Bike-Sharing Services Are Sending Personal Data To China
through the collection and analysis of this data the Chinese Government now likely have access to your name, address (yes it will track your address based on the location data it collects), where you work, what devices you use, who your friends are (yes it will track the places you regularly stop and if they are residential it is likely they will be friends and family). They also buy data from other sources to find out more information by combining this data with the data they collect directly. They know what your routines are such as when you are likely to be out of the house either at work, shopping or engaging in social activities; and for how long.
What has made Uber a good deal for users makes it a lousy investment proposition. The notion that Uber, the most highly valued private company in the world, is a textbook “bezzle” — John Kenneth Galbraith’s coinage for an investment swindle where the losses have yet to be recognized — is likely to come as a surprise to its many satisfied customers. … Uber’s new CEO Dara Khosrowshahi effectively admitted that Uber isn’t profitable in any market when you factor in corporate overheads.
Perhaps even more important than how much electricity EVs would consume is the question of when it would be consumed. We based the above estimates on optimal, off-peak charging patterns. If instead most EVs were to be charged in the afternoon, the electricity grid would need more generation capacity to avoid outages. While EVs might increase the amount of electricity the US consumes, the investment required to accommodate them may be smaller than it appears. Many regions already have sufficient generation capacity if vehicles are charged during off-peak hours. The energy storage on board EVs could provide the flexibility needed to shift charging times and help grid operators better manage the supply and demand of electricity.
2021-02-09: The US doesn’t have a charging standard. This is insane. Of course it means that Tesla becomes the standard.
2022-02-08: EV uptake simulation as a function of charging infrastructure. Pretty dumb simulation as it predicts a decline in EV sales.
50% of adults who are aware of electric vehicles say they are unlikely to seriously consider purchasing one. Consumers hesitant to make the switch cite concerns such as the high purchase price, limited driving range and lack of sufficient charging infrastructure.
Using a model that is a stylized portrayal of the US auto market, we’re able to simulate the impact of policies intended to overcome these concerns about EVs. Each scenario assumes a limited number of vehicle technologies are available to consumers; the number of cars on the road remains constant; new powertrains are supported by targeted advertising campaigns to raise awareness.
2022-10-14: Shell is trying to convert their gas stations to electric, but are not price competitive. A Tesla Model 3 has a max battery of 82 kwh, which would cost £23 at the average rate, not £35. And much much cheaper at home. In a world where every parking spot can become a charging spot (why not?), this business plan isn’t going to work.
With 46k stations in 80 countries, Shell is the world’s biggest gasoline retailer. The Fulham station is one of several prototypes it’s planning as more cars shift to battery power, aiming to get feedback on what works while laying the groundwork to hit a target of net-zero emissions by 2050. Charging can be done more or less anywhere there’s a plug, so the issue is one that the oil giants, regional chains, and independents that run the world’s 770k filling stations will confront in the coming decades. What’s the value of their real estate in cities and on highways worldwide? Will people still show up if recharging takes 30 minutes or more? Is there a business model that will work for filling stations when people can also charge up at home, the office, or the mall? One advantage they can bring is faster fill-ups: as little as 10 to 20 minutes vs. many hours when using a standard charger at home. And they typically occupy prime locations with lots of traffic, where tired and hungry drivers are likely to grab a coffee or a snack while charging their cars.
At the Fulham facility, fully charging a Tesla Model 3 takes 30 min and can cost more than £35
2022-10-20: Drastically faster charging allows for much smaller batteries, which is great for battery supply, car efficiency and cost. The fastest Tesla supercharger takes 20 min and is not recommended for daily use.
A breakthrough in electric vehicle battery design has enabled a 10-minute charge time for a typical EV battery. “Our fast-charging technology works for most energy-dense batteries and will open a new possibility to downsize electric vehicle batteries from 150 to 50 kWh without causing drivers to feel range anxiety. The smaller, faster-charging batteries will dramatically cut down battery cost and usage of critical raw materials such as cobalt, graphite and lithium, enabling mass adoption of affordable electric cars.
The technology relies on internal thermal modulation, an active method of temperature control to demand the best performance possible from the battery. Batteries operate most efficiently when they are hot, but not too hot. Keeping batteries consistently at just the right temperature has been major challenge for battery engineers. Historically, they have relied on external, bulky heating and cooling systems to regulate battery temperature, which respond slowly and waste a lot of energy.
The researchers developed a new battery structure that adds an ultrathin nickel foil as the fourth component besides anode, electrolyte and cathode. Acting as a stimulus, the nickel foil self-regulates the battery’s temperature and reactivity which allows for 10-minute fast charging on just about any EV battery.
2022-11-11: Tesla opensources their charger (as previously predicted)
With more than 10 years of use and 30b EV charging km to its name, the Tesla charging connector is the most proven in North America, offering AC charging and up to 1 MW DC charging in one slim package. It has no moving parts, is 50% the size, and 2x as powerful as Combined Charging System (CCS) connectors.
In pursuit of our mission to accelerate the world’s transition to sustainable energy, today we are opening our EV connector design to the world. We invite charging network operators and vehicle manufacturers to put the Tesla charging connector and charge port, now called the North American Charging Standard (NACS), on their equipment and vehicles. NACS is the most common charging standard in North America: NACS vehicles outnumber CCS 2:1, and Tesla’s Supercharging network has 60% more NACS posts than all the CCS-equipped networks combined.
2022-11-28: Dumb scaling beats working with local mafias.
Charging EVs in parking lots with solar power is a marriage made in heaven. But the general rule for any solar or charging installation is that it be grid tied, so it can charge vehicles from the grid when the sun is not shining, and feed excess power back to the grid when the cars are not charging. Beam builds their stations in their factory, at scale — which is a big cost win — and then ships them on a flatbed trailer to the site, where they are simply dropped in any sunny parking spot. Without permits or contractors this can be done immediately, not months later. The Beam system is not cheap, however. Just cheaper for some locations than the high cost of traditional install.
Boring Company has started work on an 29km tunnel in Chicago from downtown to the airport. Successfully completing the airport tunnel will make the tunneling company worth as much as $16B. This valuation will be before any full speed hyperloop implementation. If Boring Company succeeds in lowering the cost of tunneling by 10-100x then they will enable high-speed transportation to be used inside and between cities. This would not only mean capturing most of the existing tunnel and infrastructure projects but increasing the tunneling projects by 100x.
2021-12-17: New tunneling methods are being tried. They’re currently about as fast as Prufrock, the Boring machine (which does 10 m / hour)
Petra, a 3-year-old startup is developing tech to cut through rock without grinding into it. A mix of gas and heat above 1000 degrees Celsius breaks rock into small pieces. Sensors attached to small rods touch the rock, but the excavation is carried out by the heat and gas. Petra is testing its tunnel-drilling method in a Minnesota quarry on Sioux Quartzite, 8x tougher than most forms of concrete. In the test, Petra says its method is moving through rock at 12 m / hour. Once the rock is broken into tiny pieces, a vacuum is used to suck rock fragments out of the hole.
Professor T.Y. Lin’s proposal for a crossing between Point Oliveros and Point Cires was designed with 14 km length, deep piers, and 5 km spans. 10 GPa-strong carbon nanotube fibers are available today, suggesting that long cables with a similar strength could be realized in the near future. Those new materials could make super-bridges more feasible.
Solid bulk cargoes – defined as granular materials loaded directly into a ship’s hold – can suddenly turn from a solid state into a liquid state, a process known as liquefaction. And this can be disastrous for any ship carrying them – and their crew. 10 “solid bulk cargo” carriers have been lost at sea each year for the last 10 years. Solid bulk cargoes are typically “2-phase” materials as they contain water between the solid particles. When the particles can touch, the friction between them makes the material act like a solid (even though there is liquid present). But when the water pressure rises, these inter-particle forces reduce and the strength of the material decreases. When the friction is reduced to zero, the material acts like a liquid (even though the solid particles are still present). A solid bulk cargo that is apparently stable on the quayside can liquefy because pressures in the water between the particles build up as it is loaded onto the ship. This is especially likely if, as is common practice, the cargo is loaded with a conveyor belt from the quayside into the hold, which can involve a fall of significant height. The vibration and motion of the ship from the engine and the sea during the voyage can also increase the water pressure and lead to liquefaction of the cargo. When a solid bulk cargo liquefies, it can shift or slosh inside a ship’s hold, making the vessel less stable. A liquefied cargo can shift completely to one side of the hold. If it regains its strength and reverts to a solid state, the cargo will remain in the shifted position, causing the ship to permanently tilt or “list” in the water. The cargo can then liquefy again and shift further, increasing the angle of list. At some point, the angle of list becomes so great that water enters the hull through the hatch covers, or the vessel is no longer stable enough to recover from the rolling motion caused by the waves. Water can also move from within the cargo to its surface as a result of liquefaction and subsequent sloshing of this free water can further impact the vessel’s stability. Unless the sloshing can be stopped, the ship is in danger of sinking.
The biggest payoff, though, comes from effectively bundling opportunities for drivers. The problem for any standalone restaurant delivery app is that the vast majority of orders come at lunch and dinner, but the driver may wish to work at other times of the day as well. With Uber that is easy: just pick up riders (Uber drivers can drive for just Uber, just Uber Eats, or both). In other words, Uber has more and more ways to monopolize a driver’s time, to the driver’s benefit personally and Uber’s benefit competitively.
Drones are going to solve our centuries-old problem of urban gridlock, by safely, quietly, and sustainably moving the transportation of growing quantities of goods and people into the third dimension, the air. Unlike digging underground, which will go far slower, these systems will take us nearly point-to-point, they are far easier to scale, and their load can increase with demand, with no additional construction costs.
Using Shweeb is easier and less tiring than using bicycles. Riders have achieved speeds of over 50km/h on a tight track, but on a longer, straighter track they should be able to achieve 70km/h (that’s faster than an Olympic cyclist.) Shweeb is extremely efficient.
“We’re on the verge of something great. We’re going to make autonomous ships a reality by 2020.” Autonomous shipping would be more environmentally friendly, partly by using electric propulsion and alternative fuels such as marine gas oil and methanol. The normal diesel fuel used in shipping is absolutely filthy, and we should try to stop using it.
2020-10-31: It would help with crew shortages as well
“You have large shipping companies that can’t change out their crews and 100Ks of sailors that were trapped in March on their vessels because they couldn’t get flights out or because of the overall risk of bringing a new crew on board. Executives at these companies are looking to de-risk this.” The International Maritime Organization is in the middle of a “scoping exercise” to come up with new rules for autonomous ships sailing across the sea. It has identified 4 levels of autonomy for ships.
Gregor J. Rothfuss 