Author | Joseph J. Romm |
---|---|
Language | English |
Publisher | Island Press |
Publication date | 2004 |
ISBN | 1-55963-703-X |
OCLC | 53138756 |
333.79/68 22 | |
LC Class | TP261.H9 .R65 2004 |
Preceded by | Cool Companies (1999) |
Followed by | Hell and High Water |
The Hype About Hydrogen: Fact and Fiction in the Race to Save the Climate is a book by Joseph J. Romm, published in 2004 by Island Press and updated in 2005. The book has been translated into German as Der Wasserstoff-Boom. [1] Romm is an expert on clean energy, advanced vehicles, energy security, and greenhouse gas mitigation. [2] [3]
Over 200 publications, including Scientific American , Forbes magazine and The New York Times , have cited this book. [4] [5] [6] The book was named one of the best science and technology books of 2004 by Library Journal . [7]
The thrust of the book is that hydrogen is not economically feasible to use for transportation, nor will its use reduce global warming, because of the greenhouse gases generated during production and transportation of hydrogen, the low energy content per volume and weight of the container, the cost of the fuel cells, and the cost of the infrastructure for refueling. The author argues that a major effort to introduce hydrogen cars before 2030 would actually undermine efforts to reduce emissions of heat-trapping greenhouse gases such as carbon dioxide. [8] [9] [10] [11]
The Hype about Hydrogen contends that global warming and U.S. reliance on foreign fuel imports cannot be solved by the hypothetical hydrogen economy that has been advanced as a possible solution to these problems, and that "neither government policy nor business investment should be based on the belief that hydrogen cars will have meaningful commercial success in the near or medium term."
The book explains how fuel cells work and compares different types. It then reviews the difficulties in marketing fuel cells for applications other than transportation and argues that these are in fact easier and more likely to happen sooner than transportation applications.
The history of hydrogen and its methods of production are then described. The book discusses steam methane reforming, the most common and cost-effective method of hydrogen production, which involves reacting natural gas with water and emits large amounts of CO2 (a greenhouse gas). As of 2019, 98% of hydrogen was produced either by this method or by methods with even greater greenhouse emissions (like coal gassification), [12] which Romm attributes to the inefficiency of alternative methods such as electrolysis. The monetary costs of hydrogen fueling infrastructure for the U.S. are then estimated at half a trillion U.S. dollars, and the book describes additional energy and environment costs to liquefy and compress hydrogen for use in fueling stations.
The book goes on to discuss the hypothetical evolution of the cost of vehicles with fuel cells and with hydrogen-powered internal combustion engines, as well as possible adoption strategies. It then reviews the issue of the greenhouse effect and offers four reasons why hydrogen would not be useful in reducing greenhouse gas emissions:
The book then describes pilot projects in Iceland and California.
In its conclusion, the book states that hydrogen will not be widely available as a transportation fuel for a long time, and describes other strategies, including energy conservation techniques, to combat global warming.
The Hype about Hydrogen was named one of the best science and technology books of 2004 by Library Journal . [7] The New York Review of Books stated that the book gives "the most direct answers" to the question on the promise of a near-term hydrogen economy, calling Romm "a hydrogen realist". [13] The environmental community newsletter TerraGreen agrees with Romm in the claim that "the car of the near future is the hybrid vehicle", and cites the book's good reception by Toyota's advanced technologies group. [14] The San Diego Union-Tribune 's 2004 review noted that Romm's "clear logic" reaches conclusions similar to an authoritative study issued by the National Academy of Sciences. [15]
Three UC Davis scientists who also reviewed the book agreed on its basic premises, but claimed that Romm had made selective use of sources, for example, citing the highest cost estimates, adopting extremely high estimates of efficiency for advanced gasoline vehicles, and giving weight to controversial non-peer-reviewed studies. [16]
Romm and Prof. Andrew A. Frank co-authored an article, "Hybrid Vehicles Gain Traction", published in the April 2006 issue of Scientific American , in which they argue that hybrid cars that can be plugged into the electric grid (Plug-in hybrid electric vehicles), rather than hydrogen fuel cell vehicles, will soon become standard in the automobile industry. [17]
A fuel cell is an electrochemical cell that converts the chemical energy of a fuel and an oxidizing agent into electricity through a pair of redox reactions. Fuel cells are different from most batteries in requiring a continuous source of fuel and oxygen to sustain the chemical reaction, whereas in a battery the chemical energy usually comes from substances that are already present in the battery. Fuel cells can produce electricity continuously for as long as fuel and oxygen are supplied.
A hybrid vehicle is one that uses two or more distinct types of power, such as submarines that use diesel when surfaced and batteries when submerged. Other means to store energy include pressurized fluid in hydraulic hybrids.
A hydrogen vehicle is a vehicle that uses hydrogen fuel for motive power. Hydrogen vehicles include road vehicles, rail vehicles and hydrogen-fueled space rockets, as well as hydrogen-powered ships and aircraft. Motive power is generated by converting the chemical energy of hydrogen to mechanical energy, either by reacting hydrogen with oxygen in a fuel cell to power electric motors or, less commonly, by hydrogen internal combustion.
An electric vehicle (EV) is a vehicle that uses one or more electric motors for propulsion. It can be powered by a collector system, with electricity from extravehicular sources, or it can be powered autonomously by a battery. EVs include but are not limited to road and rail vehicles, and broadly can also include electric boat and underwater vessels, electric aircraft and electric spacecraft.
A so-called zero-emission vehicle, or ZEV, is a vehicle that does not emit exhaust gas or other pollutants from the onboard source of power but still emits pollutants during its construction phase, production of energy carrier etc. Therefore, the term "zero-emission" has been described as abusive or greenwashing.
The hydrogen economy is an umbrella term that draws together the roles hydrogen can play alongside renewable electricity to decarbonize those sectors and activities which may be technically difficult to decarbonize through other means, or where cheaper and more energy-efficient clean solutions are not available. In this context, hydrogen economy encompasses hydrogen's production through to end-uses in ways that substantively contribute to avoiding the use of fossil fuels and mitigating greenhouse gas emissions.
A fuel cell vehicle (FCV) or fuel cell electric vehicle (FCEV) is an electric vehicle that uses a fuel cell, sometimes in combination with a small battery or supercapacitor, to power its onboard electric motor. Fuel cells in vehicles generate electricity generally using oxygen from the air and compressed hydrogen. Most fuel cell vehicles are classified as zero-emissions vehicles that emit only water and heat. As compared with internal combustion vehicles, hydrogen vehicles centralize pollutants at the site of the hydrogen production, where hydrogen is typically derived from reformed natural gas. Transporting and storing hydrogen may also create pollutants. Fuel cells have been used in various kinds of vehicles including forklifts, especially in indoor applications where their clean emissions are important to air quality, and in space applications. Fuel cells are being developed and tested in trucks, buses, boats, ships, motorcycles and bicycles, among other kinds of vehicles.
A green vehicle, clean vehicle, eco-friendly vehicle or environmentally friendly vehicle is a road motor vehicle that produces less harmful impacts to the environment than comparable conventional internal combustion engine vehicles running on gasoline or diesel, or one that uses certain alternative fuels. Presently, in some countries the term is used for any vehicle complying or surpassing the more stringent European emission standards, or California's zero-emissions vehicle standards, or the low-carbon fuel standards enacted in several countries.
A plug-in hybrid electric vehicle (PHEV) is a type of hybrid electric vehicle equipped with a rechargeable battery pack that can be replenished by connecting a charging cable into an external electric power source, in addition to internally by its on-board internal combustion engine-powered generator. While PHEVs are predominantly passenger cars, there are also plug-in hybrid variants of sports cars, commercial vehicles, vans, utility trucks, buses, trains, motorcycles, mopeds, military vehicles and boats.
The Monroney sticker or window sticker is a label required in the United States to be displayed in all new automobiles and includes the listing of certain official information about the car. The window sticker was named after Almer Stillwell "Mike" Monroney, United States Senator from Oklahoma.
The methanol economy is a suggested future economy in which methanol and dimethyl ether replace fossil fuels as a means of energy storage, ground transportation fuel, and raw material for synthetic hydrocarbons and their products. It offers an alternative to the proposed hydrogen economy or ethanol economy, although these concepts are not exclusive. Methanol can be produced from a variety of sources including fossil fuels as well as agricultural products and municipal waste, wood and varied biomass. It can also be made from chemical recycling of carbon dioxide.
The FreedomCAR and Vehicle Technologies (FCVT) was a national Office of Energy Efficiency and Renewable Energy program developing more energy-efficient and environmentally-friendly highway transportation technologies to enable the United States to use less petroleum. Run by Michael Berube, it had long-term aims to develop "leap-frog" technologies to provide Americans with greater freedom of mobility and energy security, lower costs, and reduce environmental impacts.
Who Killed the Electric Car? is a 2006 American documentary film directed by Chris Paine that explores the creation, limited commercialization and subsequent destruction of the battery electric vehicle in the United States, specifically the General Motors EV1 of the mid-1990s. The film explores the roles of automobile manufacturers, the oil industry, the federal government of the United States, the California government, batteries, hydrogen vehicles and consumers in limiting the development and adoption of this technology.
Joseph J. Romm is an American researcher, author, editor, physicist and climate expert, who advocates reducing greenhouse gas emissions to limit global warming and increasing energy security through energy efficiency and green energy technologies. Romm is a Fellow of the American Association for the Advancement of Science. In 2009, Rolling Stone magazine named Romm to its list of "100 People Who Are Changing America", and Time magazine named him one of its "Heroes of the Environment (2009)", calling him "The Web's most influential climate-change blogger".
An alternative fuel vehicle is a motor vehicle that runs on alternative fuel rather than traditional petroleum fuels. The term also refers to any technology powering an engine that does not solely involve petroleum. Because of a combination of factors, such as environmental and health concerns including climate change and air pollution, high oil-prices and the potential for peak oil, development of cleaner alternative fuels and advanced power systems for vehicles has become a high priority for many governments and vehicle manufacturers around the world.
Hell and High Water: Global Warming – the Solution and the Politics – and What We Should Do is a book by author, scientist, and former U.S. Department of Energy official Joseph J. Romm, published December 26, 2006. The author is "one of the world's leading experts on clean energy, advanced vehicles, energy security, and greenhouse gas mitigation."
Miles per gallon gasoline equivalent is a measure of the average distance traveled per unit of energy consumed. MPGe is used by the United States Environmental Protection Agency (EPA) to compare energy consumption of alternative fuel vehicles, plug-in electric vehicles and other advanced technology vehicles with the energy consumption of conventional internal combustion vehicles rated in miles per U.S. gallon.
A hydrogen internal combustion engine vehicle (HICEV) is a type of hydrogen vehicle using an internal combustion engine. Hydrogen internal combustion engine vehicles are different from hydrogen fuel cell vehicles. Instead, the hydrogen internal combustion engine is simply a modified version of the traditional gasoline-powered internal combustion engine. The absence of carbon means that no CO2 is produced, which eliminates the main greenhouse gas emission of a conventional petroleum engine.
The long tailpipe is an argument stating that usage of electric vehicles does not always result in fewer emissions compared to those from non-electric vehicles. While the argument acknowledges that plug-in electric vehicles operating in all-electric mode have no greenhouse gas emissions from the onboard source of power, it claims that these emissions are shifted from the vehicle tailpipe to the location of the electrical generation plants. From the point of view of a well-to-wheel assessment, the extent of the actual carbon footprint depends on the fuel and technology used for electricity generation, as well as the impact of additional electricity demand on the phase-out of fossil fuel power plants.
Driving the Future: Combating Climate Change with Cleaner, Smarter Cars is the first book of Margo T. Oge, who served as the director of the Environmental Protection Agency's Office of Transportation and Air Quality from 1994 to 2012. The book covers climate science, politics, regulations, auto technology and proposes how to meet greenhouse gas reduction goals. The book combines primary source research, Oge's first-hand knowledge of events and dozens of interviews with technical, environmental, regulatory, policy and legal experts. It is organized into three sections.