Hypercar: Difference between revisions
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Specification found at | =Basics= | ||
*A [[Concept Car]] / Design for a [[Hybrid Electric Vehicle]] released by [[Amory B. Lovins]] / [[Rocky Mountain Institute]] | |||
=By Amory Lovins of [[RMI]] Specification found at= | |||
https://www.scribd.com/doc/71456929/e03-05-20hydrogenmyths?secret_password=gow2fk3d1e0gayhwls0 | https://www.scribd.com/doc/71456929/e03-05-20hydrogenmyths?secret_password=gow2fk3d1e0gayhwls0 | ||
| Line 8: | Line 12: | ||
#Comfortably seats 5 adults; 69 ft3 / 1.96 m3 cargo with rear seats folded flat; flexible interior packaging | #Comfortably seats 5 adults; 69 ft3 / 1.96 m3 cargo with rear seats folded flat; flexible interior packaging | ||
#99 mpg-equivalent (EPA 115 city, 84 highway) (2.38 L/100 km, 42 km/L) with compressed H2 running a | #99 mpg-equivalent (EPA 115 city, 84 highway) (2.38 L/100 km, 42 km/L) with compressed H2 running a 35-kWe fuel cell buffered by 35 kWe of NiMH storage — 5× Lexus RX300 efficiency | ||
35-kWe fuel cell buffered by 35 kWe of NiMH storage — 5× Lexus RX300 efficiency | #Goes 55 mph on just the power used by a normal car’s air conditioner; its own air conditioner needs only ~1/5 that much power | ||
#Goes 55 mph on just the power used by a normal car’s air conditioner; its own air conditioner needs only | |||
~1/5 that much power | |||
#0–62 mph (0–100 km/h) in 8.3 s; all-wheel digital traction control, responding far faster than today’s ABS | #0–62 mph (0–100 km/h) in 8.3 s; all-wheel digital traction control, responding far faster than today’s ABS | ||
#330-mile / 530-km range on 7.5 lb / 3.4 kg of hydrogen safely stored in commercial 5-kpsi (350-bar) tanks | #330-mile / 530-km range on 7.5 lb / 3.4 kg of hydrogen safely stored in commercial 5-kpsi (350-bar) tanks | ||
#Efficient packaging — 6% shorter overall and 10% lower than a similarly spacious 2000 Ford Explorer | #Efficient packaging — 6% shorter overall and 10% lower than a similarly spacious 2000 Ford Explorer | ||
#47% of RX300’s curb mass (1,889 lb / 857 kg), but carries a similar load (1,014 lb / 460 kg), even up a 44% | #47% of RX300’s curb mass (1,889 lb / 857 kg), but carries a similar load (1,014 lb / 460 kg), even up a 44% grade | ||
grade | #Low aerodynamic drag: CdA = 0.26 × 2.38 = 0.62 m2 (Cd from supercomputer simulation, not wind-tunnel) | ||
#Low aerodynamic drag: CdA = 0.26 × 2.38 = 0.62 m2 | |||
#Emits only clean hot water; doesn’t harm the earth’s climate if fueled with sustainably sourced hydrogen | #Emits only clean hot water; doesn’t harm the earth’s climate if fueled with sustainably sourced hydrogen | ||
#Ground clearance from 5" / 13 cm at highway speed to 7.8" / 20 cm off-road, with unique suspension control choices | #Ground clearance from 5" / 13 cm at highway speed to 7.8" / 20 cm off-road, with unique suspension control choices | ||
#Excellent aerodynamics; low-rolling-resistance tires (r0 = 0.0078 on-road) can run flat for 125 miles (202 | #Excellent aerodynamics; low-rolling-resistance tires (r0 = 0.0078 on-road) can run flat for 125 miles (202 km) at 50 mph, requiring no spare | ||
km) at 50 mph, requiring no spare | #Occupant safety cell undamaged in a 35-mph / 56 km/h simulated head-on wall crash—just replace the front end | ||
#Occupant safety cell undamaged in a 35-mph / 56 km/h simulated head-on wall crash—just replace the | |||
front end | |||
#Designed to meet the Federal 30-mph / 48 km/h fixed-barrier occupant safety standard in a head-on collision with a vehicle twice its weight, each car moving at 30 mph (60-mph combined crash speed) | #Designed to meet the Federal 30-mph / 48 km/h fixed-barrier occupant safety standard in a head-on collision with a vehicle twice its weight, each car moving at 30 mph (60-mph combined crash speed) | ||
#Composite body doesn’t dent, rust, or fatigue — bumpers bounce back unharmed from a 6-mph / 10 km/h | #Composite body doesn’t dent, rust, or fatigue — bumpers bounce back unharmed from a 6-mph / 10 km/h collision | ||
collision | #Body ≥50% stiffer than a typical sports sedan (finite element analysis reported torsional stiffness of 38,490 Nm/deg, bending stiffness of 14,470 N/mm, first torsion mode of 62 Hz, and first bending mode of 93 Hz); this stiffness would be maintained by large-area adhesive bonding throughout the very long life of the vehicle, vs. metal autobodies’ rapid loss of stiffness as spot-welds weaken or break | ||
#Body ≥50% stiffer than a typical sports sedan (finite element analysis reported torsional stiffness of 38,490 | |||
Nm/deg, bending stiffness of 14,470 N/mm, first torsion mode of 62 Hz, and first bending mode of 93 Hz); | |||
this stiffness would be maintained by large-area adhesive bonding throughout the very long life of the vehicle, vs. metal autobodies’ rapid loss of stiffness as spot-welds weaken or break | |||
#Software-rich, open-architecture functionality offers numerous customization and upgrade paths | #Software-rich, open-architecture functionality offers numerous customization and upgrade paths | ||
#Diagnostics, tune-ups, and upgrades performed via broadband wireless with many value-added options | #Diagnostics, tune-ups, and upgrades performed via broadband wireless with many value-added options | ||
#Highly redundant data systems and steer- and brake-by-wire controls increase safety | #Highly redundant data systems and steer- and brake-by-wire controls increase safety | ||
#Safety-enhancing, handicapped-friendly sidestick, sending the car in the direction in which you point it, | #Safety-enhancing, handicapped-friendly sidestick, sending the car in the direction in which you point it, automatically compensating for sidewinds, camber, and other outside influences; no hazardous steering column or pedals; safer driver airbag | ||
automatically compensating for sidewinds, camber, and other outside influences; no hazardous steering | |||
column or pedals; safer driver airbag | |||
#Very simple, intuitive driver display and controls; minimal driver distractions; automatic navigation to refueling sites | #Very simple, intuitive driver display and controls; minimal driver distractions; automatic navigation to refueling sites | ||
#Consistent with a 200,000-mile / 322,000-km warranty; lifetime brakes; repair shop visits should be rare | #Consistent with a 200,000-mile / 322,000-km warranty; lifetime brakes; repair shop visits should be rare | ||
= [[Wayback Machine]] Analysis of their Now Defunct Website= | |||
*[https://web.archive.org/web/20080405011246/http://www.hypercar.com:80/ This] is the last working backup of the hypercar.com link | |||
*It then moved the same content to a page inside the RMI website | |||
*Most recent snapshot is from 2017, and just leads to [https://web.archive.org/web/20170419115641/http://www.rmi.org/transportation this] unrelated page? | |||
=Internal Links= | |||
* | |||
=External Links= | |||
*[https://en.wikipedia.org/wiki/Hypercar_(concept_car) The Wikipedia Page on The Hypercar] | |||
*[http://www.hypercars.com/ An information page of this and similar projects] | |||
*[https://www.linkedin.com/company/hypercar-inc/about/ Their Linkedin Page] | |||
*[https://www.businessinsider.com/hyperion-ceo-all-in-hydrogen-power-has-hypercar-to-help-2020-8 Same word, but may be the "Supercar" synonym use] | |||
*[https://rmi.org/insight/hypercars-a-market-oriented-approach-to-meeting-life-cycle-environmental-goals/ An RMI Article Titled "Hypercars: A Market-Oriented Approach to Meeting Life Cycle Environmental Goals" ] | |||
Latest revision as of 23:20, 6 October 2020
Basics
- A Concept Car / Design for a Hybrid Electric Vehicle released by Amory B. Lovins / Rocky Mountain Institute
By Amory Lovins of RMI Specification found at
https://www.scribd.com/doc/71456929/e03-05-20hydrogenmyths?secret_password=gow2fk3d1e0gayhwls0
Technically, Hypercar vehicles are ultralight, ultra-low-drag, hybrid-electric vehicles with highly integrated and radically simplified design emphasizing software-driven functionality. The basic attributes of Hypercar, Inc.’s Revolution concept vehicle, simulated using sophisticated industry-standard design tools, include:
- Comfortably seats 5 adults; 69 ft3 / 1.96 m3 cargo with rear seats folded flat; flexible interior packaging
- 99 mpg-equivalent (EPA 115 city, 84 highway) (2.38 L/100 km, 42 km/L) with compressed H2 running a 35-kWe fuel cell buffered by 35 kWe of NiMH storage — 5× Lexus RX300 efficiency
- Goes 55 mph on just the power used by a normal car’s air conditioner; its own air conditioner needs only ~1/5 that much power
- 0–62 mph (0–100 km/h) in 8.3 s; all-wheel digital traction control, responding far faster than today’s ABS
- 330-mile / 530-km range on 7.5 lb / 3.4 kg of hydrogen safely stored in commercial 5-kpsi (350-bar) tanks
- Efficient packaging — 6% shorter overall and 10% lower than a similarly spacious 2000 Ford Explorer
- 47% of RX300’s curb mass (1,889 lb / 857 kg), but carries a similar load (1,014 lb / 460 kg), even up a 44% grade
- Low aerodynamic drag: CdA = 0.26 × 2.38 = 0.62 m2 (Cd from supercomputer simulation, not wind-tunnel)
- Emits only clean hot water; doesn’t harm the earth’s climate if fueled with sustainably sourced hydrogen
- Ground clearance from 5" / 13 cm at highway speed to 7.8" / 20 cm off-road, with unique suspension control choices
- Excellent aerodynamics; low-rolling-resistance tires (r0 = 0.0078 on-road) can run flat for 125 miles (202 km) at 50 mph, requiring no spare
- Occupant safety cell undamaged in a 35-mph / 56 km/h simulated head-on wall crash—just replace the front end
- Designed to meet the Federal 30-mph / 48 km/h fixed-barrier occupant safety standard in a head-on collision with a vehicle twice its weight, each car moving at 30 mph (60-mph combined crash speed)
- Composite body doesn’t dent, rust, or fatigue — bumpers bounce back unharmed from a 6-mph / 10 km/h collision
- Body ≥50% stiffer than a typical sports sedan (finite element analysis reported torsional stiffness of 38,490 Nm/deg, bending stiffness of 14,470 N/mm, first torsion mode of 62 Hz, and first bending mode of 93 Hz); this stiffness would be maintained by large-area adhesive bonding throughout the very long life of the vehicle, vs. metal autobodies’ rapid loss of stiffness as spot-welds weaken or break
- Software-rich, open-architecture functionality offers numerous customization and upgrade paths
- Diagnostics, tune-ups, and upgrades performed via broadband wireless with many value-added options
- Highly redundant data systems and steer- and brake-by-wire controls increase safety
- Safety-enhancing, handicapped-friendly sidestick, sending the car in the direction in which you point it, automatically compensating for sidewinds, camber, and other outside influences; no hazardous steering column or pedals; safer driver airbag
- Very simple, intuitive driver display and controls; minimal driver distractions; automatic navigation to refueling sites
- Consistent with a 200,000-mile / 322,000-km warranty; lifetime brakes; repair shop visits should be rare
Wayback Machine Analysis of their Now Defunct Website
- This is the last working backup of the hypercar.com link
- It then moved the same content to a page inside the RMI website
- Most recent snapshot is from 2017, and just leads to this unrelated page?