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R E G I O N A L R E N E WA B L E E N E R G Y P O T E N T I A L I N H U N G A RY. C A S E O F K O P PA N Y VA L L E Y.

A . T I T O V; R . B A R N A ; Z S . K Ö M Ü V E S ; S Z . B E R K E , K . T Ó T H ; B . N A G Y; B . H O R VÁT H N É K .

Hungarian Regional Science Association 15th Annual Meeting The Dualities of Regional Science and Studies

Mosonmagyaróvár, 19–20 October 2017 Széchenyi István University Faculty of Agricultural and Food Sciences

C O N T E N T

• RuRes project. Aims of the research.

• Regional solar energy potential

• Regional biomass energy potential

• RES public acceptance survey

• Conclusions

R E N E WA B L E E N E R G Y S O U R C E S A N D E N E R G Y E F F I C I E N C Y I N T H E F U N C T I O N O F R U R A L D E V E L O P M E N T

• I N V E S T I G AT I O N O F T H E S O L A R , T H E W I N D A N D T H E B I O M A S S P O T E N T I A L O F E L I G I B L E S E T T L E M E N T S

• S U R V E Y O F T H E AT T I T U D E , T H E S O C I O - C U LT U R A L C I R C U M S TA N C E S A N D E N V I R O N M E N TA L C O N S C I O U S N E S S O F T H E C I T I Z E N S O F R U R A L A R E A S R E G A R D I N G R E S A N D E E

R U R E S P R O J E C T. A I M S O F T H E R E S E A R C H .

R E S E A R C H A R E A

Szombathely

Szo lnok

Kaposvár

Pécs

Kecskemét

Székesfehérvár

Győr

Nyíregyháza

Szeged

Debrecen

Miskolc

Tatabán ya

Béké scsa ba

Veszp rém

Zalaeg erszeg

Budapest

22°0'0"E20°0'0"E18°0'0"E

48°0'0"N

46°0'0"N

JointResearch Centre

Authors:

HUNGARY / MAGYARORSZÁG

0 50 10025Km

[kWh/kWpeak]

Yearly sum of solar electricity generated by 1kWp

system with performance ratio 0.75

Pro jection:Source of ancillary data:

Czech Republic

Croatia

Slovakia

Romania

975 1050 12001125

Austria

Slovenia

Serbia

Global irradiation and solar electricity potentialOptimally-inclined photovoltaic modules

S O L A R E N E R G Y P O T E N T I A L I N

H U N G A R Y

The average amount of the inland solar energy potential is

1000-1150 kw/h

R E G I O N A L S O L A R E N E R G Y P O T E N T I A L

K O P PA N Y VA L L E Y

Methodology based on PVGIS photovoltaic software

R E G I O N A L S O L A R E N E R G Y P O T E N T I A L

K O P PA N Y VA L L E Y

Crystalline silicon technology

Table 1

Provided inputs:

Location [Lat/Lon]: 46.602, 18.049

Horizon: Calculated

Database used: PVGIS-CMSAF

PV technology: Crystalline silicon

PV installed [kWp]: 1

System loss [%]: 14

Simulation outputs:

Slope angle [°]: 35 (opt)

Azimuth angle [°]: -7 (opt)

Yearly PV energy production [kWh]: 1140

Yearly in-plane irradiation [kWh/m2]: 1490

Year to year variability [kWh]: 61.30

R E G I O N A L S O L A R E N E R G Y P O T E N T I A L

K O P PA N Y VA L L E Y

Cadmium telluride technology

Table 1

Provided inputs:

Location [Lat/Lon]: 46.602, 18.049

Horizon: Calculated

Database used: PVGIS-CMSAF

PV technology: CdTE

PV installed [kWp]: 1

System loss [%]: 14

Simulation outputs:

Slope angle [°]: 35 (opt)

Azimuth angle [°]: -7 (opt)

Yearly PV energy production [kWh]: 1180

Yearly in-plane irradiation [kWh/m2]: 1490

Year to year variability [kWh]: 65.70

R E G I O N A L S O L A R E N E R G Y P O T E N T I A L

K O P PA N Y VA L L E Y

Regional solar energy potential based on PVGIS 5 might be improved through:

• Usage of different solar radiation database (PVGIS-CMSAF, PVGIS-SARAH, PVGIS-ERA5, PVGIS-COSMO);

• Different PV cells technology (Crystalline silicon, CdTE, CIS);

• Adding tracking options.

R E G I O N A L S O L A R E N E R G Y P O T E N T I A L

K O P PA N Y VA L L E YCurrent situation in the research:

PVGIS software allows 90m resolution by the solar potential map; -          horizon height is strictly built on the landscape shape;   Improvement in the project:

6-10m resolution of the map: detailed horizon file to be uploaded to the software’s simulation model; -          incorporating the shadowing effect of buildings and trees... -          plus identification of ideal surfaces (size, slope, N-S exposure);   Method:

-          field research with a manual device for measuring the horizon height at a certain place; -          measuring points will be defined as grids, supplemented with GPS information.

R E G I O N A L S O L A R E N E R G Y P O T E N T I A L

K O P PA N Y VA L L E YField experiment

B I O M A S S E N E R G Y P O T E N T I A L Biomass potentials form different

point of views

Source: Schubert et al. 2012.

R E G I O N A L B I O M A S S E N E R G Y P O T E N T I A L

K O P PA N Y VA L L E Y

Methodology based on MePar-Agricultural Parcel Identification

System

MePar is also applicable for the solar installations on the buildings

R E G I O N A L S O L A R E N E R G Y P O T E N T I A L

K O P PA N Y VA L L E Y

R E G I O N A L B I O M A S S E N E R G Y P O T E N T I A L

K O P PA N Y VA L L E Y

The biomass-based energy data are going to be collected by the following sources:

• MePar system;

• Local agricultural statistics;

• Waste management agency’s data;

• Questionnaires for the local residents.

R E S P U B L I C A C C E P TA N C E S U R V E Y

K O P PA N Y VA L L E Y

The questionnaire is focused on:

• General knowledge and awareness about RES (types

of RES, information sources, reasons to use, etc.);

• Particular emphasis on biomass for energy purposes

(domestically used amount of biomass, willingness to

be involved into related community activities,

influence on the local economy, etc. ).

300 Samples, 10 settlements, starting at

April, 2018

C O N C L U S I O N S

• Koppany valley is the target research area for the RuRes project;

• Estimated regional solar energy potential in Koppany valley is 1180 kWh that is a bit higher than Hungarian average;

• RES public acceptance survey will be conducted;

• Regional solar and biomass energy potential maps will be created based on collected data;

• Approbated methodology will be provided for other regions.

T H A N K Y O U F O R AT T E N T I O N

Corresponding author: Alexander Titov alexander.titov62@gmail.com

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