henry wrote: ↑02 Jan 2019, 11:26
GrandAxe wrote: ↑02 Jan 2019, 00:00
ian_s wrote: ↑01 Jan 2019, 11:25
the per lap 4MJ is not a state of charge though, its a fixed total amount. the state of charge can go up and down as much as you like, so long as it stays in the right window.
Precisely. You can store as many Coulombs as can be held,
it is only the flow of Coulombs (energy) that is limited. The Coulomb is a mass analogue, while Voltage (potential difference) is a velocity analogue; so as long as there is no voltage, you can simply stack "masses" (Coulombs) without breaking any rules, and then release them at a steady 4MJ or peak 4MJ per lap. This is an open loophole that allows for more energy to be harvested and stored than a surface interpretation of the rules allow.
Taking the mass analogue further, it should also be possible to store physical mass (as compressed air for instance) without breaking any rules. Then the resulting pressure (potential) can be released at a steady 4MJ or peak 4MJ around the lap.
Of course, there might be other mass analog and energy stores, so the above system alone is unlikely to use up the entire 4MJ allowance.
The bolded section is not correct. As well as the energy flows the regulations also control the stored quantity, the State Of Charge.
The reason this is controlled in the way it is, as a “time on the track” limit, is to prevent the build up of stored energy in the way you describe.
No, its a loophole given the following:
(a) charge is only mentioned on the flow diagram as being limited to 4MJ stored in the ERS, however as I mentioned, charge is not an energy analogue so cannot be measured in energy units - therefore, the only logical conclusion is that
any quantity of charge can be stored, but it must not be drawn at a greater voltage than would be allowed by the energy equation,
where C is Coulombs and V is voltage;
(b) further, the "state of charge limits" mentioned in 5.2.2 is wholly undefined, thus is open to biased interpretation;
(c) the only other areas where charge can be regulated are those which mention power limits (the limits, max+/-120KW limit between MGU-K and engine, as well as the 2KW for non-ERS stores); however both these limits do not affect the interpretation in (a). Indeed, similar to (a), it also allows for any quantity of charge to be stored in the non-ERS stores so long as it is drawn at a voltage and for a length of time that keep power output at or below 2KW.
I've included a quote of 5.2.2 and the energy flow diagram below for quick reference.
5.2.2 Energy flows, power and ES state of charge limits are defined in the energy flow diagram shown in Appendix 3 of these regulations.
When the car is on the track a lap will be measured on each successive crossing of the timing line, however, when entering the pits the lap will end, and the next one will begin, at the start of the pit lane (as defined in the F1 Sporting Regulations).
Electrical DC measurements will be used to verify that the energy and power requirements are being respected.
A fixed efficiency correction of 0.95 will be used to monitor the maximum MGU-K power.
courtesy thekneeslider.com
