在内燃机汽车上安装光伏太阳能系统对满足2025年燃油经济性CAFE标准的影响

M. Abdelhamid, I. Haque, S. Pilla, Z. Filipi, Rajendra Singh
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引用次数: 9

摘要

为了满足2025年企业平均燃油经济性(CAFE)标准的挑战,交通运输部门取得了重大发展,其中包括利用清洁能源的尝试。迄今为止,利用太阳能作为机载燃料的辅助来源还没有得到广泛的研究。本文首次全面分析了通过光伏(PV)技术在车载使用太阳能,以提高汽车燃油经济性,延长行驶里程,减少温室气体(GHG)排放,并确保以内燃机(ICE)为基础的汽车更好的经济价值,以达到2025年的cafe标准。本文详细介绍并比较了混合动力太阳能电动汽车与传统内燃机汽车的各个方面。不同的驾驶地点、车辆大小、不同的驾驶模式和不同的成本场景被使用,以提高当前对在个别汽车中使用车载光伏模块的适用性和有效性的理解,并确保在任何时候准确地代表美国所有州的驾驶条件。这些与时间和地点相关的测试结果表明,类似特斯拉S的车辆在中午的综合每加仑英里数(MPG)增加了2.9-9.5%,而轻质和空气动力学高效的车辆则显著增加了10.7-42.2%。此外,通过增加车载pv,使其覆盖不到典型中型汽车(如丰田凯美瑞或日产Leaf)预计水平表面积的50%,美国人平均每天行驶的总里程将有多达50%由太阳能驱动。此外,当汽油价格保持在每加仑4.0美元以下,并且车辆在低太阳能地区(例如,马萨诸塞州的波士顿)行驶时,在ICE车辆的整个生命周期内,为其添加pv板的投资回报率(ROI)仅显示为负值。如果车辆在高太阳能地区(如亚利桑那州)行驶,即使汽油价格保持低位,同样的投资回报率也超过250%。对于未来的价格情况,这种投资回报率要高得多——在某些情况下,假设电池成本最终会下降,投资成本几乎是投资成本的10倍。在环境影响方面,实现了显著的汽油节约(~500-3400加仑)和二氧化碳减排(~5.0 - 34.0短吨)。
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Impacts of Adding Photovoltaic Solar System On-Board to Internal Combustion Engine Vehicles Towards Meeting 2025 Fuel Economy CAFE Standards
The challenge of meeting the Corporate Average Fuel Economy (CAFE) standards of 2025 has led to major developments in thetransportation sector, among which is the attempt to utilize clean energy sources. To date, use of solar energy as an auxiliary source ofon-board fuel has not been extensively investigated. This paper is the first study at undertaking a comprehensive analysis of using solarenergy on-board by means of photovoltaic (PV) technologies to enhance automotive fuel economies, extend driving ranges, reducegreenhouse gas (GHG) emissions, and ensure better economic value of internal combustion engine (ICE) -based vehicles to meet CAFEstandards though 2025. This paper details and compares various aspects of hybrid solar electric vehicles with conventional ICE vehicles.Different driving locations, vehicle sizes, various driving patterns and different cost scenarios are used in order to enhance the currentunderstanding of the applicability and effectiveness of using on-board PV modules in individual automobiles and ensure an accuraterepresentation of driving conditions in all U.S states at any time. These times and location-dependent results obtained over a year show anincrease in the combined mile per gallon (MPG) at noon in the range of 2.9-9.5% for a vehicle similar to a Tesla S, and a significantincrease in the range of 10.7-42.2% for lightweight and aerodynamic efficient vehicles. In addition, by adding on-board PVs to cover lessthan 50% of the projected horizontal surface area of a typical mid-size vehicle (e.g., Toyota Camry or Nissan Leaf), up to 50% of totaldaily miles traveled by an average U.S. person could be driven by solar energy. Also, the return on investment (ROI) of adding PVson-board with ICE vehicle over its lifetime shows only negative values when the price of gasoline remains below $4.0 per gallon and thevehicle is driven in low-solar energy area (e.g., Boston, MA). The same ROI is more than 250% if the vehicle is driven in high-solarenergy area (e.g., Arizona), even if the gasoline price remains low. For future price scenarios, this ROI is much higher - nearly 10 times theinvestment cost under some scenarios, with the assumption of an eventual decline in battery costs. With regard to environmental impacts,significant gasoline gallons savings (~500-3400) and CO2 emission reduction (~5.0 to 34.0 short tons) are achieved.
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来源期刊
SAE International Journal of Alternative Powertrains
SAE International Journal of Alternative Powertrains TRANSPORTATION SCIENCE & TECHNOLOGY-
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期刊介绍: The SAE International Journal of Alternative Powertrains provides a forum for peer-reviewed scholarly publication of original research and review papers that address challenges and present opportunities in alternative and electric powertrains and propulsion technology. The Journal strives to facilitate discussion between researchers, engineers, academic faculty and students, and industry practitioners working with systems as well as components, and the technological aspects and functions of powertrains and propulsion systems alternative to the traditional combination of internal combustion engine and mechanical transmission. The editorial scope of the Journal includes all technical aspects of alternative propulsion technologies, including, but not limited to, electric drives and electromobility systems, hybrid technology, battery and super-capacitor technology, power electronics, hydraulic drives, energy storage systems for automotive applications, fuel cell technology, and charging and smart grid infrastructures.
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