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PROJECT TITLE
Experimental and theoretic research works to perform a model of Francis turbine in the field of specific speeds ns=350-400 r.p.m. Intended for efficient revaluation of the hydro energetic potential in different arrangements with application to CINDERE HEPP.
Acronym
CTEMF
Project number:
INOVARE - 1047
Contract number:
INOVARE- 59/25.09.2007
Project in progress: Within the Innovation Program - Module 1 - Product - Systems Development, in the National Plan for Research, Development and Innovation II, program approved by the Government of Romania at the initiative of the Education, Research and Youth Ministry. The INNOVATION program has as general objective the increase of innovation capacity, of technological development and assimilation in production of research results, in order to strengthen the competitiveness of national economy and to increase the quality of life. |
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Research Project SCAPTR enclosed at:
Project category:
PDP - projects of innovation and technological transfer for products
Project type:
CDI - oriented
Data regarding the Research Project
Date of starting the project:
25 September 2007
Date of completing the project:
02 September 2009
Progress period of the project:
24 months
Contracting authority:
MANAGING AGENCY OF SCIENTIFIC RESEARCH, INNOVATION AND TECHNO-LOGICAL TRANSFER - POLYTECHNIC
PURPOSE
The project is intended to complete the patrimony of performing models, by adding a new model of Francis hydraulic turbine calculated in the field of speeds ns 350...400 rpm., with the highest possible energetic-cavitation performances.
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OBJECTIVES
1. Calculation of high speed Francis turbine model for specific speed of ns [CP]=378 able to process a double unitary flow, Q11 = 0,7÷1,8 m3/s, at a double unitary speed, n11 = 65÷120 r.p.m.;
2. Obtaining a methodology to calculate the high speed Francis turbines;
3. Analyzing the three-dimensional flow in Francis turbine geometry (from the inlet into the spiral case up to the inlet into the draft tube) and optimizing the hydraulic line;
4. Designing and performing of experimental model;
5. Complex measurements on the model to determine the energetic-cavitation performances and the conditions in the prototype turbines in order to assess the technical-economical requirements for implementing at industrial level.
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