How to guide
How to design a Distributed Pumping system
Designing your Distributed Pumping system is a breeze with Grundfos. Find out below what to consider when sketching out your system, or take the pressure off altogether – contact our dedicated experts for comprehensive design services and a calculation of the savings you’ll make.
Getting started
Your HVAC system requires a hydraulic headloss calculation to ensure all distributing pumps deliver the correct head and flow. Additionally, selecting the right pumps secures optimal efficiency in all areas.
The flow balancing between your primary loop and the secondary loop reduces the need for large primary pumps, so selecting the right set of primary pumps is equally important.
To get things done in the most efficient and effective way, you’ll need your project’s hydronic details such as:
- Equipment schedules for AHU, Chillers, FCU, PAHU etc.
- Pipe schematic
- Riser diagram
We’ve made designing your Distributed Pumping system easy
With our advanced design tools and expertise in designing HVAC pump solutions, we’ll convert your building project into an energy efficient Distributed Pumping solution.
Simply provide us your hydronic details and we’ll ensure the optimal Distributed Pumping design for your project, delivering:
- Schematic layout
- Energy saving report comparing Distributed Pumping solution with conventional system design
- Pump selection for primary and secondary side
- Project management and design validation
To get started, just fill out the form below.
Our application guide explains how Grundfos Distributed Pumping improves performance in chilled water systems and removes many of the shortcomings of conventional valve systems.
It provides a technical description of best practices in system design and control modes of distributed pumping topology for combined heating and chilled water systems.
Learn more about how to design your Distributed Pumping system
Find white papers and ECADEMY courses below for the in-depth information you need.
White papers
Learn how to increase end-user comfort, save energy and improve Delta T in chilled water systems.
ECADEMY: The MAGNA3 circulator pump
MAGNA3 circulator is with wet rotor design which eliminates the use of mechanical seal. This makes MAGNA3 a highly reliable in terms of use in HVAC applications in datacentres, hospitals & any other commercial building establishments where a high degree of uptime is sought after.
With inbuilt electronic controls, sensors and HMI, MAGNA3 circulator is just MORE THAN A PUMP for the given HVAC application.
Find out more in our below videos:
ECADEMY: Chilled water systems for air conditioning
Learn about air conditioning for HVAC systems and the typical challenges in their operation. In particular, we look closely at Variable Primary Flow systems, and how intelligent pump functionality can increase Delta T, so you can avoid penalties and save costs.
Explore your options – let’s talk
It’s easy to see why so many building owners are motivated to implement energy efficient solutions for their properties and assets.
If you’re interested in the benefits of Distributed Pumping and want to explore your options further, then we’re ready to provide you with expert insights.
How-to guides
For in-depth guidance on designing, installing and integrating Distributed Pumping systems, browse our how-to guides.