PLAN DE REALIZARE A PROIECTULUI (2014-2016)

Denumirea proiectului: "Calorimetrie fotopiroelectrica de inalta acuratete pentru nanofluide magnetice"

- Structură cadru-

            An

 

Etapa

 

Obiective

 

Activităţi

Rezultate livrate pe etapă

 

General Objective: PPE study of thermal properties of magnetic nanofluids.

2014

Unică

1. Synthesis of magnetic nanofluids with different structural parameters


1.1. Synthesis of magnetic nanofluids with different, controlled, structural parameters.

Scientific report

2. Behaviour of the static and dynamic thermal parameters of magnetic nanofluids as a function of carrier liquid and type of surfactant


2.1. Preliminary PPE measurements on liquids with well known thermal properties.

Scientific report


2.2. PPE measurements of thermal diffusivity and effusivity of magnetic nanofluids with different carrier liquids and type of surfactant.

2.3. Data analysis, correlation with physico-chemical processes.

3. Temperature dependence of the thermal parameters and detection of phase transitions, if existing.


3.1. PPE measurements of phase transitions, if existing.

Scientific report


3.2.  Data analysis.

4. Dissemination of the results


4.1. Results presented at national and international seminars and conferences

Minimum 2 communications


4.2. Results published in ISI journals

Minimum 2 papers


4.3. Web page.

Update web page.

5. Mobilities


5.1. Working stages

Activity report


5.2. Participation at int. conferences

            An

 

 

Etapa

 

Obiective

 

Activităţi

Rezultate livrate pe etapă

 

General Objective: PPE study of thermal properties of magnetic nanofluids.

 

 

   2015

  Unică

1. Behaviour of the static and dynamic thermal parameters of magnetic nanofluids as a function of type, size and conc. of nanoparticles.


1.1. Preliminary PPE measurements on liquids with well known thermal properties.

Scientific report


1.2. PPE measurements of thermal diffusivity and effusivity of magnetic nanofluids with different type, size and conc. of nanoparticles.


1.3. Data analysis, correlation with physico-chemical processes.

2. Complementary methods for magnetic nanofluid characterization.


2.1. Complementary measurements for magnetic nanofluids investigations

Scientific report


2.2. Investigation of the morphology of the structures and  nanoparticles’ size distribution.


2.3. Correlation with PT investigations

3. Dissemination of the results


3.1. Results presented at national and international seminars and conferences

Minimum 2 communications


3.2. Results published in ISI journals

Minimum 2 papers


3.3. Web page.

Update web page.

4. Mobilities


4.1. Working stages

Activity report


4.2. Participation at int. conferences