FlexEJ Home
/
/
/
Insulation Jackets
FlexEJ Low Loss Header Insulation Jackets

Insulation Jackets

FlexEJ Low Loss Header Insulation Jackets are robust and easy to fit. Jackets can be installed and removed with all piping attached to the low loss header.

Can’t find the size/spec you need? Call 01384 881188 or Live Chat our helpful technical sales team.
  • Filters
  • Filters
  • Products

Find the perfect Low Loss Header for the job at hand:

Fitting Type
Fitting Type
Pipe Size
Pipe Size
More..
Copper Pipe Size
Copper Pipe Size
More..
Boiler Rating
Boiler Rating
More..
Heat Pump Rating
Heat Pump Rating
More..
PN Rating
PN Rating
Max Operating Temperature
Max Operating Temperature - slider
110 °C110 °C
Min Operating Temperature
Min Operating Temperature - slider
-20 °C-20 °C
Connection Type
Connection Type
Conformance
Conformance
More..
Grid List

Can’t see what you want?

Need a hand with Low Loss Headers?

Go to our full Low Loss Headers page for full information and calculators. Or for instant advice call or our expert team on 01384 881188. Or use LIVE CHAT

Not sure what you need?
Want a hand with Low Loss Headers?

Go to our full Low Loss Headers page for full information and calculators. Or for instant advice call our expert team on +44 (0) 1384 881188 Or email us sales@flexej.co.uk or try Live Chat

Call Us

Frequently Asked Questions

A. Yes, to some extent, as the flow velocity in the body is low. We provide a Flamco AAV and DN25 drain valve on all FlexEJ low loss headers. However, separation is not as efficient as using a dedicated air/dirt separator as the main low velocity section in the LLH is bounded by turbulent cross flows.

A. Opinions vary but ideally all the primary circuit and secondary circuit flow and returns should be brought together in horizontal manifolds before connection to the low loss header.

A. On a vertical low loss header the returns connect at the bottom and the flows at the top. If the connections are staggered side to side then the lower pair are normally the primary side.

A. Sizing can be expressed in terms of flow rate or power. In heating systems, the total boiler power in the primary circuit is often taken as the sizing criteria. The power rating is directly proportional to the flow rate and temperature difference as given by m.Cp.Δt – Power (kW) = Mass flow rate (kg/s) * Specific Heat of Water (kJ/kg°K) * Temperature difference (°K). Our product table above shows both nominal flow rate and power ratings.

A. We have an online low loss header calculator we’ve built to help you – or do  please get in touch with the details of your system and we will be pleased to help.

A. Based on the flow rate through the low loss header the body is sized to achieve a very low flow velocity – typically less than 0.3m/s. This low velocity ensures a low pressure drop between flow and return.

A. Yes – strictly speaking hydraulic separation between circuits is achieved using a low loss header.

A. A low loss header (LLH) provides hydraulic separation between multiple pumped circuits. This allows each circuit to operate independently and to be controlled for optimum efficiency. The header presents very low pressure drop bypass between the flow and return. FlexEJ low loss headers are provided with sensor ports on all four branches so whatever control system is being implemented you will have the port you need.

A. Our Flange Finder contains details for many common flanges. Typically, to be able to make the identification you need to know the bore size or outside diameter and number of bolts. For technical assistance contact us or use our Live Chat facility.
Please visit our full FAQ page to see all our frequently asked questions.