That’s the problem with fixed rate burners without modulation. When the boiler output and system load are equal the boiler should reach design flow temperature and never cycle on or off, just run constantly. However when the loads don’t match which is probably 90% of the year then you are always going to get cycling, especially if the system is micro zoned. I love oil burners, have worked on them since about 11 years old but most domestic oil boilers are still primitive compared to their gas cousins. There is now a fully modulating oil boiler on the market which is a step in the right direction.
Very interesting to hear there are new modulating oil boilers coming out! It appears liquid fueled boilers definitely got left behind in boiler controls over the last decade. I looked up the new modulating oil boilers there, they look good but I'll probably wait a numenr of years until they have the maintenance issues ironed out!
Yes the boiler has to be oversized most of year so it can provide the heat in the few coldest days of the year it is required. Which is where the modulation ratio would be key.
But - reading up on boiler cycling issues on the interwebs there are hundreds of theads like this one which touch on balancing rads, checking for faulty bypass valves, old un finned radiators etc etc but little to zero mention of Boiler Energy Managers in all of them. It seems there is little knowledge or uptake in BEMs for current Oil Boilers. It does make a difference for sure and adds a "Brain" to the antiquated £10 controls still coming on new £1400 Condensing Oil Boilers!
I think it is farly easy to understand how a BEM like this can function. A one size fits all alithogram would be / is very effective. Especially one that goes between the stat and burner. It is getting the raw burner function and works off of that. With the major limitation being open loop control - not having delta sensors. (Needs to power off between zones / heating cycles but not a problem for me as I programme my heating as such)
I think it works just like this but could be wrong - just my opinion:
It lets the boiler first run to temp. Then slight delay of a few secs and let it run again until up to temp. This conintues on and each time the BEM is monitoring the run time and stat call times to see how much it can pare back the burn time VS stat calling again. Until it finds the equilibrium / Sweet spot whereby it knows that over a given time frame the stat call time is increasing so it knows this is the heating demand / duty and keeps it there.
I may not be explaining that very well but in my head this is pretty much perfect control for an imperfect boiler. It loses power and re-sets each time a heating zone is fired up. Therefore real time monitoring and pairing back of the duty cycle each time. So if it was really cold outside and the house was needing more burn time the BEM will be offseted to match whilst still pulling back as much time as it can. With stat still meeting 70c call each time.
Disclaimer - I am not a heating engineer and have no interest in anyone buying BEMs whatsoever. I am a Design Manager by trade. I found the Vector one new really cheap on ebay and tried it out as a part of this project and it worked. (I think they are prohibitively expensive otherwise) Just thinking its odd that probably only 0.01% of homes with Oil Fired Oil Boilers in the UK would have a BEM fitted and could be saving 15 - 25% in oil consumption if what I am seeing so far is correct.
