The Bridge to an Electric Future

Few people believe that electricity plays a vital role in the future of traffic. Electric cars are not a new concept. More than 100 years ago, Thomas Edison experimented an electric car using his newly developed nickel-iron battery. Edison charges the electric car at night, so I can drive during the day (Roman, 2011). Henry Ford and Thomas Edison abandoned the development of electric vehicles in 1915 (Orr, 1967). The project was abandoned because there was no technology to make electric cars comparable to gasoline cars.

Mazda believes that the HCCI engine will be a bridge to the future of more appropriate output in 10 years, 25 years, or 10 years. Little Mazda obviously learned the technology tried by a large-scale car maker over a dozen, but it has not been realized yet. Mazda's magic is that each cylinder holds a spark plug to ignite the fuel when the engine is cold. Mazda calls it SkyActiv-X technology and its long-term plan "Sustainble Zoom-Zoom 2030". The number of electric vehicles sold in the world has increased sharply, reaching 1 million units in 2015 and 2 million units in 2016. However, sales of internal combustion locomotives (gasoline, diesel, hybrid cars) exceeding 85 million vehicles last year are not unusual last year. Therefore, Mazda wants to introduce technologies that can be applied to most vehicles.

Experts convert extra electric energy to various forms and reduce it to reduce greenhouse gas, acid rain and particulate related fossil fuel related pollution as a necessary bridge for the future of low carbon And then return it to electricity if necessary. The growing demand for mobile electronics and the rapidly expanding electric vehicle market is becoming urgent. Scientists from the prestigious state research universities such as University of Houston, Rice University, University of Texas at Austin, Texas A & M University, University of Texas at Dallas, etc. work. Their project involves increasing the storage capacity of lithium-ion batteries, flexible batteries, manufacturing superconductors and other new materials, some of which incorporate advances in nanoscience and nanotechnology.

Four years later, the cost of new ideas for storing electricity through compressed air, hydrogen, and new chemical cells will become better known. The size, cost and capacity of the battery affect the future of the electric car. Underwater turbine performance in this trend will be another important issue that can be answered, but there is still the possibility that the cost reduction will remain questionable. Economic Growth Economic growth has greatly increased electricity demand. The fact that the economy is doing well means that the people living in Nova Scotia and the people who work are increasing. Some recent prospects may promote the economic development of Nova Scotia in a positive way. These include offshore oil exploration results, LNG exports, and marine technology areas including tidal and shipbuilding. By 2020, we will better understand the economic impact and will understand the increase in loads due to these factors and other factors.