Microbore Central Heating Blockage [exclusive] May 2026
The Hydraulic Heart Attack: Understanding and Resolving Blockages in Microbore Central Heating Systems
Diagnosing a microbore blockage requires eliminating other variables. The first step is the magnet test : sliding a strong neodymium magnet along the microbore pipe. A sudden “stick” indicates a high concentration of magnetite. The second is thermal imaging , which reveals a sharp temperature gradient at the precise point of occlusion. Unlike a standard system where blockages are typically in radiators, microbore blockages are perversely located in the 6mm branches between the manifold (a central distribution hub) and the radiator valves. microbore central heating blockage
To understand the blockage, one must first understand the medium. Central heating water is not inert; it is a reactive chemical soup. Over time, the interaction between ferrous radiators (steel or cast iron) and copper pipework creates a galvanic cell, leading to corrosion. The byproduct of this corrosion is magnetite (Fe₃O₄), a black, sludgy substance. In a standard 22mm system, this sludge often settles in the lower loops of radiators, causing cold spots but rarely stopping flow entirely. In a microbore system, however, the pipe’s internal diameter is often a mere 6mm to 8mm. A 1mm build-up of magnetite reduces the cross-sectional area by over 40%. A 2mm build-up constitutes a complete occlusion. The second is thermal imaging , which reveals
The most pernicious consequence is boiler short-cycling . Modern condensing boilers are equipped with overheat thermostats and flow sensors. A blocked microbore circuit reduces overall system flow rate to a trickle. The boiler heats the static water in its heat exchanger to setpoint within seconds, then shuts down to prevent boiling, only to reignite a minute later. This rapid cycling destroys the boiler’s heat exchanger and fan, wastes gas, and fails to heat the property. In extreme cases, the blockage can cause the pump to cavitate, producing a characteristic “gravelly” noise as it churns air and debris. Central heating water is not inert; it is