New technology in buses - Printable Version +- North East Buses (https://northeastbuses.co.uk) +-- Forum: Local Bus Scene (https://northeastbuses.co.uk/forumdisplay.php?fid=1) +--- Forum: Management & Infrastructure (https://northeastbuses.co.uk/forumdisplay.php?fid=3) +--- Thread: New technology in buses (/showthread.php?tid=925) |
New technology in buses - Andreos1 - 22 Mar 2014 Following regular references to bus engines, Euro ratings, hybrid technology and a mention of it by G-Cptn, thought it worthwhile setting up a dedicated thread. On the forum, there are regular comments about buses being underpowered and unsuitable for the routes allocated, whether it is specific to the E400's, B7's cascaded from London, newer B5's, gas buses and the oft forgotten Designlines. The big three operators have all embraced new technology in their fleet, purchasing a hotch potch of vehicles - using different pots of taxpayer money, to supplement their outlay. What are peoples thoughts on these vehicles? Are they going to last the length of time, the initial outlay would indicate they should? Who will purchase the vehicles at the end of their frontline life in the North East? RE: New technology in buses - G-CPTN - 22 Mar 2014 My initial interest was the now-defunct DesignLine gas-turbine-engined vehicles used by Stagecoach on the Quaylink service. Apparently they cost £5000 per week of operation (and were scrapped after 6 years service). I suspect the current hybrids will be more reliable and last longer, but what about the whole life cost and the running costs? Several operators seem to have tried them and rejected them as not being as cheap to run as they hoped. RE: New technology in buses - Davey Bowyer - 22 Mar 2014 Basically, we need a double deck vehicle manufacturer that will come up with a vehicle and chassis combination that will provide for routes where a heavyweight single deck such as the B8RLE hasn't got the capacity but the investment of a coach couldn't be justified due to financial and operational reasons (cascading vehicles). Ideally, we need a low floor double deck vehicle that: - Meets Euro legislation - Has at least a 9 litre engine with 270bhp or more - Has a gear box with tall gearing ratios for constant high speeds - Is double deck and low floor - Is priced at around 200k mark or less - Will last 7 years on a demanding route (X15 or X18) - Will last a further 7 to 8 years on slightly less demanding routes (X14 or X20) whilst acting as a backup for previous demanding route (X18) with the very final 2 years before 15 year life span coming to an end backing up on routes such as 35, X14, X20, X21 and X22 RE: New technology in buses - Adrian - 22 Mar 2014 (22 Mar 2014, 10:12 pm)Davey Bowyer wrote Basically, we need a double deck vehicle manufacturer that will come up with a vehicle and chassis combination that will provide for routes where a heavyweight single deck such as the B8RLE hasn't got the capacity but the investment of a coach couldn't be justified due to financial and operational reasons (cascading vehicles). Ideally, we need a low floor double deck vehicle that: Can I ask the fascination about 9 litre engines? You can produce the same horsepower (and more) on smaller engine capacities than than. RE: New technology in buses - Kuyoyo - 22 Mar 2014 (22 Mar 2014, 10:39 pm)aureolin wrote Can I ask the fascination about 9 litre engines? You can produce the same horsepower (and more) on smaller engine capacities than than. Indeed, reading articles will show that the upcoming Euro6 B5TL will produce 240bhp, which is about what most B9TLs produce (a small number of the Go North East examples have more powerful engines). Compare that to Scania, it ranks 10bhp above Stagecoach's preferred engine choice on the Scanias, the 230bhp (K230 or N230). RE: New technology in buses - G-CPTN - 22 Mar 2014 Horsepower is one thing - torque is the other. Turbocharging increases the torque (though might reduce the spread). I believe that alternative gearing is already available (from ZF-equipped vehicles). Both by specifying one of three final drive ratios and/or by double-overdrive (6AP speed) transmission. RE: New technology in buses - Davey Bowyer - 22 Mar 2014 (22 Mar 2014, 10:42 pm)Kuyoyo wrote Indeed, reading articles will show that the upcoming Euro6 B5TL will produce 240bhp, which is about what most B9TLs produce (a small number of the Go North East examples have more powerful engines). Compare that to Scania, it ranks 10bhp above Stagecoach's preferred engine choice on the Scanias, the 230bhp (K230 or N230). I agree with there however, in comparison to a small engine, a big engine with the correct gearing will hodl the road and be alot smoother at constant high speed. The palatines did exactly that. RE: New technology in buses - G-CPTN - 22 Mar 2014 B9 datasheet (includes horsepower and torque figures and available transmission ratios - both final drive and transmission ratios):- http://www.volvobuses.com/SiteCollectionDocuments/VBC/United_Kingdom_and_Ireland/Downloads/B9TL%204x2%20Euro5%20Data%20sheet%2006.09.12.pdf I'm searching for comparative datasheets for other models. RE: New technology in buses - Andreos1 - 23 Mar 2014 A quick comparison of current Euro6 engines from Volvo http://www.volvobuses.com/bus/na/en-us/_layouts/CWP.Internet.VolvoCom/NewsItem.aspx?News.ItemId=130637&News.Language=en-gb Looking ay the discussion re engine size and bhp - my last two cars have been 1.6 and 1.9 respectively. One a Ford engine, the other a VW. Both put out a similar bhp, emissions, fuel economy etc and both cars are of a similar size/design. When humping them up and down the motorway, usually at a similar sort of speed, the 1.6 version needs to work harder than the 1.9 by virtue of its design and size. If you compare the B7 to a B9, are you not going to have the same issues? If two cars are performing different and there is just under a 1/3 of a litre between them, what sort of difference will there be between two buses which have a 2litre variance? RE: New technology in buses - G-CPTN - 23 Mar 2014 Many, many years ago, Jaguar ran a 3.4 litre in convoy with a 2.4 litre (obviously dictated by the performance of the 2.4 litre). The 3.4 litre returned better fuel consumption (no doubt due to the longer gearing than the 2.4 litre and lower overall revs). This could mean that, for the same performance, a larger capacity (and suitably geared) B9 could better a B7 for consumption. Of course this would depend on the relative degree of sophistication of the emission control. Lifetime of the smaller capacity engine might be lower than the larger, less-stressed engine (or, expressed differently, the larger capacity engine might be less troublesome in later life and therefore last longer). Just saying. Actual experience would depend on route performance duty. A good biggun will beat a good littlun. RE: New technology in buses - G-CPTN - 23 Mar 2014 From:- (23 Mar 2014, 12:32 am)Andreos Constantopolous wrote A quick comparison of current Euro6 engines from Volvo http://www.volvobuses.com/bus/na/en-us/_layouts/CWP.Internet.VolvoCom/NewsItem.aspx?News.ItemId=130637&News.Language=en-gb D5 It's quite easy to see that the larger capacity engines offer higher torques (and, therefore, better 'pulling power'). Higher horsepower will result at the same engine revolutions (power is torque times revolutions). Two different approaches to the same topic:- http://www.largiader.com/articles/torque.html http://www.epi-eng.com/piston_engine_technology/power_and_torque.htm An engine with higher torque is capable of pulling longer gearing ratios, thereby giving the same roadspeed at lower engine revolutions. The work done is the same (for equivalent roadspeed) but consumption will depend on the comparative economy of the engines at those revolutions. The smaller capacity engine at higher engine revolutions might well be using more fuel to achieve this - but this will depend on the engine management system. It is, perhaps, obvious that the components within the smaller capacity engine will 'run further' to achieve the same performance, and, therefore be expected to wear out sooner. Conversely, if the gearing ratios are the same the larger capacity engine will probably use more fuel (again, depending on the engine management system). Throttle opening position will determine how much fuel is delivered (and how much performance is delivered) so judicious use of the pedal will reduce fuel consumption. A sophisticated 'drive by wire' control could optimise this. RE: New technology in buses - G-CPTN - 23 Mar 2014 Notwithstanding the above comments, a hybrid (diesel/electric) system generally involves more 'inefficiencies' (more components each with their own efficiencies) though regenerative braking (where the energy is returned to battery power rather than dissipating it as heat by the brakes) can improve the overall efficiency. Logically (!) city use with stop/start operation probably better-suits hybrids than sustained high-speed long-distance runs. Of course the efficiency of the generating component (the power source) is significant. A gas-turbine (as used on the DesignLine vehicles) can be efficient when run at constant speed (as can a suitably specified diesel engine run at optimum (fuel economy) speed). Attempts in the 1960s (by Ford and Leyland - and Austin in the 1950s) to power road vehicles directly by gas-turbine engines ended in failure due to the fuel consumption of variable-speed operation. It is the variation in power demand (and, therefore, revolutions) that causes variation in fuel consumption. A poorly-specified power-source (running constantly at peak power) might be inefficient and 'hungry' for fuel and worse than a simple diesel/mechanical transmission. Topping-up the traction battery from mains electric will reduce liquid (or gas) consumption and cost will depend on the tariff of the mains electricity used (and might involve additional manpower (and time) to achieve 'refuelling'). Consider the complication of installing a suitable charging point and the time required to charge a simple domestic car that runs solely off electric battery power versus driving to a pump and refuelling liquid (or gas) fuel. I understand that some gas-powered buses in the region have to be driven significant dead-mileages to access a refuelling point. The following was gleaned from an overseas source last year (and might not represent current technologies and prices):- The resulting economic analysis suggested that procurement of a hybrid bus in lieu of a B12 will deliver a negative economic outcome, with a projected loss of $113,950 (net present value basis) over the life of the vehicle, and a benefit-cost ratio of 0.84. RE: New technology in buses - Andreos1 - 25 Mar 2014 (23 Mar 2014, 5:56 am)G-CPTN wrote From:- 240 bhp is quite frankly shocking. http://www.motortorque.com/guides/buying-a-car/top-200-bhp-cars---on-a-budget-17630 - There are some cars with even more bhp than the bus engine! Time for a fleet of taxibuses? Seriously though, the mid range 8 litre engine, isn't too much different to the current lumps in the B9's. If the correct bus, is allocated to the correct route - such as a town and city bus as you suggest - in theory, there shouldn't be too many issues. Stick a 5 litre on a long run and you are asking for problems, no matter how 'economical' or fuel efficient the engine is. RE: New technology in buses - G-CPTN - 25 Mar 2014 (25 Mar 2014, 9:57 pm)Andreos Constantopolous wrote 240 bhp is quite frankly shocking. I realise that your comment was accompanied by a smiley and therefore not confrontational, however for those who didn't notice, the 240 bhp engine in the bus will be operating at half the revolutions per minute that the 240 bhp car engine will need to achieve that figure - so the bus engine torque will be twice that of the car engine. Think of pushing the bus - the effort (torque) available from the bus engine will be twice that available from the car engine and assisted by the torque converter ratio ( 1.968:1 ) it will be four times that of the car engine. Power (bhp) indicates the rate at which the effort can be applied - it is defined as the amount of energy consumed per unit time - power is the rate at which this work is performed. The same amount of work is done when carrying a load up a flight of stairs whether the person carrying it walks or runs, but more power is expended during the running because the work is done in a shorter amount of time. Agreed that the bus is much heavier than the car, but the gearing compensates for that - though the bus will not accelerate as quickly as the car of course! It's not that long ago when truck and bus engines of 240 bhp would have been considered 'top of the range', and 140 bhp considered 'adequate' for 24 tons (6 bhp per ton was the maxim) (OK, maybe that was 40 years ago . . . ) RE: New technology in buses - Dan - 11 Oct 2014 Video: New Bus Technology Spots Available Seats Upstairs http://londonist.com/2014/10/video-new-bus-technology-spots-available-seats-upstairs.php Not local, but perhaps something which could come to the North East in the future, should the trial be successful in London... RE: New technology in buses - G-CPTN - 11 Oct 2014 (11 Oct 2014, 7:24 pm)Dan wrote Video: New Bus Technology Spots Available Seats Upstairs Brilliant use of technology. Many years ago I visited a friend who worked in a university research department. I enquired what he was working on and he gave me a convoluted explanation - of which I was somewhat sceptical. Some years later, cameras started appearing on highways, and the Automatic Number Plate Recognition (ANPR) system came into being - exactly what had been described to me! RE: New technology in buses - Adrian - 12 Oct 2014 (11 Oct 2014, 7:24 pm)Dan wrote Video: New Bus Technology Spots Available Seats Upstairs Very useful technology for operators to have. Some organisations use similar technology for hot desking and meeting room environments. It allows them to plan their accommodation strategy around demand. If an operator had the ability to see the seat usage capacity for a service all day long, then there's your justification right there for increasing vehicle size or route frequency. RE: New technology in buses - Michael - 12 Oct 2014 (11 Oct 2014, 7:24 pm)Dan wrote Video: New Bus Technology Spots Available Seats Upstairs Sounds a good idea, hopefully its a success RE: New technology in buses - G-CPTN - 12 Oct 2014 For those interested in what the eFan Micro Hybrid System involves, it simply replaces the hydraulically-driven cooling fan (and the combined water/air intake charge cooler) with electrically-powered cooling fans working on separate air-charge cooler and water radiator. In simple terms, it replaces the drag required to constantly power the hydraulic fan from 20 kW to 3 kW with electric fans that can be switched on and off as required. This will reduce the fuel consumption. On a conventional hydraulically driven fan system, air is sucked from the outside of the bus through a charge air cooler with a hydraulic oil cooler alongside and then through a jacketed water filled radiator by a large fan driven by a hydraulic motor and controlled by a hydraulic control valve. AVID say this method traps debris within the system making it less effective. The debris becomes difficult to remove and the radiators are easy to damage. The system is also prone to hydraulic leaks. From:- http://www.busandcoachbuyer.com/avid-technologys-efan-micro-hybrid/ (with photographs of the components) RE: New technology in buses - G-CPTN - 15 Oct 2014 I've been trying to discover the technical details of Wrightbus's 'micro-hybrid' system, but the best I have managed is:- Micro Hybrid technology captures the energy generated from a bus’s braking system, and redistributes this energy to power pneumatics, hydraulic and electrical systems which would otherwise require power from the engine. the Micro Hybrid equipment – which charges the batteries during braking to power auxiliaries – deliver a significant fuel saving, it also entitles the operator to enhanced BSOG payments without the extra costs associated with a full hybrid’s complexity and batteries. StreetLite Micro Hybrid range has achieved Low Carbon Emission Bus Certification. The StreetLite Micro Hybrid is a very low cost hybrid system that allows the bus to recuperate lost braking energy to power the vehicle electrics and the vehicle compressed air system for free. This improves fuel efficiency by approximately 10% on a typical city bus drive cycle. The StreetLite Micro Hybrid uses the same engine, transmission and rear axle as the conventional StreetLite, but re-jigs the auxiliary systems to give the vehicle smart control of energy generation and usage on the vehicle. Wrightbus’ “Micro Hybrid” recovers braking energy, but rather than use it to directly benefit propulsion as in full hybrid systems, this energy is stored in storage systems already on board and is used to power pneumatics, hydraulics and electrical items. These components would otherwise require power from the engine and, by using the energy harvested from the braking system, reduces overall fuel consumption by around 10%. Forgive me, but there's nothing there that explains to me exactly how these savings are achieved - ie what device does what - maybe it's that the hydraulic pump is now electrically driven - and the alternator does what? I've read that the system uses the standard vehicle batteries (so there is no added storage equipment), but when a battery is fully-charged there's not much else you can do with electricity - other than use it to drive electric pumps - and the system is said to harvest energy during braking (so we aren't talking about an engine-driven generator - maybe it is driven from the gearbox retarder?) It seems to me to be smoke and mirrors - but that is only because I haven't found a plausible technical explanation yet despite extensive searching . . . You would think that for a pioneering system that there would be a treatise published explaining exactly how the saving is achieved - but maybe they don't want the competition to cotton on? RE: New technology in buses - Malarkey - 08 May 2015 Wrightbus to offer Stop Start Engine Technology as seen on some Hybrid Models from Q3-2016 in StreetDeck/Streetlite Range. http://www.route-one.net/industry/stop-start-coming-from-q3-2016/ RE: New technology in buses - Malarkey - 05 Aug 2015 Picked up a copy of Buses Magazine yesterday before going into Hospital, and there were some quite interesting Articles in it in relation to All Electric, Hybrid and other upcoming Technologies that are currently being tested across Europe. So to kick us off we have a 4 Page Spread from Volvo - "A Quiet Revolution" [attachment=7005] [attachment=7006] [attachment=7007] [attachment=7008] Moving on - "BYD All Electric Double Decker & Irizar i2e Trial for London" [attachment=7009] [attachment=7010] And Finally - "Lothians Hybrid Volvos" [attachment=7011] RE: New technology in buses - G-CPTN - 05 Aug 2015 An interesting read - thanks. RE: New technology in buses - Malarkey - 05 Aug 2015 (05 Aug 2015, 7:25 pm)G-CPTN wrote An interesting read - thanks. The 4 Page one on Volvo was a very interesting read I thought, should test something like that out up here on the Sunderland Connect 700/701 for example when it comes to the time of replacing the Hybrid Solo SRs. RE: New technology in buses - G-CPTN - 05 Aug 2015 (05 Aug 2015, 7:48 pm)Malarkey wrote should test something like that out up here on the Sunderland Connect 700/701 for example when it comes to the time of replacing the Hybrid Solo SRs. Bring back trolleybuses . . . RE: New technology in buses - Malarkey - 05 Aug 2015 (05 Aug 2015, 8:00 pm)G-CPTN wrote Bring back trolleybuses . . . Bit before my time G-CPTN RE: New technology in buses - Malarkey - 05 Aug 2015 BYD agree 19m Battery Bus Tie Up with ADL. http://www.route-one.net/technology/chinese-in-19m-byd-battery-bus-tie-up-with-adl/ RE: New technology in buses - G-CPTN - 05 Aug 2015 (05 Aug 2015, 8:53 pm)Malarkey wrote BYD agree 19m Battery Bus Tie Up with ADL. I hope they are more reliable than the original Quaylink Designline Olymbus. RE: New technology in buses - Michael - 09 Sep 2015 Not really new but Mercedes-Benz have announced they are doing a gas version of the citaro... http://media.daimler.com/dcmedia/0-921-911857-1-1807800-1-0-0-0-0-0-0-0-0-1-0-0-0-0-0.html RE: New technology in buses - Malarkey - 09 Sep 2015 (09 Sep 2015, 12:59 pm)Michael wrote Not really new but Mercedes-Benz have announced they are doing a gas version of the citaro... Picture of it in the article by Route One - http://www.route-one.net/technology/engine-mechanical/gas-powered-citaro-revealed/ |