By John Addison (8/16/10)
Ford Focus EV Gets Green Plant
Ford’s new Focus Electric Car and Plug-in Hybrid will be built in one of the auto industry’s greenest manufacturing plants. Ford is working with Detroit Edison to install a 500-kilowatt solar photovoltaic panel system at Michigan Assembly. The system will be integrated with a 750-kw energy storage facility that can store two million watt-hours of energy using batteries.
The renewable energy captured by the project’s primary solar energy system will help power the production of fuel-efficient small cars, including Ford’s all-new Focus and Focus Electric going into production in 2011, and a next-generation hybrid vehicle and a plug-in hybrid vehicle coming in 2012. My test drive of the Ford Focus Electric.
A secondary, smaller solar energy system will be integrated at a later date to power lighting systems at Michigan Assembly. The combined systems are expected to give Michigan Assembly the largest solar power array in Michigan and save an estimated $160,000 per year in energy costs. The installation of the system begins later this year.
Although the 500kW does not match the megawatts of solar that Toyota uses in California operations, Ford is advancing automaker use of large scale energy storage, reuse of automotive lithium batteries, smart microgrid, and solar charging.
Michigan Assembly will operate on a blend of renewable and conventional electricity managed by Xtreme Power’s Dynamic Power Resource on-site energy storage and power management system. Xtreme Power, a venture capital backed firm in Austin, Texas, manufactures integrated power management, smart control, and storage systems from 500 kW to 100 MW. XP technology is unique in its ability to provide immediate power when needed through precision control and complex power capabilities (VARs), and the ability to time shift large amounts of power/energy, all at a relatively low lifecycle cost. This is the industry’s first large-scale solid-state power management system. The XP solution comprises four components integrated into a comprehensive system: (1) hyper-efficient energy storage; (2) proprietary power electronics that enable very high power at very high efficiency; (3) smart control system of specialized hardware and software; and (4) factory integration which ties the first three components together under stringent quality control settings.
The renewable energy collected by the solar system will go directly into the energy-efficient microgrid. When the plant is inactive, such as holidays, the collected solar energy will go into the energy storage system for later use, providing power during periods of insufficient or inconsistent sunlight. Michigan Assembly’s energy storage system will be able to recharge from the grid during off-peak hours when energy is available at a lower cost. This in turn will provide inexpensive power during peak operating hours when the cost per kilowatt-hour is higher, and reduce peak demand on the grid.
Ten Charging Stations using Solar Power
Ford also will install 10 electric vehicle-charging stations at Michigan Assembly to demonstrate advanced battery charging technologies using renewable energy and other smart-grid advances. The stations will be used to recharge electric switcher trucks that transport parts between adjacent facilities. Xtreme Power will provide an active power management system on the charging stations. Ford also will demonstrate the possibility for using electrified vehicle batteries as stationary power storage devices after their useful life as vehicle power sources is over.
“Ford is strongly committed to its sustainability strategy to support positive social change and reduce the environmental impact of its products and facilities,” said Sue Cischke, Ford group vice president, Sustainability, Environment and Safety Engineering. “Michigan Assembly is the latest Ford manufacturing facility to utilize renewable power for production.”
Cradle to Cradle
Drive a typical gasoline car in the U.S. and you will emit about 10 tons of CO2 every year. Drive a Ford Fusion Hybrid, however, and only emit 4.7 tons annually – half of a an average car, and only a third of a larger SUV, such as the 2010 Ford Expedition 4WD FFV, with 13.3 tons of CO2 annually.
Ford plans to offer customers families of cars with a variety of fuel efficient drive systems. “The new Ford Focus is a clear demonstration that our ONE Ford strategy is providing global consumers with great products that harness the best of Ford Motor Company,” said Alan Mulally, Ford’s president and CEO. “The efficiencies generated by our new global C-car platform will enable us to provide Ford Focus customers with an affordable product offering quality, fuel efficiency, safety and technology beyond their expectations.” Ford is planning on a Global C platform for 12 to 14 different vehicles with a volume of 2 million units per year. Such volume, common chassis and many common components, can give Ford improved profit margins and room to price hybrid and electric cars competitively.
Clean Fleet Report predicts that in 2012 an all-new Ford Focus family will be offered with choices that include a gasoline-sipping EcoBoost engine, a Focus Hybrid, a Focus Plug-in Hybrid, and Focus Electric. The hybrid, plug-in hybrid, and battery electric will all use lithium-ion batteries. All will offer better fuel economy than the current 30 mpg and lower emissions than the 2010 Focus with 6.5 tons of CO2 per year.
You can find the mileage and carbon emissions of most cars with the U.S. EPA and DOE’s valuable fueleconomy.gov. The EPA combined miles per gallon rating is based on 45% highway and 55% city driving. The carbon footprint is carbon dioxide equivalent (CO2e) based on 15,000 miles of driving, using the GREET 1.7 model.
Drive the new Ford Focus Electric with a 70 percent efficient electric drive using grid power, instead of that 15 percent efficient gasoline motor drive system, and emissions will be far below a Toyota Prius. Charge the Focus EV with solar or wind power and your source-to-wheels emissions of CO2 drops to zero.
But what about all the emissions associated with energy intensive manufacturing and mining of everything from iron to lithium? Historically about 90 percent of a car’s emissions over its 15 years of use are from burning fuel, and only 10 percent from the mining and manufacturing. This is why environmental groups, the EPA, and websites like the Clean Fleet Report focus on source-to-wheels emissions, which is also called well-to-wheels due to our history of fuel from oil wells.
Ford, and other automakers, are following the classic practices of reduce, reuse, and recycle. As Ford electrifies hybrids and electric cars, many mechanical parts are replaced with lighter electric parts. Some steel gets replaced with lighter aluminum, plastic, and bioplastic. Hundreds of pounds are removed from a car, which allows it to go farther on less fuel. At end-of-life metals and parts are often recycled. Some lithium batteries will be repurposed in plants, renewable energy backup, and electric utility applications. Over 95 percent of auto battery materials are eventually recycled.
Ford’s new lean and green plant will build a new generation of cars, low in carbon footprint and high in industry impact.
Ford Electric Car 2011
By John Addison (updated 3/11/10, original 10/26/09).
My test drive of the new Ford electric car for 2011 demonstrated that Ford is building electric cars that millions will want. The Ford Focus EV prototype provided a quiet and smooth drive for a prototype. One Ford engineer indicated that he was going beyond a 60-mile daily range in Michigan without nearing battery depletion.
The Focus EV looks and drives like the popular gasoline powered Ford Focus four-door sedan. It comfortably seated four adults, but good luck if you want three people in the back – it will help if the one in the middle is a child. This BEV will appeal to mainstream drivers that want a sedan that looks and drives like a regular car. Instead of ever visiting a gas station, they will charge in their home garage and/or at work.
This prototype was a converted Focus. It did not include the SmartGauge™ with EcoGuide display available in Ford Fusion and Mercury Milan Hybrids, nor did it include a navigation system with smart charge display user interface expected in the 2011 BEV. The final version is expected to have friendly yet sophisticated display options and some of Ford’s newly introduced telematics.
It drives with quicker acceleration than its gasoline cousin. The prototype, like the final version, had a Magna electric drive system. Unlike the final version of the Focus EV, the prototype had a Magna Steyr battery pack taking part of the trunk space. One Ford rep believed that the battery cells in the prototype were EnerDel lithium titanate. Ford will make its own packs for the 2011 commercial version using 23kWh LG Chem Compact Power lithium-ion tri-metal cells.
During my recent tour of a Johnson-Controls Saft (JCS) design and manufacturing plant, I was shown a lithium-ion 13 kWh battery with cylindrical cells for the 2012 Ford PHEV. No pricing has been announced for the Ford Focus EV. If it comes in at under $40,000 with a $7,500 tax credit, I would be interested in buying one. However, if Nissan or BYD beats Ford to the U.S. BEV market with better delivery and better price or lease rates, then they are likely to get my business over Ford.
In its drive for market share, volume, and improved profit margins, 2012 will be a big year for Ford when the company will have a common C-segment platform for a number of vehicles including the Focus, Focus C-Max, and Escape. As future gasoline price volatility causes shifts in consumer demand, Ford can quickly change its mix of what is manufactured on a common platform. For example if gasoline prices jump, Ford could increase production of vehicles with fuel efficient eco-boost and make less with conventional. Ford could also quickly increase production of electric cars.
The Focus EV will be made in America – Warren, Michigan. Ford is investing $550 million to transform its Michigan Assembly Plant into a lean, green and flexible manufacturing complex that will build Ford’s next-generation Focus global small car along with a new battery-electric version of the Focus for the North American market.
Clean Fleet Report predicts that in 2012, Ford will offer a new global Focus available with several drive systems: conventional engine, 2 liter eco-boost, electric vehicle, both hybrid and plug-in hybrid. By 2012, Ford may be using lithium-ion even for its hybrids. The vehicle will have better range because it will be lighter as Ford executes a strategy of removing 250 to 750 pounds per vehicle. Ford will be well on the way to a 35 percent fuel economy improvement over its 2005 fleet.
The new 2.0-liter, 4-cylinder EcoBoost engine will go on sale in the 2010 calendar year. It is the first EcoBoost engine to include Twin-Independent Variable Cam Timing (Ti-VCT) and will deliver a 10 to 20 percent fuel economy improvement versus larger-displacement V-6 engines. By 2012, the company plans to produce 750,000 EcoBoost units annually in the U.S. and 1.3 million globally. By 2013, Ford will offer EcoBoost engines in 90 percent of its product lineup. 2010 Focus Homepage
I get questions (or rather lectures that start with a questions), “Why would someone pay more for an electric vehicle, when you can’t even cost justify a hybrid?” First, some people make money with hybrids over comparable non-hybrids. When I bought my 2002 Prius for $20,000, I paid about $4,000 more than for a non-hybrid with similar features. Over seven years, the car saved my wife and me over $5,000 in gasoline, and then I sold it about $4,000 more than a similar non-hybrid.
While I was test driving the Focus EV in San Francisco, I saw many taxis that were Ford Escape Hybrids, Toyota Priuses, Toyota Camry Hybrids, and even a Ford Fusion Hybrid Taxi. These taxis put on 90,000 miles per year. Hybrids make the owners money by saving a fortune in fuel. New York has over 2,000 Ford hybrids in its taxi fleet.
The fact is that hybrids make money for some owners and not for others. It depends on how the cars are used and how often. In the past 12 months of severe economic downturn, Ford has increased its hybrid sales 73 percent.
Early adopters will not shell out $40,000 for an EV to save money over a sedan for less than half that cost. For mass market success, auto makers and battery makers must drive cost down the learning curve over a few years. Competition is growing for battery electric, hybrid, and plug-in hybrid car leadership. By 2020, these vehicles could represent up to 25 percent of Ford’s production – that’s 2 million cars annually with electric drive systems and advanced battery packs.
Customers Control Smart Charging of Ford EV
By John Addison (updated 10/15/09; original 8/24/09).
Ford is now taking orders for electric cars. By 2011, the Ford Motor Company will start taking orders for the new Ford Focus EV. Beyond 2011, Ford will offer the popular Focus in a variety of affordable options including hybrid-electric (HEV), plug-in hybrid (PHEV), and battery electric-vehicle (EV).
Although Nissan will take an early lead with EVs, and GM will beat Ford to market with a plug-in hybrid Chevy Volt, Ford will be fighting for market leadership with both electric vehicles and plug-in hybrids.
The Ford EV roadmap in this article is based on my interviews with Susan Cischke, Ford Group Vice President, Mike Tinskey, Plug-in 2009 Conference presentations, and my discussions with some of Ford’s utility partners.
2010 orders are likely to come from municipalities and other government agencies that will use the new Transit Connect light-duty van in a variety of applications from city maintenance to on-demand transit. Deliveries of these electric vehicles, made for Ford by Smith Electric Vehicles, will start in 2010. Transit Connect may also do well with small businesses and local delivery fleets.
It is the Ford Focus EV that captures the imagination of mainstream Americans eager to secure a zero-emission vehicle that they can take on freeways and travel up to 100 miles between charges. The new Ford Focus EV will be a 4-door sedan that seats five.
The Focus EV will be made in America. The sedan will travel 75 miles per charge with a 23kWh lithium-ion tri-metal battery. Ford has expressed a preference for a battery whose cells that are made in America. Ford’s final battery decision may be influenced by federal funding.
Ford is investing $550 million to transform its Michigan Assembly Plant into a lean, green and flexible manufacturing complex that will build Ford’s next-generation Focus global small car along with a new battery-electric version of the Focus for the North American market. Both will be based on a new global C platform. The EV is being developed in partnership with Magna International.
“The transformation of Michigan Assembly Plant embodies the larger transformation under way at Ford,” said Ford President and CEO Alan Mulally. “This is about investing in modern, efficient and flexible American manufacturing. It is about fuel economy and the electrification of vehicles. It is about leveraging our expertise and vehicle platforms around the world…”
Ford will offer a plug-in hybrid in 2012. It has not yet announced the model. Ford’s first plug-in hybrid may be the Focus PHEV or the Escape Hybrid or both. A Ford Fusion PHEV could also be announced in 2012. Johnson Controls – SAFT is Ford’s lithium battery supplier for the first commercial plug-in hybrid (PHEV). Ford PHEV Press Releases
A Ford Focus PHEV is planned. It will be a blended hybrid using only an 8 to 13kWh lithium battery pack in contrast with the Chevy Volt series hybrid which will use 16kWh battery pack. All new Ford hybrid and plug-in hybrids will be blended parallel.
Ford can profit from the economies of scale by having common platforms for global vehicles and offering customers options which including engine powered, hybrid-electric, plug-in hybrid, and electric-vehicle. In a succession of announcements, Ford will make the Focus available in all of these configurations. By 2013, more than 90% of Ford’s new North American lineup will be available with EcoBoost technology.
Ford has been actively testing the plug-in hybrid Ford Escape with a number of utilities and partners. These tests have helped establish the standards necessary for electric vehicle success, such as the J1772 electrical connection that will be standard on Ford EVs.
Thanks to a new DOE award of $30 million, 50/50 matched, a total of $60 million will go into expanded deployment of Ford plug-in hybrids, electric vehicles, and infrastructure. Early pilots of the Ford Focus EV are likely to be part of this.
Ford did not receive its dream funding which would have been $250 million so that it could put 700 plug-ins (both EV and PHEV) into utilities and fleet tests. Ford wanted to pilot a mix of 700 vehicles including the Focus EV, a PHEV, Transit Connect, and E450 (Azure).
The new electric vehicles are smart EVs. Customers will be provided with charging options to save money. Drivers will be connected with traffic and location services and assisted with electronics that make driving safer. Passengers will have more information and entertainment options than ever. Like the new smartphones from Apple, Blackberry, Palm and others, the value of a full value of a smart car is in the networks. Just as smartphones can be purchased at a discount with network subscriptions, we may see similar offerings from car makers and their partners.
Subscription models are being explored where vehicles like the Ford Focus EV could be purchased, with the lithium battery and charging being offered as a subscription. Ford, Nissan, and other automakers are discussing such possibilities with electric utilities, financial institutions and others. Should a utility or JV own the batteries, then it would be easier to repurpose lithium batteries into less demanding stationary power back-up applications after the batteries decline in charge after several years of use.
Possibilities include 50/50 joint ventures and long-term secure financing. Because utilities are regulated, public utility commissions will be involved in approving new business models. If everyone gets there act together, which is certainly an “if,” the customer could be a big winner with an affordable EV and subscription offerings that cost less than monthly gasoline costs.
Under the leadership of CEO Alan Mulally, Ford has shown a new flexibility in partnering with suppliers, vehicle integrators, battery JV, electric utilities, financial institutions, and even information technology firms like Microsoft. With global platforms, richer partnerships, greater speed to market, hybrid cars, and electric cars, customers will see some interesting new offerings in the next two years.