Central heating design

This article is about designing and installing Central Heating systems.

Heat requirements

• Discuss + links to whole-house heatloss calculators
• Discuss + links to energy conservation articles

Heat Sources

• single source
  • gas or oil boiler
    Discuss types of boiler, combi/conventional choice etc asper Ed's Boiler Choice FAQ with additional discussion of
    • combined range+boilers
    • CHP (Microgen, Whispergen)
  • electric
    • peak rate v. off-peak
    • standalone electric boilers
    • thermal store

• multiple sources
  • sources (additional to above):
    • ranges (Aga, Rayburn etc) with back boiler
    • wood burner with back boiler
    • solar thermal hydronic
      • Lots of solar designs
      • Solar system expertise
    • ground source heat pump
  • combining sources:
    • thermal store
    • neutral-point mixing things
    • controls

Heat Emitters

Emitters are means of heating spaces, such as radiators, under-floor heating etc.

radiators

output mostly via convection: heat air to heat fabric of room & its occupants

output specifications

• Delta-50 and Delta-60

locations

• wrt heat losses - under windows v. inside walls

fan-assisted e.g. kickspace

forced convection

• particularly suitable for small rooms with limited wall space for rads (e.g. kitchen) or too-high heat-loss/floor-area ratio for UFH (e.g. bathroom)
• fast warm-up
• may feel uncomfortably cold when shut off by thermostat (like electric fan heaters)

underfloor

radiant: heat occupants and fabric directly

• more efficient (e.g. 20%?) than radiators
• more comfortable: warm feet, cool head; less stuffy
• better for heating large spaces e.g. halls
• limited heat output due to limitation on max confortable floor temperatures: may be insufficient for small rooms with large heat requirements & large losses e.g. bathrooms
• heat output dependant on floor covering
• slower to heat & cool than radiator based systems: need better control systems
• need radiant-sensing instead of conventional air-temperature-sensing thermostats?
• hydronic generally require lower water temp than rad systems - really need extra pump + thermostatic mixing valve to run off mainly rad-based system
• better suited to lower-temperature flows from condensing and renewable sources
• expensive & disruptive to retro-fit to existing building: need to remove & relay floors (or poss. ceilings below for upper-floor installations)

other radiant

e.g. in wall, in ceiling (I kid you not!)

Controls and Zoning

• Zoning
• Y-plan, S-plan, pump-plan
• Timers, programmers, thermostats, programmable thermostats
  • location of thermostats
    • hall or living room - no external heat sources
• TRVs
• mixed rads + UFH layouts
• On/Off v. proportional control (aka Digital v. Analogue)
• Feedforward aka weather compensation etc

Pipework

pipework materials

plastic

barrier v. non-barrier

Conventional Wisdom is that only barrier pipe should be used for CH systems as the metallic barrier layer prevents oxygen diffusing throug the plastic walls of the pipe into the primary water and causing corrosion in ferrous and possibly other metallic parts of the system - boilers, radiators etc. However Hepworth Plumbing Products have stated [[1]] [[2]] in the uk-d-i-y newsgroup that:

If Hep2O Standard pipe has been installed in accordance with our instructions in a central heating system and one of the recommended inhibitors used there is no technical reason why it should not continue to give good service for many decades.

and

It is now considered by British Gas that central heating systems that include plastics pipe manufactured to the appropriate British Standard (such as Hep2O) do not represent a potential corrosion problem from oxygen ingress where the system water includes an adequate strength of inhibitor. This applies equally to Barrier and Non-Barrier pipes.

copper

pipework layout

pipe sizes v. heat-carrying capacities + noise

microbore

easy install + balancing

tree + branch

([28]-22-15-[10/8]) - good for balancing

dual loop

inherently balanced but rarely practicable

random

bad for balancing but sometimes necessary

Installation

• routing
• installation in solid floor
• joist notching
• drain-off points
• plastic v. copper or chromed pipetails
  • play in tails
• pressure testing
• flushing