SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3115559722> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W3115559722 endingPage "110941" @default.
W3115559722 startingPage "110941" @default.
W3115559722 abstract "Solar-driven interface evaporation has received much attention due to its high-efficiency photothermal conversion efficiency. However, in practical application, it is difficult to monitor whether the evaporation efficiency of photothermal conversion materials can maintain high efficiency and stability for a long time. In this paper, taking surface modified coconut fiber (SCF) as photothermal material, we designed a set of evaporation efficiency monitoring device (EEMD) and demonstrated the strategy of building a solar evaporation efficiency monitoring system. The SCF shows superhydrophilic wettability, and its vertical multi-stage open-framework structure is benefit to the rapid transport of water. Under 1 kW m −2 illumination, evaporation rate of SCF is 1.5 kg m −2 h −1 , evaporation efficiency is 90.2%. In 20% NaCl, evaporation rate of SCF is 1.37 kg m −2 h −1 , and energy conversion efficiency is 85.3%. In order to monitor the stability of evaporator efficiency, we designed a simple EEMD which applied platinum wire electrode to monitor the change of electric potential in the evaporator. The results show that the electric potential is positively correlated with the evaporation efficiency. EEMD provides a new monitoring method for the efficient and stable operation of solar evaporator. We demonstrate for the first time a new strategy for monitoring the evaporation efficiency of photothermal materials of solar steam generators by evaporation efficiency monitoring device (EEMD). The findings obtained from this study may provide a simple and versatile way for the efficient and stable operation of solar evaporator. • Evaporation Efficiency Monitoring Device (EEMD) was designed for solar steam generation. • EEMD provides a new monitoring method for the efficient and stable operation of solar evaporator. • The electric potential is positively correlated with the evaporation efficiency." @default.
W3115559722 created "2021-01-05" @default.
W3115559722 creator A5013322785 @default.
W3115559722 creator A5019063196 @default.
W3115559722 creator A5019375697 @default.
W3115559722 creator A5028452203 @default.
W3115559722 creator A5045015012 @default.
W3115559722 creator A5063006781 @default.
W3115559722 creator A5069005167 @default.
W3115559722 creator A5073210334 @default.
W3115559722 creator A5086529957 @default.
W3115559722 creator A5086579645 @default.
W3115559722 date "2021-04-01" @default.
W3115559722 modified "2023-10-17" @default.
W3115559722 title "Evaporation efficiency monitoring device based on biomass photothermal material for salt-resistant solar-driven interfacial evaporation" @default.
W3115559722 cites W1604877397 @default.
W3115559722 cites W1982008466 @default.
W3115559722 cites W2005647405 @default.
W3115559722 cites W2274297694 @default.
W3115559722 cites W2553330126 @default.
W3115559722 cites W2605487562 @default.
W3115559722 cites W2606497133 @default.
W3115559722 cites W2611941517 @default.
W3115559722 cites W2614809333 @default.
W3115559722 cites W2620207010 @default.
W3115559722 cites W2745970397 @default.
W3115559722 cites W2752046694 @default.
W3115559722 cites W2790405156 @default.
W3115559722 cites W2791835606 @default.
W3115559722 cites W2793311766 @default.
W3115559722 cites W2794264677 @default.
W3115559722 cites W2807536701 @default.
W3115559722 cites W2884459708 @default.
W3115559722 cites W2884737554 @default.
W3115559722 cites W2891557682 @default.
W3115559722 cites W2895813889 @default.
W3115559722 cites W2901173102 @default.
W3115559722 cites W2901584168 @default.
W3115559722 cites W2907112518 @default.
W3115559722 cites W2913445469 @default.
W3115559722 cites W2914340179 @default.
W3115559722 cites W2917161331 @default.
W3115559722 cites W2924685172 @default.
W3115559722 cites W2933982799 @default.
W3115559722 cites W2939501356 @default.
W3115559722 cites W2940817627 @default.
W3115559722 cites W2941848874 @default.
W3115559722 cites W2945406828 @default.
W3115559722 cites W2948484737 @default.
W3115559722 cites W2955230237 @default.
W3115559722 cites W2966767805 @default.
W3115559722 cites W2969863360 @default.
W3115559722 cites W2985025331 @default.
W3115559722 cites W2991010158 @default.
W3115559722 cites W2992858130 @default.
W3115559722 cites W2994175680 @default.
W3115559722 cites W2996161651 @default.
W3115559722 cites W3000178471 @default.
W3115559722 cites W3004848523 @default.
W3115559722 cites W3011049545 @default.
W3115559722 cites W3011145365 @default.
W3115559722 cites W3022227234 @default.
W3115559722 cites W3026560712 @default.
W3115559722 doi "https://doi.org/10.1016/j.solmat.2020.110941" @default.
W3115559722 hasPublicationYear "2021" @default.
W3115559722 type Work @default.
W3115559722 sameAs 3115559722 @default.
W3115559722 citedByCount "30" @default.
W3115559722 countsByYear W31155597222021 @default.
W3115559722 countsByYear W31155597222022 @default.
W3115559722 countsByYear W31155597222023 @default.
W3115559722 crossrefType "journal-article" @default.
W3115559722 hasAuthorship W3115559722A5013322785 @default.
W3115559722 hasAuthorship W3115559722A5019063196 @default.
W3115559722 hasAuthorship W3115559722A5019375697 @default.
W3115559722 hasAuthorship W3115559722A5028452203 @default.
W3115559722 hasAuthorship W3115559722A5045015012 @default.
W3115559722 hasAuthorship W3115559722A5063006781 @default.
W3115559722 hasAuthorship W3115559722A5069005167 @default.
W3115559722 hasAuthorship W3115559722A5073210334 @default.
W3115559722 hasAuthorship W3115559722A5086529957 @default.
W3115559722 hasAuthorship W3115559722A5086579645 @default.
W3115559722 hasConcept C107706546 @default.
W3115559722 hasConcept C121332964 @default.
W3115559722 hasConcept C127413603 @default.
W3115559722 hasConcept C134514944 @default.
W3115559722 hasConcept C153294291 @default.
W3115559722 hasConcept C159985019 @default.
W3115559722 hasConcept C171250308 @default.
W3115559722 hasConcept C182606246 @default.
W3115559722 hasConcept C192562407 @default.
W3115559722 hasConcept C206991015 @default.
W3115559722 hasConcept C21880701 @default.
W3115559722 hasConcept C49040817 @default.
W3115559722 hasConcept C61441594 @default.
W3115559722 hasConcept C78519656 @default.
W3115559722 hasConcept C91311341 @default.
W3115559722 hasConceptScore W3115559722C107706546 @default.