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Hiline Copper - Rigid Pre-insulated Copper Pipe System

A pre-insulated pipe system for district heating, cooling and potable water applications

Hiline logo 300px

 

 

Manufactured in accordance with BS EN 253, this rigid, bonded pre-insulated copper pipe system is suitable for district heating, cooling and potable water applications – efficiently operating at temperatures up to 120°C continuous. Available in dimensions ranging from 15mm to 159mm OD and supplied in 6 metre lengths.

Applications

The list of applications that are suitable for the Hiline Rigid Polymer pre-insulated pipe system is vast, but typically, it is used above and below-ground, on domestic, commercial and industrial sites for conveying:

  •   District heating
  •   Chilled water
  •   Potable Water
  •   Hot Water
  •   Option for barrier casing for use in contaminated / brownfield ground

Manufacture and Standards

Pre-insulated pipes and fittings for thermal utilities are manufactured within an ISO 9001 accredited environment in accordance with EN 253, EN 448, EN 488, EN 489, EN 13941

Service Pipes

Copper pipe in accordance with EN 1057 - Cu-DHP, R250 and R290. Options available for:

BS EN 1057 Table Y

For underground works and heavy duty requirements including hot and cold water supply, gas reticulation, sanitary plumbing, heating and general engineering. or

BS EN 1057 Table X

For above ground applications including drinking water, hot and cold water systems, sanitation, central heating, and other general purpose applications.

Properties
· Suitable for district heating schemes
· Operating temperatures up to 120°C (subject to pressure & service life parameters)
· Peak temperature for short periods 130°C

Efficient Insulation

A key component in the efficiency of the Hiline pipe systems is our choice of CFC-free polyurethane foam to provide excellent levels of insulation – in accordance with the demands of the EN 253 standard. Using cyclopentane as the blowing agent, we achieve very-low lambda levels – which result in much-reduced energy losses to the media being conveyed by the service pipe. The effects of using a more efficient insulation don’t appear to be much at face value, but factor in a 30-year life-cycle cost of operating the system and the savings – both financial and environmental – mount up significantly. When looking at the life-cycle-costs of a district heating pipe network, the initial capital investment is typically around ten percent – with the biggest cost being the on-going operation.

  •  High-efficiency CFC-free, rigid polyurethane foam insulation
  •  Different thicknesses available (Series 1, 2 and 3)
  •  Available with optional trace or maintained heating cables
  • Thermal conductivity coefficient 0.022 w/mK

Casing Pipes

Casing pipe is manufactured in accordance with standard EN 253 from high density polyethylene (HDPE)

Properties

  •  Density 950 kg/m³
  •  Upper yield stress 19 MPa
  •  Elongation at break at least 350%
  •  Expected life at least 50 years


HDPE casing is also available with additional UV stabiliser offering greater protection against direct sunlight for above-ground installations

Optional Protecta Barrier Casing

Hiline Copper is available with the option of a barrier casing to provide protection against ingress of contaminats fom the surrounding ground and environment in brownfield sites. This system utilises GPS Proteca-Line, a five-layer pipe comprising an internal standard PE host pipe, an aluminium barrier layer to stop the ingress of contaminants; an outer polyethylene protection layer; and two adhesive tie-layers.

Site Jointing Techniques

Service Pipes

The jointing Hiline Copper service pipes is carried out with compression fittings.

Casing pipes

The sealing of HDPE casing pipes in the field can be carried out using the following techniques:

  • Heat shrinkable HDPE oversleeve sealed with hot melt adhesive and heat shrinkable bands (Types NT & DSJ)
  • Heat shrinkable crosslinked HDPE oversleeve sealed with hot melt adhesive (Type TS)
  • Wrap around HDPE electrofusion coupling forming a fully fused casing joint (Type DX)
  • Slide over HDPE heat shrinkable oversleeve sealed by the electrofusion technique (Type DT) 

Quality Assured

Hiline systems are manufactured in modern, EN ISO 9001-approved production facilities, using quality-assured materials that comply with all relevant design standards and tolerances for district heating and cooling – such as EN 253, along with any that are pertinent to special applications. 

World-Class Support

At CPV we pride ourselves by the way in which we support our customers – from the moment that they first contact us through to their long-term operation and maintenance of a pre-insulated pipe network. As manufacturer, it’s important to us to ensure that our systems deliver exceptional performance throughout their working life. Therefore, we have established an array of world-class support services that help our clients every step of the way.

Design and Stress Analysis

designing district heating systems 400x167There are many factors that will affect the long-term integrity of a pre-insulated pipe system. Correctly identifying and dealing with the potential for thermal expansion of the pipe system is a critical element of the design process and we employ state-of-the-art sisKMR specialist stress analysis software. This package allows us to configure the pipe routes to keep the thermal expansion within safe limits and conform to the requirements of the EN 13941 standard for Design and installation of pre-insulated bonded pipe systems for district heating. Please click this link to find out more about our advanced stress analysis service for district heating pipe networks.

Training

Training installers, supervisors and maintenance operatives, our brand new training centre allows for not only the theory, but hands-on practical experience in the correct method for installing the Hiline pipe systems. In addition to this, we also offer training courses in the design, installation, commissioning and maintenance of electronic surveillance systems – including the use of our own buried pipe network, on which we can simulate moisture faults as part of the practical training.

Tool sales and hire

We offer both the sale and short-term hire of all the specialist tools required to install the Hiline pipe system.

Trace and Maintained Heating Systems Support

In temperature-critical, special applications that require round-the-clock maintenance of a specific media temperature, we can supply the Hiline pipe system with Trace or Maintained Heating systems.

On-site support services

Whether it’s on-site training, site supervision or specialist advice, support and maintenance – our engineers are at hand to provide customer support as and when required.

Hiline Project References

  • Academy Central Residential Developments
  • Arup Campus, Solihull, Birmingham
  • Ashley Park Housing Association
  • Astley Ainslie Hospital
  • British Antartic Survey
  • Calendar Park, Scotland
  • Camelford Primary School
  • CEU University, Leeds
  • Edgbaston Priory Club
  • Falkland Islands
  • Government Facilities
  • Lancaster University, New Sports Centre
  • Leicester Citywide DH Network
  • Northwood Barracks, London
  • Rolls Royce, Derby
  • Shenley Wood Retirement Village
  • Swansea University
  • The British Embassy, Harare, Zimbabwe
  • Warwick University
  • York University Accommodation Block

The True Cost of Insulation

The effects of using a more efficient insulation don’t appear to be much at face value, but factor in a minimum 30-year life-cycle cost of operating the system and the savings – both financial and environmental – mount up significantly. The Hiline range of pre-insulated pipe systems are available with increased levels of insulation thickness – which for a relatively small additional investment at the time of installation – will yield significant savings during the lifetime of the system.

To illustrate this point, take an example scenario in which a 5,000-metre long network (flow and return) consisting of DN150mm steel pre-insulated pipes circulating hot water at a flow temperature of 100°C. If fuelled by a natural-gas-fired boiler, constantly operating all-year-round, the system with standard insulation – over its nominal 30-year life – will lose heat to the equivalent of around £3.65 million’s-worth of gas(*) and emit 15,250 tonnes of CO2.

By making a small additional investment – equivalent to around 10 percent of the material cost at the time of installation – in order to upgrade the Hiline pipe system’s insulation thickness to Series Two, the cost of the heat lost would be reduced by some £1.2million – also saving 5,091 tonnes of CO2 from being emitted. The graph shown demonstrate the effects that this can have.

Figure 1

(*)Basis of Calculations used for example costs:

- Gas supply tariff 3p/ kWh
- Gas costs increase by 2.5% per annum for the 30-year calculation
- Gas boiler efficiency 80%
- Carbon factor for natural gas = 0.1836 kgCO2/kWh (source: Ofgem)