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新技术在可持续能源经济中的作用

The Role of New Technologies in a Sustainable Energy Economy
课程网址: http://videolectures.net/mitworld_belcher_nocera_tron/  
主讲教师: Angela Belcher; Daniel Nocera
开课单位: 麻省理工学院
开课时间: 2013-04-19
课程语种: 英语
中文简介:
没有任何一种新技术能够提供无限的清洁能源,但丹尼尔·诺切拉和安吉拉·贝尔彻对他们能够利用物理和自然世界朝着这个目标前进持乐观态度。贝尔彻寻找古代海洋生物的灵感。组成鲍鱼壳或硅藻的生物复合材料经过数百万年的进化,在纳米级上耐用且设计精巧。Belcher提出了一个有趣的问题:为什么生物体没有制造其他材料,如太阳能电池、电池或传统燃料电池?……我们说,他们还没有机会,让我们给他们机会吧。”她的目标是对这些生物体进行工程设计,使其DNA代码能够合成高效电池或太阳能电池,例如。“这看起来很疯狂,”Belcher承认,但她指了指她儿子的照片,她把遗传信息传递给了儿子,这些遗传信息导致了他的肉体和骨骼。贝尔彻建议,为什么不采用同样的原理,引导微生物将自己构造成一个有用的机器呢?她说,“有了合适的原料,它就能自行组装。”使用天然材料将确保“环境友好型处理”产生的废物很少。事实上,啤酒中使用的酵母也可以“为太阳能电池酿造半导体”,贝尔彻说。“未来的石油是什么,我的涅盘?Daniel Nocera问道。答案看似简单:水加光。Nocera试图模仿植物,这种植物反映了阳光的能量:“每次你吃绿叶蔬菜,你都在咀嚼太阳的光子,释放太阳的光子。”Nocera“进行人工光合作用”,他认为“我们的未来必须进化到”。挑战在于如何捕捉和转换阳光分解水产生的能量。诺切拉说,“我们不知道如何廉价生产光伏”,但我们必须快速学习。目前,全球人类需要13万亿瓦(或万亿瓦)的电力。到2050年,我们将需要28太瓦的电力。Nocera在为实现这一目标而提供的一些假设场景中打了个洞。如果你把地球表面每平方英寸的农田都用来生产生物量,那么你只能得到额外的7兆瓦特。另外,“你不能再吃东西了。”你仍然需要增加8000个核电站,在未来45年内每1.6天建造一个新的核电站;到处安装风力发电机;在所有可用的河流上筑坝,以达到28万亿瓦的目标。诺切拉说,这些技术并没有实际地扩大规模,所以我们必须仰望太阳,太阳在一小时内释放出的能量与人类全年使用的能量一样多。
课程简介: No single new technology can deliver limitless and clean energy, but Daniel Nocera and Angela Belcher are optimistic that they can harness the physical and natural worlds to move toward this goal. Belcher looks to ancient ocean organisms for her inspiration. The biocomposite materials that make up abalone shells or diatoms, which evolved over millions of years, are durable and exquisitely designed at the nano level. Belcher poses an “interesting question: Why didn’t the organism make other materials, like solar cells, batteries, or traditional fuel cells? ....We say, they haven’t had the opportunity yet, let’s give them the opportunity.” Her goal is to engineer these organisms so that their DNA codes for the synthesis of an efficient battery or solar cell, for instance. “It seems crazy,” admits Belcher, but she points to a photo of her son, to whom she’s passed on the genetic information that’s given rise to his flesh and bones. Why not take the same principles and direct a microorganism to construct itself into a useful machine, Belcher suggests. “With the right ingredients, it would assemble itself,” she says. Using natural materials would ensure “environment-friendly processing” that produces little waste. Indeed, the yeasts used in beer could “brew semiconductors for solar cells as well,’ says Belcher. “What will be the oil of the future, my nirvana?” asks Daniel Nocera. The answer is deceptively simple: water plus light. Nocera is trying to emulate plants, which story the energy of sunlight: “Every time you eat a green leafy vegetable, you’re literally chewing photons of the sun, releasing photons of the sun.” Nocera “does artificial photosynthesis”, which he believes “our future has to evolve to.” The challenge lies in how to capture and convert the energy created by splitting water with sunlight. Nocera says “We don’t know how to make photovoltaics cheaply,” but we must learn quickly. Right now humans globally require 13 trillion watts (or terawatts) of power. By 2050, we’ll need 28 terawatts. Nocera pokes holes in some hypothetical scenarios offered to achieve this objective. If you gave over every square inch of cropland on the face of the earth to biomass production, you’d only get 7 additional terawatts. Plus, “you couldn’t eat anymore.” You’d still need to add 8,000 nuclear power plants, by building a new plant every 1.6 days for the next 45 years; put wind turbines everywhere; and dam every available river, to approach the 28 terawatt goal. These technologies don’t scale up realistically, says Nocera, so we must look to the sun, which in one hour puts out as much energy as humans use during an entire year.
关 键 词: 技术; 能源; 清洁能源
课程来源: 视频讲座网
最后编审: 2020-04-08:chenxin
阅读次数: 41

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