BrainMap

Mr. Mihai-Cosmin Pascariu

Dr.ing.

Researcher - INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU ELECTROCHIMIE SI MATERIE CONDENSATA - INCEMC TIMISOARA

Other affiliations

Assistant Professor - UNIVERSITATEA DE VEST "VASILE GOLDIŞ" ARAD (Romania)

Researcher | Teaching staff

Curriculum Vitae (16/10/2019)

Expertise & keywords

Mobile pilot plant for wastewater treatment using solar energy Call name: Joint Applied Research Projects - PCCA 2013 - call
PN-II-PT-PCCA-2013-4-1708 2014 - 2017

Role in this project:

Coordinating institution: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU ELECTROCHIMIE SI MATERIE CONDENSATA - INCEMC TIMISOARA

Project partners: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU ELECTROCHIMIE SI MATERIE CONDENSATA - INCEMC TIMISOARA (RO); UNIVERSITATEA POLITEHNICA TIMIŞOARA (RO); INSTITUTUL DE CHIMIE (RO); BEESPEED AUTOMATIZARI SRL (RO); CLUSTERUL DE ENERGII SUSTENABILE DIN ROMANIA ROSENC/ROMANIAN SUSTAINABLE ENERGY CLUSTER ROSENC - ASOCIATIE (RO)

Affiliation: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU ELECTROCHIMIE SI MATERIE CONDENSATA - INCEMC TIMISOARA (RO)

Project website: http://solwatclean.incemc.ro/

Abstract:

Project Title: Mobile pilot plant for wastewater treatment using solar energy - SOLWATCLEAN

General objective: design and construction of a Modular Mobile Pilot Plant (MMPP) for wastewater treatment using solar energy.

Specific objectives:

1. Improving energy efficiency of wastewater treatment by electrocoagulation (EC) process, with the recovery of hydrogen (H2) produced at the cathode and its valorization (electricity production with H2-air fuel cell).

2. H2 production by photocatalysis using solar energy. Resulted H2 will be used in the fuel cell for electricity generation.

3. Generation of electricity directly from sunlight (photovoltaic).

4. Electricity storage (obtained from H2 in fuel cell and photovoltaics) and its use in EC process.

5. Modular design and construction on a mobile platform of MMPP which will include:

• module for EC treatment with hydrogen recovery;

• module for H2 production by photocatalysis using sunlight;

• module for H2 (resulted from electrocoagulation and photocatalysis) valorization into electricity (fuel cell)

• module for direct electricity production by solar energy (photovoltaic)

• module for power supply and storage,

• mechanical and electrical connections between modules, automation.

Implementation: Consortium of five institutions (three research organizations, one SME with R&D activities and one NGO).

The project final products will be:

1. MMPP for water purification using EC process with recovery of hydrogen produced in the process and use of sunlight to increase efficiency.

2. Prototype system of capture and use of sunlight for:

a) hydrogen production by photocatalysis;

b) electrical energy production (photovoltaic);

3. Innovative service for determining the optimal parameters of wastewater treatment by EC technique using the MMPP, transportable to the beneficiary site.

Measurable criteria for success:

• Decrease by more than 85% of suspended solids and turbidity in wastewater by using EC process for treatment.

• Recovery of more than 90% of the H2 produced at the cathode of EC cell and its oxidation of in a fuel cell with getting a part of electricity needed to run the EC cell.

• Publication of at least 2 scientific papers in ISI journals with a cumulative impact factor of minimum 2, the submission of at least one patent application and development of at least one dissertation that use part of the project research results.

Sustenability of the proposed technology:

- The project promotes clean energy technologies, environmental protection measures and reduction of greenhouse gases emissions.

- The processes proposed to be realized in the project are sustainable (using solar energy, the recovery and use of H2 wastes.

Expressed interests for application of project results on the market:

1. The company co-financing the project intends to develop this type of facility for the market after IPMM functional model constructed in the project will be effective.

2. There is interest in the SOLWATCLEAN project results from Romanian textile industry potential beneficiaries (3 letters of intent attached to "other documents").

Functionalized polysaccharides for applications in biomedicine and biotechnology Call name: Joint Applied Research Projects - PCCA-2011 call, Type 1
PN-II-PT-PCCA-2011-3.1-0187 2012 - 2016

Role in this project:

Coordinating institution: UNIVERSITATEA DE MEDICINA SI FARMACIE " VICTOR BABEŞ " TIMISOARA

Project partners: UNIVERSITATEA DE MEDICINA SI FARMACIE " VICTOR BABEŞ " TIMISOARA (RO); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU ELECTROCHIMIE SI MATERIE CONDENSATA - INCEMC TIMISOARA (RO)

Affiliation: UNIVERSITATEA DE MEDICINA SI FARMACIE " VICTOR BABEŞ " TIMISOARA (RO)

Project website: http://www.umft.ro/pniiptpcca2011310187_308

Abstract:

Various natural polysaccharides are readily available for chemical modification or as building blocks for the synthesis of hybrid materials. However, because of the inherent difficulties in functionalization at preparative scale and subsequent analysis by reliable bioanalytical methods of long-chain polysaccharides, the research in the field is presently restricted to a few protocols of limited efficiency and inapplicable to complex mixtures of high heterogeneity in their polymerization degree and high molecular weight glycan chains. In this context, the objective of the BIOPOLIZAH project is to develop original and highly efficient strategies to allow for the first time functionalization at preparative scale of long chain, polydisperse mixtures of polysaccharides with functional groups such as aromatic amines, oligopeptides and chromophores, followed by detailed analysis of the coupling products using the most advanced glycoscreening and sequencing methods based on high performance mass spectrometry (MS), microfluidics technology and robotics for sample infusion into MS. The final goal is to create a platform for routine production of functionalized polysaccharides and their analysis by mass spectrometry. By developing highly sensitive, accurate microfluidic-based MS methods complemented by bioinformatics tools for data interpretation, sorting and validation the multi-disciplinary BIOPOLIZAH project will be able to screen and identify in a high-throughput regime long chain functionalized glycans. For this reason, the research within this project will lead to the development of novel concepts in carbohydrate synthesis/functionalization and their structural analysis which will open new directions in the fields of polymer synthesis, glycomics and glycoconjugates, biological mass spectrometry and bioinformatics.

FILE DESCRIPTION	DOCUMENT
List of research grants as project coordinator or partner team leader
Significant R&D projects for enterprises, as project manager
R&D activities in enterprises
Peer-review activity for international programs/projects