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8/2/2019 on System With Stirling Engine (mCHP-S)
1/17
Energy, cogeneration, Stirling engine
1mCHPS
UDJGalati, Romania
8/2/2019 on System With Stirling Engine (mCHP-S)
2/17
todays context abatement of fuel resources (oil crisis) and of
greenhouse effect
trying to developnew alternative solution for obtaining
electricity (regenerating energy sources) and
for streamlining technologies used in fuel
consumption
the DER- Distributed/ Decentralized Energy
Resources concept by decentralizing the
production of thermal and electrical energy
Important concept
2mCHPS
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
3/17
(micro Cogeneration Heat and Power with Stirling engine)
System is composed ofa heatgenerator-Stirling motor-electric
generator-storage battery-static
inverterand allows that a part of heat
from burned gases and a part of heataccumulated in heat storage battery
to be transformed in electricity
3mCHPS
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
4/17
the integration of Stirling engine(that has the advantage of external burn ofany type of fuel wood, natural gases, LPG, biomass, biogas, waste, etc) with an electric generator(permanent magnets) and
interfacing with an electronic module that has a programmed logical (IT)for monitoring, protection and command (MPCS). using a static inverter dc-ac is performed the conformation of parametersaccording to clients demands. a system of electrical storage batteries allows accumulation of energy fromburning systems operational peak and assures consumers continuity inelectrical supply.
employment of Stirling motor correlated with use of performance materialsin heat transfer and accumulation allows the expansion of electricity productionand when there is no combustion process
Stirling engine is capable of producing mechanical work based on heatand temperature difference burned gases/ ambient area that are thentransformed in electricity with the help of an electrical generator,
4mCHPS
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
5/17
a) study different ways of completing the mCHP-S system;
b) behavior, study, moderating and simulation for different materials that
by optimizing their properties determine the conversions efficiency
augmentation from fuels energy to electrical and thermal energy;c) achieving a mCHP-S cogeneration system (heat and electricity);
d) experimental characterisations of system, determining a complex
quality criteria for the system and the optimizing it;
e) establish a concept and development methodology for a mCHP-Scogeneration system.
5mCHPS
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
6/17mCHPS 6
General objective 1 (GO1): proving the positive impact of introducing cogeneration in mCHP-S systems based on
Stirling motors, designed heat and energy supply of residential consumers isolated and/or no electrified, where the proper
comfort is assured.
General objective 2 (GO2): use of inferior fuels (wood, coal, biomass, wastes) to obtain heat, hot water and electricity in
residential area.
General objective 2 (GO3): use of systems based on programmed logical equipment in adjusting and optimizing
energetic flows.
Projects specific objectives (SO):
Specific objective 1(SO1): conceptual analysis of mCHP-S systems elements including measuring, command protection
and monitoring systems.
Specific objective 2 (SO2): analyzing and developing models of cogeneration systems using Stirling motor (mCHP-S).
Specific objective 3 (SO3): determining function characteristics for mCHP-S systems elements and establish a complex
criteria relation to evaluate mCHP-S systems according to its energetic efficiency, energetic quality and thermal comfortdegree.
Specific objective 4 (SO4): establish own mathematical principles for mCHP-S systems elements and simulating their
function regime
Specific objective 5 (SO5): establish global mathematical models for mCHP-S systems in order to achieve diversity, to
compare results and simulate.
Specific objective 6 (SO5): comparative study of costs for thermal and electrical independent supply systems and for
cogeneration system like mCHP-S and its constitutive elements.Specific objective 7 (SO7): elaborate a constructive development procedure for a cogeneration system like mCHP-S, used
as experimental model, to validate performed research through experiments and testing them in laboratory.
Specific objective 8 (SO8): elaborate documentation of cogeneration mCHP-S systems for small power (3kWe and
24kWt).
Specific objective 9 (SO9): managerial objectives: partners coordination, internal coordination, papers deploying
diagram, critical path diagram, papers coordination, reports elaboration, intern rubber stamp, equipment acquisition.Specific objective 10 (SO10): Environmental impact
Specific objective 11(SO11): technological transfer of research result and results dissemination.
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
7/17mCHPS 7
The main purpose:
development and accumulation of technological knowledge regarding mCHP-Ssystems of generating energy as durable alternative, with primary accent on primary
energetic resources in quality and supply safety conditions and with keeping the principle
of durable development.
The proposal also contributes to the development of theoretical knowledge due to itscomplex and multidisciplinary theme, due to the performance of an experimental model
and the necessity of theoretic fundaments of interface solutions for mCHP-S systems
independent functionality and efficient usage of sub-systems by accomplishing process
and interaction models. Also, considering heterogeneous criteria and optimization
(electrical efficiency, thermal comfort degree, etc.), quality (quality of suppliedelectricity, functional quality criteria) and durability (specific maintenance, use safety,
lifetime) complexes, it contributes to the augmentation of analysis capacity and ability to
offer viable solutions to nowadays complex problems.).
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
8/17
in mountain areas mCHP-S system can be adapted to classical or modern heating installation thatis based on inferior or regenerable fuels.
Thermal comfort index in a residential building becomes critical in noelectrified and/or isolated areas, where substantial investments are made in
acquisition of separate units: electricity supply unit (electrogen unit) and heating
unit based on liquefied gases (LPG).
The project proposes the capitalization of CHP systems general advantages
augmentation of fuel usage efficiency,
low emission of CO2, consumers energetic independence with the advantages of using Stirling motors
use of inferior and regenerable fuels
8mCHPS
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
9/179mCHPS
is developed on three main directions
gathering knowledge (combustion processes, choosing performing
materials, elaborating molding and specific stimulation methods,
optimizing criteria)
-applicable research (achieving a new, innovative product)
-technological transfer (transfer of obtained results to economic agents,small and middle enterprises in order to attract them in new research-
development projects
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
10/17
8/2/2019 on System With Stirling Engine (mCHP-S)
11/17mCHPS 11
In conformity with C.E directive no. 8/2004 of European Council Parliamentregarding cogeneration promotion, combined production units with unite
electrical supply
from few kW to 50 kW are micro-CHP, between 50 and 1000 KW are of average power and
between 1000kW and maximum 10 MW are of high power.
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
12/17
12mCHPS
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
13/17
mCHPS 13
The project takes into consideration the usage of inferior fuels in generating heat and
electricity directly at consumers area, using a system that contains, heat generator-
Stirling motor-electrical generator-static inverter and a command, monitoring and
protection system in order to compensate fuels quality variability.
The main disadvantage of using other types of thermal motors (first step of CHP
conversion) in residential heat supply systems is the need of high quality fuels
(mineral oil, natural gases, liquefied gases).The augmentation of superior fuels need also increased their prices and costs in
producing thermal energy.
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
14/17
mCHPS 14
an immediate effect is represented by the positive effect on the market as an alternative for electrical autonomy, forreducing cost of isolated consumers by capitalizing the energetic potential of inferior fuels (that are anyway used in
heating).
The hybrid system is designed to assure energetic autonomy can be implemented, especially, in isolated areas or withlow regional development. Using this energetic system, the user does not only become consumer but also energy producer.
Is estimated that the main social effect will be augmentation of life conditions to European standards, reduction of
differences between rural and urban residential areas and mainly the presentation of a solution for the resolution of comfortproblems for consumers in no electrified and/or isolated areas that have access to inferior fuels.
An efficient and viable mCHP-S system that incorporates new performing materials and where conversions aremade at maximum efficiency can increase its interest and applicability area.
mCHP-S systems important elements demand new and innovatory ideas in order to elaborate competitive and
attractive equipments for a technological transfer.
T he key of the proposed project is the integration of high technology (IT) at MPCS level, meaning developmentsystems with microprocessors, specialized software to involve young specialist that bring performance to this domain.
Not to neglect is also the special domain ofmaterials used in technologies to elaborate mCHP-S systems element forwhich the conversion efficiency becomes the main choice and development criteria.
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
15/17
mCHPS 15
Environmental effects are important from the following point of view:
in search of superior fuels (stable, expensive, efficient), part of inferior fuels are rarely used and in this way become pollutant for environment
(wood, biomass and biogas wastes).
Their transformation in electrical and thermal energy in CHP systems with high efficiency determines thedirect abatement of emission with greenhouse effect (CO
2) and possibility to eliminate some wasted through
burning.
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
16/17
mCHPS 16
Challenge young specialist in R&D activities.
Regarding partners involve, this project achievement is an opportunity to attract young MA students andgraduants in combining theoretical and practical knowledge
Partners part of this project, by promoting in personnel list young MA students and graduants interested inregenerable energy domain, offer them possibilities to increase their knowledge and competence in trying, in the
future, to create complex projects. Because of this in this project are involved MA students and graduants.
All involved in this project will have new opportunities to develop interdisciplinary research at national andinternational level, technological transfer, experience exchange and cooperation through European partnership for
developing research-development and demonstrative projects
UDJGalati, RomaniaUPBucuresti
ICPE SA Bucuresti
8/2/2019 on System With Stirling Engine (mCHP-S)
17/17