GLD FEATURES

Until now, designing anything other than a rectangular loopfield was a tedious job that required manual operations external to the GLD software.  In the real world, layouts need to work with real world obstacles and the GridBuilder lets you quickly build and visualize complex shapes and layouts from within the user interface.  Need to install a loopfield beneath an irregular parking lot?  GLD now allows the designer to easily create and simulate an unlimited range of unique loopfield designs. The GridBuilder is available in GLD2012 Premier.

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A visual representation of how borehole layout and soil thermal properties influence ground temperature changes over time is useful for understanding the thermodynamic ins and outs of a particular design.  The new “G” function visualizer gives the designer a new high level view of layout effectiveness.  In conjunction with the new GridBuilder tool, the designer can see how the layout affects the design in a way that goes  beyond just looking at the numbers.  No other geothermal design tool can begin to match this functionality or design power.

Do you have a plot of land that might be big enough for a horizontal design? Now with GLD2012 you can input the length and width of the field and GLD will calculate how the horizontal system will perform. Similar in function to the vertical fixed length mode, the new fixed area mode for horizontal systems opens up a wide new field of geothermal design.

GLD2012 provides a new tool that calculates and graphs how the temperatures in the horizontal system are expected to cycle over the design lifetime.

The Geothermal System Analyzer Module is the most comprehensive geothermal lifecycle analysis tool on the market. Ever wondered how much money your client will save from both bonus and MACRS depreciation? How much C02 will your system save over the next 10 years? What will be the lifetime cost of replacing your mechanical equipment every 15 years vs. every 22 years? Now you can do all of this and much more with the GSA Module.

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New controls in GLD2012 help ensure that your design performs within heat pump specifications over the long term. For example, if your inlet temperatures creep outside the acceptable range for a particular heat pump GLD will now let you know with a message to warn you along with identifying the parameter in red.

With the new GSA Systems Analyzer Module, high quality graphs are available for use with reports to customers or for feasibility reports. It is not necessary to create your own graphs as GLD now provides a variety of selectable graphs to illustrate the financial value of system choices in Geothermal vs Conventional systems.

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The TC module enables designers to quickly import raw conductivity test data from the GeoCube (a test unit manufactured by www.precisiongeothermal.com) as well as from other test units. The latest version has more automatic functions, calculates borehole thermal resistance (BTR) from in-situ data and offers enhanced graphing capabilities .

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This new module enables designers to easily model, analyze and optimize the piping systems that comprise the foundation of ground heat exchanger systems. Piping systems consist of a wide possible range of connected components including: Manifolds/Vaults, Supply and Return Runouts, Supply and Return Headers, single and double u-bends, the fittings that connect the systems together and circulation pumps. Utilizing a new, patent-pending visual interface for viewing and creating a design via a drag and drop methodology, the CFD module can automatically design optimal flow-balanced (direct and reverse return) systems while providing designers with the flexibility they need for standard and non-standard systems. Outputs include flow rates, fluid velocities, Reynold's numbers, pressure drop, fluid volume and the like for every single point in a dynamic geothermal piping system. The GLD CFD Module is the first tool in humanity's toolbox for modeling the complex fluid dynamics in geothermal heat exchanger systems.

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With a new g function engine based off of recent heat transfer research advances, GLD can now model the bore and fluid temperatures and equipment performance hour by hour over one or more design years. The hourly simulation provides very fine control over design and optimization and enables (for example) advanced solar thermal recharge simulations and more precise average annual kWh consumption and performance (COP/EER) calculations. The hourly output reports are well suited for inclusion in LEED submittal materials. GLD accepts hourly inputs from programs such as Trane Trace, the IES Virtual Environment and Excel.

Time of Use (TOU) modeling is becoming more common globally as utilities have started charging differential rates for electricity based on its time of use. Therefore, modeling TOU consumption for geothermal systems is growing in importance. With GLD 2010 and hourly loads data, TOU modeling based off of any type of TOU schedule is a straightforward process. After a system is designed and an hourly energy simulation is run, the user can view hourly kWh consumption and use these data to calculate TOU-based costs.

Demonstrating to clients the projected kWh consumption for a particular loopfield traditionally has been a daunting task. Now GLD performs these complex calculations automatically using monthly or hourly loads data, a dynamic heat pump model, and the details of a particular design. Predicted average annual kWh consumption is reported with each design iteration.

The design dashboard is a new tool that enables the designer to quickly review and compare the results from design day, monthly and hourly simulations of a particular vertical borehole system. By being able to easily view the results from each type of simulation, the designer is in a better position to understand the impact of the loads profile and loopfield design on the system performance and then to make modifications to the design (and possibly building design) to design an optimal system.

The enhanced ever present UI speeds up your designs

In addition to manual input controls for thermal conductivity and diffusivity parameters, the new version of GLD includes a weighted average conductivity/diffusivity calculator that enables a designer to use a drilling log to estimate thermal conductivity and diffusivity via weighted average calculations. Although an in-situ thermal conductivity/response test is considered the gold standard, when such a test cannot be performed the weighted average calculation is a potentially useful alternative. GLD includes a database of approximately 100 soil types.

The new user interface enables designers to effortlessly select from the three calculation methodologies (design day, monthly and hourly) via a selection box. This interface ensures that designers select their preferred design methodology with ease.

A powerful new graphing module provides designers with the ability to visually analyze design results in new ways. For example, users can zoom in easily on an area of interest and then zoom back out to review the entire data set as necessary.

Designers can now import monthly and/or hourly loads files from leading energy simulation tools including the IES Virtual Environment and the Trane Trace Product Line. After designing a system, users can then export their calculated results back to these programs for integration into the overall building simulation.

Designers can now export their vertical loopfield designs directly into AutoCAD.

Designers can now include their company logo in GLD-generated reports. Users can also prepopulate reports with standard company information.