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NeilBlanchard · 02-01-2009, 08:59 AM

Here's a updated list:

I want to try to list steps that car makers could/should take to improve the fuel efficiency, in approximate order of cost:

The most obvious improvement to cars, would be to mold the plastic on the front of the vehicle to be smooth and round, with grill openings that are sized (and placed) only as required to cool the engine. Some new plastic bumper covers and grill pieces could be snapped onto cars. Flush covers should be used on all lights. Fairing pieces could be added to side mirrors. Hood gap gaskets, and streamlined wheel covers are easy, too.

All these improvements (above) can add at least 10% and as much as 25% to the fuel economy. Here's more:

* Sealing all the seams and joints (with gaskets or backing flanges) in the high pressure areas of the vehicle.

* Smooth floor pans with no sharp protrusions -- this is part of the drag just as much as the parts of the car that can be easily seen. Smoothing the underside with covers (like the EV-1).

* Transmission ratios should be optimized for efficiency at normal driving speeds. Higher gearing with 6-7 speeds would be optimal (smaller engines need more gears to work efficiently); or CVT transmissions.

* Narrower and lighter, LRR (low rolling resistance) tires should be used.

* Average & "instant" MPG displays, that are on all the time. The new Honda Insight, the 3rd gen Prius, and some Ford models, have excellent displays that help the driver be more efficient.

* Throttle control (rather than cruise/speed control!) that maintains even throttle in a user-set speed range, with minimal throttle increases to maintain the speed in that range.

* Tire pressure monitor, that warns the driver when the tires get below the recommended pressure (which could be adjusted upwards if the driver wants to run a pressure up to the tire sidewall maximum).

* Efficient and effective fresh air flow through the vehicle, with intakes on a high pressure area, and exhaust vent(s) out the back of the vehicle into the low pressure wake zone, to reduce drag as much as possible.

* Coat all the window glass to exclude as much heat as possible.

* On defrost mode, the A/C should only come on automatically at maximum defrost (if at all), and it should be on a timer of ~1 minute, and it should always be toggled on/off by the driver. I would prefer to make A/C on the defrost setting optional.

* Efficient lights such as LED's and HID, that use a little power as possible while functioning as well (or better) than incandescent lights.

* Lower consumption electronics, such as A/C, fans and audio systems.

* Use very low friction wheel bearings, such as ceramic bearings; along with low viscosity lubrication, to reduce rolling resistance. The VW 1L car uses these.

* Active grill, that opens when more cooling air is needed, but remains closed – and is more aerodynamic most of the time.

* Fully ducted engine cooling system, with the intake down low on the front, and the exhaust flows into a low pressure zone; minimizing the size of the radiator and the reducing the "internal" drag as much as possible.

* Video cameras and screens in place of side mirrors. This would help a lot with aerodynamics.

* Automatic engine shut off and start up; at least with CVT (or automatic) transmissions -- and possibly with standard shifts, based on having both the clutch and the brake applied?

* Lean burn in low vacuum conditions. Use variable valve timing to gain efficiencies.

* Store hot coolant in a vacuum insulated tank, to speed up warm-up time; a-la what the 2nd generation Prius does. Or, do what the 3rd generation Prius does: heat the coolant quickly using the exhaust heat. Preheating intake air would also help fully vaporize the fuel; making it higher efficiency.

* Tighten up wheel openings, and always use aerodynamically designed wheels/covers, with rear wheel skirts (at least optional).

* Make roof racks removable. Years ago, I saw a "papoose" add-on storage system that locked onto the back of the car, with a single caster wheel to support the weight -- it tucked completely into the air flow behind the car; and it would be a great way to add storage space when needed; that did not affect how you drove very much. It could actually greatly improve the overall aerodynamic drag of the vehicle.

* Regenerative shock absorbers: MIT has a method of using hydraulics to drive a generator, eliminating the need for a mechanically driven alternator; or, to charge the electric drive batteries. These can also be used to lift and level the vehicle, to improve aerodynamics under different loads.

* Use a composite wheel/tire that has low weight, very low rolling resistance (by being strong enough to stay round), and low aerodynamic drag, no worries about inflation -- and re-tune the suspension to work with said wheel/tire. (see item above)

* For new 4-cylinder engine designs, the crankshaft could be split with a hydraulic coupling that can automatically disengage two cylinders completely; saving all the pumping and friction losses, for situations when 2 cylinders are enough to provide the required torque to move the vehicle. There are also cam-driven designs that about double the efficiency of the ICE.

* Nissan is (supposedly) going to reduce their cars weight by ~15%. I think all cars could be reduced by 20-30% with smarter steel fabrications, smarter use of materials. Here's a site that shows a steel chassis that is 25% lighter and nearly twice as stiff/strong as a conventional steel chassis:

BlueScope Steel Australia: Ultra Light Steel Auto Body (ULSAB) Project

* Make every vehicle with a plug-in electric w/ serial hybrid ICE drive train, with regenerative braking.

* Rework the overall shape of the vehicle to reduce drag. Cd of 0.16-0.25 are achievable!

Is there anything that I left out?

02-01-2009, 08:59 AM	#26 (permalink)
NeilBlanchard Master EcoModder Join Date: May 2008 Location: Maynard, MA Eaarth Posts: 7,907 Mica Blue - '05 Scion xA RS 2.0 Team Toyota 90 day: 42.48 mpg (US) Forest - '15 Nissan Leaf S Team Nissan 90 day: 156.46 mpg (US) Number 7 - '15 VW e-Golf SEL TEAM VW AUDI Group 90 day: 155.81 mpg (US) Thanks: 3,475 Thanked 2,950 Times in 1,844 Posts	A comprehensive list: Here's a updated list: I want to try to list steps that car makers could/should take to improve the fuel efficiency, in approximate order of cost: The most obvious improvement to cars, would be to mold the plastic on the front of the vehicle to be smooth and round, with grill openings that are sized (and placed) only as required to cool the engine. Some new plastic bumper covers and grill pieces could be snapped onto cars. Flush covers should be used on all lights. Fairing pieces could be added to side mirrors. Hood gap gaskets, and streamlined wheel covers are easy, too. All these improvements (above) can add at least 10% and as much as 25% to the fuel economy. Here's more: * Sealing all the seams and joints (with gaskets or backing flanges) in the high pressure areas of the vehicle. * Smooth floor pans with no sharp protrusions -- this is part of the drag just as much as the parts of the car that can be easily seen. Smoothing the underside with covers (like the EV-1). * Transmission ratios should be optimized for efficiency at normal driving speeds. Higher gearing with 6-7 speeds would be optimal (smaller engines need more gears to work efficiently); or CVT transmissions. * Narrower and lighter, LRR (low rolling resistance) tires should be used. * Average & "instant" MPG displays, that are on all the time. The new Honda Insight, the 3rd gen Prius, and some Ford models, have excellent displays that help the driver be more efficient. * Throttle control (rather than cruise/speed control!) that maintains even throttle in a user-set speed range, with minimal throttle increases to maintain the speed in that range. * Tire pressure monitor, that warns the driver when the tires get below the recommended pressure (which could be adjusted upwards if the driver wants to run a pressure up to the tire sidewall maximum). * Efficient and effective fresh air flow through the vehicle, with intakes on a high pressure area, and exhaust vent(s) out the back of the vehicle into the low pressure wake zone, to reduce drag as much as possible. * Coat all the window glass to exclude as much heat as possible. * On defrost mode, the A/C should only come on automatically at maximum defrost (if at all), and it should be on a timer of ~1 minute, and it should always be toggled on/off by the driver. I would prefer to make A/C on the defrost setting optional. * Efficient lights such as LED's and HID, that use a little power as possible while functioning as well (or better) than incandescent lights. * Lower consumption electronics, such as A/C, fans and audio systems. * Use very low friction wheel bearings, such as ceramic bearings; along with low viscosity lubrication, to reduce rolling resistance. The VW 1L car uses these. * Active grill, that opens when more cooling air is needed, but remains closed – and is more aerodynamic most of the time. * Fully ducted engine cooling system, with the intake down low on the front, and the exhaust flows into a low pressure zone; minimizing the size of the radiator and the reducing the "internal" drag as much as possible. * Video cameras and screens in place of side mirrors. This would help a lot with aerodynamics. * Automatic engine shut off and start up; at least with CVT (or automatic) transmissions -- and possibly with standard shifts, based on having both the clutch and the brake applied? * Lean burn in low vacuum conditions. Use variable valve timing to gain efficiencies. * Store hot coolant in a vacuum insulated tank, to speed up warm-up time; a-la what the 2nd generation Prius does. Or, do what the 3rd generation Prius does: heat the coolant quickly using the exhaust heat. Preheating intake air would also help fully vaporize the fuel; making it higher efficiency. * Tighten up wheel openings, and always use aerodynamically designed wheels/covers, with rear wheel skirts (at least optional). * Make roof racks removable. Years ago, I saw a "papoose" add-on storage system that locked onto the back of the car, with a single caster wheel to support the weight -- it tucked completely into the air flow behind the car; and it would be a great way to add storage space when needed; that did not affect how you drove very much. It could actually greatly improve the overall aerodynamic drag of the vehicle. * Regenerative shock absorbers: MIT has a method of using hydraulics to drive a generator, eliminating the need for a mechanically driven alternator; or, to charge the electric drive batteries. These can also be used to lift and level the vehicle, to improve aerodynamics under different loads. * Use a composite wheel/tire that has low weight, very low rolling resistance (by being strong enough to stay round), and low aerodynamic drag, no worries about inflation -- and re-tune the suspension to work with said wheel/tire. (see item above) * For new 4-cylinder engine designs, the crankshaft could be split with a hydraulic coupling that can automatically disengage two cylinders completely; saving all the pumping and friction losses, for situations when 2 cylinders are enough to provide the required torque to move the vehicle. *There are also cam-driven designs that about double the efficiency* of the ICE.** * Nissan is (supposedly) going to reduce their cars weight by ~15%. I think all cars could be reduced by 20-30% with smarter steel fabrications, smarter use of materials. Here's a site that shows a steel chassis that is 25% lighter and nearly twice as stiff/strong as a conventional steel chassis: BlueScope Steel Australia: Ultra Light Steel Auto Body (ULSAB) Project * Make every vehicle with a plug-in electric w/ serial hybrid ICE drive train, with regenerative braking. * Rework the overall shape of the vehicle to reduce drag. Cd of 0.16-0.25 are achievable! Is there anything that I left out? __________________ Sincerely, Neil http://neilblanchard.blogspot.com/ Last edited by NeilBlanchard; 04-03-2009 at 12:48 PM.. Reason: updated and edited for clarity