Supply Specifications Form

This form is designed to assist AberGas in specifying the most suitable regulator/manifold assembly based on data provided by installers.

Please note: AberGas cannot be held responsible for incorrect specifications if the correct data has not been supplied.

Please make sure you fill in all required (*) fields.



* Your Name
 
* Company Name
 
* Address
 
Account number
(if applicable)
 
* Contact Email Address
 
 

Appliance information

 
Appliance 1 *
 
* Product Details
(manufacturer/product name or number)
 
* Max. Energy input
(MJ, BTU, kWh)
 
* Appliance Inlet pressure req'd
(psig, kPa, bar)
 
Appliance 2
 
Product Details
 
Max. Energy input
 
Appliance Inlet pressure req'd
 
Appliance 3
 
Product Details
 
Max. Energy input
 
Appliance Inlet pressure req'd
 
Appliance 4
 
Product Details
 
Max. Energy input
 
Appliance Inlet pressure req'd
 
Total
 
* Total Maximum MJ/hr Energy Demand "Input"
 
Extra Appliance
 
Extra Appliance use details

Where possible any additional information regarding the appliance may help us specify the correct regulator for the job. If there is any further relavant information that may help us it can be listed here.

 
 
* Demand
 

Demand is best described as the frequency of use of the appliance. Two key ''rules of thumb'' outline Continuous and Non-continuous demand; The commercial rule of thumb states that 1 x 45.0kg cylinder under Continuous demand can supply a total of 50MJ/h, where the residential rule states that an appliance 250MJ/h or under (1 x Paloma 26 for example) requires 1 primary cylinder and 1 reserve, when used under normal, Non-continuous demand in a domestic situation.
 
 

Intended cylinder setup

 
45kg Vapour W/D Cylinders
 
Number Primary
 
Number Reserve
 
Other Size
 
90kg Vapour W/D Cylinders
 
Number Primary
 
Number Reserve
 
Other Size
 
222kg Cylinders
 
Number Primary
 
Number Reserve
 
Other Size
 
Other Size Cylinders
 
Number Primary
 
Number Reserve
 
Other Size
 
Bulk tank install
 
Other Size
 
 

Regulator Preferences

 
Integral 1st and 2nd stage
 
Inlet size (mm)
 
Outlet size (mm)
 
Outlet/ Aplliance Pressure (After 2nd Stage) (kPa)
 
Pressure if second stage not required (kPa)
 
Manifold Required?
 
Split 1st and 2nd
 
Inlet size (mm)
 
Outlet size (mm)
 
Outlet/ Aplliance Pressure (After 2nd Stage) (kPa)
 
Pressure if second stage not required (kPa)
 
Manifold Required?
 
High Pressure regulator
 
Inlet size (mm)
 
Outlet size (mm)
 
Outlet/ Aplliance Pressure (After 2nd Stage) (kPa)
 
Pressure if second stage not required (kPa)
 
Manifold Required?
 
Single Stage
 
Inlet size (mm)
 
Outlet size (mm)
 
Outlet/ Aplliance Pressure (After 2nd Stage) (kPa)
 
Pressure if second stage not required (kPa)
 
Manifold Required?
 
Auto change
 
Inlet size (mm)
 
Outlet size (mm)
 
Outlet/ Aplliance Pressure (After 2nd Stage) (kPa)
 
Pressure if second stage not required (kPa)
 
Manifold Required?
 

1st stage regulator inlet pressure on LPG is normally around 400kPa depending on ambient temperature. 1st stage outlet pressure is normally between 75 - 130 kPa. This becomes 2nd stage inlet pressure.
 
 
Site Map Attachment If Applicable.
 

The site must conform to the clearances shown in the diagrams below (minimum clearance and hazard zone from NZS5261). If the proposed location for the cylinders does not meet these requirements, a new location must be found. Please note on all plans if the installation is to be put next to a structure, or out in the open.
 
 
 
Other Supporting Information

If you have any other specific questions relating to the specification of regulators or manifolds, please place here.

 
 
* Declaration

I declare that the information supplied above to Aber is correct, to the best of my knowledge, and I do not hold Aber responsible for specifications based on any incorrect information supplied.

 
 
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