央视新闻客户端消息，2026年1月5日，四川宜宾一个长60米、宽40米的巨型"白色气艇"在众人的注目下缓 缓升空。它没有引擎，却带着12组发电机组，升至2000米的高空。它就是全球首台适用于城市环境的兆瓦 级浮空风力发电系统S2000。 临一云川联合创始人 首席执行官 顿天瑞：这一台就是S2000。 记者：2000的意思就是它能够在2000米作业，是吗？ 顿天瑞：对，至少在2000米的海拔进行稳定工作，实际上具备飞到3000米的能力。 在2000米的高空，风速可达地面的数倍，风能密度约为地面的数十倍。相当于同样尺寸的风机，在同样的 时间内，高空的发电能力是地面的数十倍。正因为这样的效率，高空风力发电的概念由来已久。目前有据 可查的是，美国的一家创业公司，曾创下浮空器风力发电升空高度为297米、发电功率为30kW的世界纪 录。然而，S2000浮空风力发电系统在1月5日完成了累计发电385千瓦时，同时并网发电的测试，在高空发 电领域占据了遥遥领先的位置。 记者：这个家伙是怎么工作的？ 顿天瑞：每个黑色叶片相当于是一个风力发电机的叶片，风过来的时候推动每一片叶片转动，就产生了电 能。这和地面上风机原理上没有任何区别 ...

Core Viewpoint - The S2000 is the world's first megawatt-level airborne wind power generation system designed for urban environments, capable of operating at altitudes of at least 2000 meters, with potential to reach 3000 meters [1][3]. Group 1: Technology and Efficiency - At 2000 meters, wind speeds can be several times greater than at ground level, resulting in wind energy density that is tens of times higher, allowing airborne systems to generate significantly more power than ground-based wind turbines [5]. - The S2000 has achieved a cumulative power generation of 385 kilowatt-hours during its testing phase, establishing a leading position in the airborne power generation sector [5]. - The system utilizes 12 lightweight generators, with a total capacity of up to 3.6 megawatts, demonstrating advancements in power density that have reduced the weight of the equipment to just a few hundred kilograms [7][9]. Group 2: Development and Innovation - The S2000 relies on helium for buoyancy and employs intelligent tethering to maintain stability and control, effectively functioning as a floating power station above urban areas [9]. - The technology has benefited from advancements in China's industrial capabilities, particularly in high-voltage direct current systems, which are among the most advanced globally [11]. - The company, founded by a young team with an average age of under 32, has made significant strides in the airborne wind energy sector, with successful tests of various models including S500, S1500, and S2000 [11][42]. Group 3: Future Goals and Market Potential - The company aims to conduct tests at altitudes exceeding 4000 meters, where wind conditions are expected to be even more favorable, expanding the potential application of the technology [44]. - The goal is to reduce the cost of electricity generated by this system to one-tenth of the current coal-fired power generation costs by 2028, positioning it as a major player in the future energy market [46].