Morciano Matteo, Fasano Matteo, Salomov Uktam, Ventola Luigi, Chiavazzo Eliodoro, Asinari Pietro
Energy Department, Politecnico di Torino, Corso Duca degli Abruzzi 24, Torino, 10129, Italy.
Sci Rep. 2017 Sep 20;7(1):11970. doi: 10.1038/s41598-017-12152-6.
Technologies for solar steam generation with high performance can help solving critical societal issues such as water desalination or sterilization, especially in developing countries. Very recently, we have witnessed a rapidly growing interest in the scientific community proposing sunlight absorbers for direct conversion of liquid water into steam. While those solutions can possibly be of interest from the perspective of the involved novel materials, in this study we intend to demonstrate that efficient steam generation by solar source is mainly due to a combination of efficient solar absorption, capillary water feeding and narrow gap evaporation process, which can also be achieved through common materials. To this end, we report both numerical and experimental evidence that advanced nano-structured materials are not strictly necessary for performing sunlight driven water-to-vapor conversion at high efficiency (i.e. ≥85%) and relatively low optical concentration (≈10 suns). Coherently with the principles of frugal innovation, those results unveil that solar steam generation for desalination or sterilization purposes may be efficiently obtained by a clever selection and assembly of widespread and inexpensive materials.
高性能太阳能蒸汽发生技术有助于解决诸如海水淡化或杀菌等关键社会问题,特别是在发展中国家。最近,我们目睹了科学界对提出用于将液态水直接转化为蒸汽的阳光吸收器的兴趣迅速增长。虽然从所涉及的新型材料的角度来看,这些解决方案可能会引起人们的兴趣,但在本研究中,我们打算证明太阳能高效产生蒸汽主要是由于高效的太阳能吸收、毛细管供水和窄间隙蒸发过程的结合,而这也可以通过常见材料实现。为此,我们报告了数值和实验证据,即对于在高效率(即≥85%)和相对低的光浓度(≈10个太阳)下进行阳光驱动的水-汽转化,先进的纳米结构材料并非严格必需。与节俭创新的原则相一致,这些结果表明,通过巧妙地选择和组装广泛且廉价的材料,可以有效地实现用于海水淡化或杀菌目的的太阳能蒸汽产生。