Difference between revisions of "Team:Valencia UPV/tzvetelina"

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             <p style="padding-bottom:0.4em; padding-left: 0.4em;">First of all, it is necessary to design a structure that confines all the elements necessary for the operation of the device inside it and also allows the creation of a sterile atmosphere to carry out the biological reactions.</p>
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             <p style="padding-bottom:0.4em; padding-left: 1em;">First of all, it is necessary to design a structure that confines all the elements necessary for the operation of the device inside it and also allows the creation of a sterile atmosphere to carry out the biological reactions.</p>
  
             <p style="padding-bottom:0.4em; padding-left: 0.4em;"> In order to facilitate its transport, aluminum has been chosen for the frame, which in addition to its low weight, has other great qualities such as great resistance to corrosion and low cost.</p>
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             <p style="padding-bottom:0.4em; padding-left: 1em;"> In order to facilitate its transport, aluminum has been chosen for the frame, which in addition to its low weight, has other great qualities such as great resistance to corrosion and low cost.</p>
  
             <p style="padding-bottom:0.4em; padding-left: 0.4em;"> It has been used 15x15x1mm square tube profiles joined by plastic corner connectors obtaining as a result a 415x360x280mm chassis. Thanks to the generated blueprints we have been able to contact a company specializing in cutting and handling aluminum that has provided us with all the parts as we required. As it was not possible for us to find plastic connectors that fit our needs, we have decided to design these parts ourselves and then print them on a 3D printer. </p>
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             <p style="padding-bottom:0.4em; padding-left: 1em;"> It has been used 15x15x1mm square tube profiles joined by plastic corner connectors obtaining as a result a 415x360x280mm chassis. Thanks to the generated blueprints we have been able to contact a company specializing in cutting and handling aluminum that has provided us with all the parts as we required. As it was not possible for us to find plastic connectors that fit our needs, we have decided to design these parts ourselves and then print them on a 3D printer. </p>
  
 
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               <p> To complete the structure, it is necessary to create walls that are attached to this frame and contribute to its stability.  We have opted for the use of methacrylate due to its attractive appearance, durability and scratch resistance. </p>
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               <p style="padding-bottom:0.4em; padding-left: 1em;"> To complete the structure, it is necessary to create walls that are attached to this frame and contribute to its stability.  We have opted for the use of methacrylate due to its attractive appearance, durability and scratch resistance. </p>
  
               <p> As well as the aluminum profiles, the blueprints created were used for ordering the custom-made parts to a company.</p>
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               <p style="padding-bottom:0.4em; padding-left: 1em;"> As well as the aluminum profiles, the blueprints created were used for ordering the custom-made parts to a company.</p>
 
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Revision as of 09:21, 4 September 2018

Stack Multipurpose HTML Template

HARDWARE

INTRODUCTION

To address the lack of accessibility to synthetic biology due to the high costs and the level of knowledge required among others, our team has designed Printeria, a fully-equipped bioengineering device capable of automating the process of printing genetic circuits in bacteria.

To ensure a functional, economical and easy-to-use design, collaboration between the hardware and the wet lab teams has been necessary throughout the development process. After several drafts we have achieved a unique design that can be easily transported and replicated at a cost not exceeding xxx € (xxx $). [and whose cost does not exceed xxx €]

Printeria is divided into three main parts dependent on each other:

  • Entry of consumables: components that allow the entry of consumables into the reaction zone.

  • Reaction zone: space where the process of printing genetic circuits in bacteria occurs thanks to digital microfluidic technology.

  • Measurement zone: the bacteria are kept in conditions that allow for growth and expression while OD and fluorescence measurements are taken.

Part Quantity Cost per unit Cost
Structure ---- ---- ----
Entry system ---- ---- ----
Reaction zone ---- ---- ----
Measurement zone ---- ---- ----
TOTAL ----
STRUCTURE
Frame

First of all, it is necessary to design a structure that confines all the elements necessary for the operation of the device inside it and also allows the creation of a sterile atmosphere to carry out the biological reactions.

In order to facilitate its transport, aluminum has been chosen for the frame, which in addition to its low weight, has other great qualities such as great resistance to corrosion and low cost.

It has been used 15x15x1mm square tube profiles joined by plastic corner connectors obtaining as a result a 415x360x280mm chassis. Thanks to the generated blueprints we have been able to contact a company specializing in cutting and handling aluminum that has provided us with all the parts as we required. As it was not possible for us to find plastic connectors that fit our needs, we have decided to design these parts ourselves and then print them on a 3D printer.

Aluminum frame
Methacrylate

To complete the structure, it is necessary to create walls that are attached to this frame and contribute to its stability. We have opted for the use of methacrylate due to its attractive appearance, durability and scratch resistance.

As well as the aluminum profiles, the blueprints created were used for ordering the custom-made parts to a company.

I am Director of the Department of Applied Mathematics.

I am professor at the School of Computer Science (Escuela Técnica Superior de Ingeniería Informática – ETSINF) of the Universitat Politècnica de València (UPV), where I have been teaching Algebra, Mathematical Analysis, Discrete Mathematics, and Graph Theory in the degrees of Computer Science and Data Science.

Printeria's image

I am member of the Instituto Universitario de Matemática Pura y Aplicada of the UPV. I am also interested in Biomedical Data Analysis, Graph Theory, Network Science, and in the applications of Mathematics to Computational, Systems and Synthetic Biology, and Communication Networks. I am the author of more than 50 research articles published in international research journals. In addition, I have stayed at the following universities for short periods: in Bowling Green (OH) and Kent (OH) (USA), Lecce (Italy), Prague (Czech Rep.) and Tübingen (Germany). Before being Director of the Department of Applied Mathematics, I held the position of Director of Academic Performance and Curricular Students Assessment Area of the Vice-rectorate of Students and Culture of the UPV. Previously I held these positions university: Deputy Dean of the ETSINF (formerly Faculty of Informatics) (2004-2009), and Secretary of the Commission of the Strategic Plan of the UPV for the period 2007-2014 (2005-2007).

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