply-side-branches-and-components]

Flowchart for Primary Cooling Loop supply side branches and components [fig:flowchart-for-primary-cooling-loop-supply-side-branches-and-components]

Flowchart for Primary Cooling Loop supply side branches and components [fig:flowchart-for-primary-cooling-loop-supply-side-connectors-2016-06-17]

Flowchart for Primary Cooling Loop supply side branches and components [fig:flowchart-for-primary-cooling-loop-supply-side-connectors-2016-06-17]

Primary Cooling Loop Demand Side Loop Construction[LINK]

The main component on the demand side half loop is the plate heat exchanger that facilitates the exchange of heat between the fluids of the primary and secondary chilled water loop. The plate heat exchanger will not be discussed in this loop. Instead the object will be discussed in the supply side half loop of the secondary chilled water loop. This side of the loop also has eight nodes, four components, four branches, and one splitter mixer pair. An EnergyPlus schematic for the demand side is provided in Figure 7. The flowchart for demand side branch definition is provided in Figure 8. The flowchart for the demand side connectors is provided in Figure 9.

EnergyPlus line diagram for the demand side of the primary chilled water loop [fig:energyplus-line-diagram-for-the-demand-side-005]

EnergyPlus line diagram for the demand side of the primary chilled water loop [fig:energyplus-line-diagram-for-the-demand-side-005]

Flowchart for primary chilled water loop demand side branches and components [fig:flowchart-for-primary-chilled-water-loop-demand-side-branches-and-components]

Flowchart for primary chilled water loop demand side branches and components [fig:flowchart-for-primary-chilled-water-loop-demand-side-branches-and-components]

Flowchart for primary chilled water loop demand side connectors [fig:flowchart-for-primary-chilled-water-loop-demand-side-connectors]

Flowchart for primary chilled water loop demand side connectors [fig:flowchart-for-primary-chilled-water-loop-demand-side-connectors]

Flowcharts for Primary Chilled Water Loop Controls[LINK]

The Primary Cooling loop is operated by using set-points, plant equipment operation schemes and schedules. The plant equipment scheme for the on peak and off peak operation of the chillers is very important

Primary Chilled Water Loop Schedules[LINK]

The Primary Cooling loop uses three different schedules to operate properly. On Peak is a compact schedule that defines the on peak hours (9 AM to 6 PM). The Off Peak is a compact schedule that defines the off peak hours (6 PM to 9 AM). This plant loop also uses another compact schedule named CW Loop Temp Schedule declare that the temperature of the chilled water loop outlet flow is 6.7 degrees Celsius at all times. This schedule is used by the setpoint manager (Primary CW Loop Setpoint Manager). This schedule uses a schedule type limit named Temperature, which defines the loop upper and lower temperature limits. The flowchart for Primary Cooling loop schedule definition is provided in Figure 10.

Flowchart for primary chilled water loop schedules [fig:flowchart-for-primary-chilled-water-loop-schedules]

Flowchart for primary chilled water loop schedules [fig:flowchart-for-primary-chilled-water-loop-schedules]

Primary Chilled Water Loop Plant Equipment Operation Schemes[LINK]

There are two important operation schemes in the primary chilled water loop. The CW Loop Operation plant equipment operation scheme used two schedules (On Peak and off Peak) to control the supply components in the primary cooling loop. Peak Operation is set up such that different components or combinations of components are operated for different values of cooling load during the peak hours (9AM to 6PM everyday) of the simulation period. Up to 25,000 W of cooling load, the small constant COP chiller is operated, for 25,000-245,000 W the big electric chiller and purchased cooling are used and for 245,000-500,000 W purchased cooling is used. This setup serves to increase the efficiency of the system. Off Peak Operation is set up such that both the chillers are operated during the off peak hours (6 PM to 9 AM). Flowcharts detailing the chilled water loop plant equipment operation schemes are provided in Figure 11 and Figure 12.

Flowchart for on peak operation of the primary chilled water loop [fig:flowchart-for-on-peak-operation-of]

Flowchart for on peak operation of the primary chilled water loop [fig:flowchart-for-on-peak-operation-of]

Flowchart for off peak plant operation of the primary chilled water loop [fig:flowchart-for-off-peak-plant-operation-of]

Flowchart for off peak plant operation of the primary chilled water loop [fig:flowchart-for-off-peak-plant-operation-of]

Primary Chilled Water Loop Setpoints[LINK]

The Primary CW Loop Setpoint Manager uses the CW Loop Temp Schedule to set a temperature control point at the CW Primary Supply Outlet Node. This setpoint allows the program to control the temperature at the node by operating the components in the Primary Cooling loop. Since, setpoint managers are high-level control objects, their usefulness is realized in much more complex systems, where multiple nodes have to be monitored in order to operate the system properly. A flowchart for Secondary Cooling loop setpoints is provided in Figure 13.

Flowchart for Primary Cooling Loop setpoints [fig:flowchart-for-primary-cooling-loop-setpoints]

Flowchart for Primary Cooling Loop setpoints [fig:flowchart-for-primary-cooling-loop-setpoints]