Difference between revisions of "Team:Grenoble-Alpes/Fluid Transfer"

Revision as of 10:03, 23 October 2017

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Engineering

Fluid Transfer

It was at Amont à Aussoi that we had met that night to sleep by the fireside.
Credits: Estelle Vincent

As the kit performs a biological analysis, at some point, fluid transfer will be needed to move a specific reagent to another compartment. That is why we designed a system that delivers a precise quantity of reagents at a given time. While observing syringe pumps in a lab specialised in microfluidics, we had an idea: recreating the principle used in these syringe pumps, in a 3D printed structure, controlled by an Arduino Card. Reaching the same accuracy than the existing devices is essential even though it might be challenging.

Building the 3D structure

Control the step motor

Back to our general results

@@ Line 35: / Line 35: @@
          }
+/****************** ANIMATION **************/
 .fond_motor {
                 width: 100%;
@@ Line 487: / Line 487: @@
      }
 }
+/****************OUTLINE BANNER *****************/
+          .banner_background {
+            background-color:#c03b2b;
+            width:100%;
+            text-align:center;
+            padding-top:1%;
+            padding-bottom: 17%;
+            position:relative;
+          }
+          .bckg_logo_building {
+            width:45%;
+            float:left;
+            display:inline;
+            padding:0% 3%;
+            z-index:2;
+            position: relative;
+          }
+         .bckg_logo_control {
+            width:45%;
+            float:left;
+            display:inline;
+            padding:0% 3%;
+            z-index:2;
+            position:relative;
+          }
+        .logo_building {
+          width:80%;
+        }
+        .logo_control {
+          width:80%;
+        }
 /**************** RESULTS BANNER *****************/
@@ Line 511: / Line 548: @@
                    </span>
               </div>
-<p> Test </p>
+<!-- ************************** INTRO ************************** -->
+           <div style="padding-top:1.15%;">
+                 <h5>As the kit performs a biological analysis, at some point, fluid transfer will be needed to move a specific reagent to another compartment. That is why we designed a system that delivers a precise quantity of reagents at a given time. While observing syringe pumps in a lab specialised in microfluidics, we had an idea: recreating the principle used in these syringe pumps, in a 3D printed structure, controlled by an Arduino Card. Reaching the same accuracy than the existing devices is essential even though it might be challenging.
+ </h5>
+          </div>
+<div style="text-align:center; padding-bottom:5%;">
+<img style="width:40%;" src="https://static.igem.org/mediawiki/2017/d/d7/Igemgrenoble_detection_schemaglobal.png">
+          </div>
+<!-- ************************** OUTLINE BANNER ************************** -->
+ <div class="banner_background">
+            <div class="bckg_logo_building">
+                   <a href=#ancre_building"><img class="logo_building" src="https://static.igem.org/mediawiki/2017/4/43/Igemgrenoble_fluid_building.png"></a>
+            </div>
+            <div class="bckg_logo_control">
+                    <a href="#ancre_control"><img  class="logo_control" src="https://static.igem.org/mediawiki/2017/6/66/Igemgrenoble_fluid_control.png"> </a>
+            </div>
+   </div>
+<!-- ************************** TEXT************************** -->
+<h2 id="ancre_building" style="padding-top:2%; padding-bottom:1%; color:#c03b2b; font-size:2vw;"> Building the 3D structure </h2>
+<h2 id="ancre_control" style="padding-top:2%; padding-bottom:1%; color:#c03b2b; font-size:2vw;"> Control the step motor</h2>
+<!-- ************************** ANIMATION ************************** -->
          <div class="stator_motor">
@@ Line 526: / Line 592: @@
          </div>
-<p> Test </p>