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Honda F1 project leader Yusuke Hasegawa has outlined a number of reasons why Honda has been struggling so badly in the beginning of the 2017 Formula One season. He confirmed that lots of problems were not discovered while running on the dynamo meter.
Aside from making it more compact there's not much you can do to improve the mguk. There is some scope to improve the inverters, and some control electronics, a lot of it is also down to software. As for the batteries, sure but progress is dictated by industry, the teams don't make the batteries. More compact and energy dense battery back with higher charge and discharge rates are always nice. But progress is essentialy bi- yearly as opposed to a few weeks, or months for engine upgrades.SameSame wrote:All the talk about performance is always about the MGU-H, TC or ICE; what about the Control Electronics, MGU-K and Energy Store? Is there just not a lot of scope of development for these items and is Honda on par with the rest in this department?
Thanks! Do you think they use PLC's for the controllers? Or will a normal microcontroller be stable enough?godlameroso wrote:Aside from making it more compact there's not much you can do to improve the mguk. There is some scope to improve the inverters, and some control electronics, a lot of it is also down to software. As for the batteries, sure but progress is dictated by industry, the teams don't make the batteries. More compact and energy dense battery back with higher charge and discharge rates are always nice. But progress is essentialy bi- yearly as opposed to a few weeks, or months for engine upgrades.SameSame wrote:All the talk about performance is always about the MGU-H, TC or ICE; what about the Control Electronics, MGU-K and Energy Store? Is there just not a lot of scope of development for these items and is Honda on par with the rest in this department?
Me too. Even running the ICE at full load, the MGUK can reduce the output by up to 120 kW for a net output of less than 500 kW.Brian Coat wrote:Yes.
NL_Fer was referring to a part load condition.
Apols. I did not follow your meaning.gruntguru wrote:Me too. Even running the ICE at full load, the MGUK can reduce the output by up to 120 kW for a net output of less than 500 kW.Brian Coat wrote:Yes.
NL_Fer was referring to a part load condition.
For even lighter loads, there will be ICE operating points with near peak TE but much lower output. Imagine say:
- 8,000 rpm
- WOT (to reduce pumping losses)
- 25:1 AFR
- 60 kg/hr fuel flow
ICE output would be less than 450 kW, minus 120 to the MGUK (all MGUH output going to the ES) leaving less than 330 kW to the wheels, but very high TE and lots of energy (say 160 kW) to the ES.
No they dont use PLC's they use engine management units just like regular street cars.godlameroso wrote:I've seen it mentioned a few times Mercedes definitely uses PLC. I don't know about the others.
The next step is probably cylinder deactivation. This allows full blowdown energy capture from active cylinder firings. Some Daq screenshots posted here suggest biased operating points for L/R banks which would also be a part load strategy.Brian Coat wrote:Apols. I did not follow your meaning.gruntguru wrote:Me too. Even running the ICE at full load, the MGUK can reduce the output by up to 120 kW for a net output of less than 500 kW.Brian Coat wrote:Yes.
NL_Fer was referring to a part load condition.
For even lighter loads, there will be ICE operating points with near peak TE but much lower output. Imagine say:
- 8,000 rpm
- WOT (to reduce pumping losses)
- 25:1 AFR
- 60 kg/hr fuel flow
ICE output would be less than 450 kW, minus 120 to the MGUK (all MGUH output going to the ES) leaving less than 330 kW to the wheels, but very high TE and lots of energy (say 160 kW) to the ES.
I agree.
And I'm thinking that below a certain part load this won't work and you have to throttle the engine and consider aggressive strategies like rich+retard to get heat to MGU-H?
Yeah, I take all that with a grain of salt. It's obvious to me they know they can only get so much done in 2016 and 2017 takes a priority. They're not gonna leave 2017 project with any lack of resources. I'd presume 2016 gets whatever 2017 can't use. They're not gonna come out and tell us they've given up on 2016.Andres125sx wrote:I know, but some days/weeks ago they said they´re focused 50/50 on 2016/2017 projects. If that 50% of 2016 project is also focused on improvements wich can be used in 2017 then that would make sense, otherwise...
Running 6 part loaded cylinders using throttling involves significant pumping losses as well as reduced combustion efficiency from reduced peak temperatures/pressures. If the engine could be run at WOT with 3 cylinders deactivated, the fuel usage is halved, the indicated power is halved and the brake power is approximately (max-brake-power) minus (max-indicated-power/2).livinglikethathuh wrote:I thought (and read somewhere) that the part throttle "trrrrrrrrr" sound in pre-season testing was due to cylinder deactivation. I am, however, skeptical on the efficiency of cylinder deactivation; I suppose the idling engine is not producing more than what the MGU-K can absorb(120 kW)? Or maybe, the engine could switch to a map that creates more exhaust energy for MGU-H capture.
Not worth it IMO to pump the deactivated cylinders and not producing energy with them.