A New Ternary Chloride Eutectic Mixture and its Thermo-physical Properties for Solar Thermal Energy Storage

A New Ternary Chloride Eutectic Mixture and its Thermo-physical Properties for Solar Thermal Energy Storage

Available online at www.sciencedirect.com ScienceDirect Energy Procedia 61 (2014) 1314 – 1317          ...

212KB Sizes 25 Downloads 51 Views

Available online at www.sciencedirect.com

ScienceDirect Energy Procedia 61 (2014) 1314 – 1317

   

     

            ! 

       

    " #  $% &  $' $( ) *$(  +   

     

        !"    

 $%    &  '   !"        

 (!      ) *+ +!"  

# 



           , --$          

     .  $   %     

       

 ,

  *   

    

  /)&01            *       1-1 

     *              12  $  

  / &+&3!0   *              ! 

       

   1 4     $    ,    &+&3!     ,     * )&$      , *  !      1 4         

 

  )& ,          

$ , ,

  

   156 (7 8   9 

   1: (7 81 )    

        1- 76 1: 76           -  ;-1<     

   

      1    61         1 %  $     ,     

               

  *    

  

 ;1  , - .     =  =  ! 

    = 

  * 

     % 

   , *                       >!6?1 %    

      *    ,  -                  ,  --1      ,    $   $         /!5-0$    

  * 1 @  

      *  , *   

      

          ,  >?1         

      .  $   %  *  

       >-?1)&  ,       

         

                    ,

$         *    ,    

       1 2  $   

                                   

              1   

            *         1 

    ,                    $  $ ,     

  *                    

        *      

       1     

            

            *                      1       ,       $   6                 

*    1    

                 



$ 

 A    1

 

      1 1B5!5;56 %  

.  C 111

1876-6102 © 2014 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/3.0/). Peer-review under responsibility of the Organizing Committee of ICAE2014 doi:10.1016/j.egypro.2014.11.1089

1315

Xiaolan Wei et al. / Energy Procedia 61 (2014) 1314 – 1317

&) :  

   

 /)&$ D   .E&4  0                1* -!      

    *       1                   F7        87  51  &* 9 $  

! 

              

    /  &+&3!0  * 14        )& ,           

1 )      *        G&)!       1 <          , *  !           ,      /(    A  8 *  A  8  01 *   &+&3!    

     *        

  * $  *   ,         ,     ,  H      1      /00(        1-

   2   

         

   I 1 >-?1         * ,

  *   1     )&  ,          *6- -  , I 1       ,      A $             *

        ,  1   $   *  

                             1  )&  ,       I 16               A1         

        $      



         ,

 1-1            

     :(7$          

    1 $  

              

/ &+&3!0       1   

 







 







  







  





 

























 



















 

 

 



 



















I 11J         /.  !  !% 0















I 11)& ,        



 





 







 !   





















I 161)& ,  &+&3!

/0*0& 2  4       &+&3!           I 1        , *          >?1   

       *  ,       =    /15-!15-0  9   /;15-!15-01            *      

9  1 

1316

Xiaolan Wei et al. / Energy Procedia 61 (2014) 1314 – 1317

            &+&3!             15-   15-          

9  B 2/& 0K1-;-: !-!1;-L1;:-/(7M0  G ,

        1:;1 ,       &+&3! 156 (7M81             &+&3!   9           ;15-   15- *

         

9  B 2/ 9 0K1-5N!-!1;5L165/(7M0  G ,

     1:51 ,       9 &+&3! 1:(7M81 

         &+&3! ,      

 @         * 1      9 &+&3! *         *          9   1   

     

9   

  *                  

1#     ,  $  ,

          

     9 A  *     ,  H    

 .             1 /0/0(     &+&3!        I 1-$        , *    & &

 4& >;!5?1  *  ,   &+&3!       1--76 1:76      *- ;-$    *      *9  B 3/760K1-;!1;:;/0  /-!;-0  G ,

  9       1:;1  &+&3! *      & &

 4&    ,      $    &+&3!   

  

     1&    

   * 1   







  

 ! " #$





,- ! .  .  /.







      

 



 * "+ ' &





 %  & ' ($)



  





  









 

I 114     &+&3!

















 









I 1-1)    &+&3!     

/0 04       ,       &+&3!    ,  I 11        ,    &+&3!    1 61      *-      *     9  /G     1:-0B 5/0K;15!1;:;/0  /-!0   *  ,         

        ,    ,           ,    -  ;    ,  I 11         ,   &+&3!        ,  ,

$     *      1  /00   #    

  *            

   *   

       1   ,    A >-?       

  *         

    

1317

Xiaolan Wei et al. / Energy Procedia 61 (2014) 1314 – 1317

         $         *        * %          1     

  *  &+&3!  

                      $ *  &+&3!    

    *    1   ,  &+&3!   

      5

 ,  I 1;1    *,        &+&3!           1 5$   O &+&3!  *     6O   * ;$   *   *        1  *  

       *    ,  H     

  >:?1    $   

     ;  

  *     

          

       

       

        1  



 ! 1



0+&+ '&





   

   















I 11<     &+&3!     

                





 

 

  ,    - ;



 %   %   %   %   %















 !













I 1;1%   ,  &+&3!   

     

     )&             

        ,

     ,     *        

 

  1 2  $

    ,   

! 

            

 /  &+&3!0     1      &+&3!        1 

  ,  

         ,           1       ,      &+&3!       

  *  *  ;1 & $         $      $ ,     

  * 

    &+&3!     *      ! 

   

1         A     *  .  

 . 

 &  I        /. 1 -6;;0$ .  

2 G  J     /. 12;60$ .  

4  GP) J  /. 1-0      >?   21% 

     ,     1  :5=5B5:1 >? G$F )$&  #)$&  #)1,   

      *  1( &  =/0B;:51 >6?   (($4  &DJ          

   1:;=6:B!:1 >? 8  %%1 4          

    

    1 G &    G, =/60B:--;1 >-? &  %$ #  "F$ J '$ 

1  

  *             

  

1 (  

        =   1 >?) , GF14 * A      151I  BGJ  =1165-1 >;?E ,  21& J   1) 2 ) $&  $( 1 >5?D  JF14 * A      B    

14  $.+B8  GJ*1 1=:$5!61 >:?D1(1( H$121

$.1J12 

$

1J 

J            ,     11 

 B        !  

   >?131&1D , J  Q $#   $:5