Maximum Power and Efficiency

Photovoltaics for Open Spaces

Utilize the potential of your land and transform it into a source of clean energy.

sync

Page Content

keyboard_double_arrow_down
Our Offer
keyboard_double_arrow_down
Grants & Subsidies
keyboard_double_arrow_down
Types of Photovoltaics
keyboard_double_arrow_down
PV Project
keyboard_double_arrow_down
PV Yields
keyboard_double_arrow_down
Selected References

Why Invest in Ground-Mount Solar Power Plants

Ground-mount photovoltaic power plant installations bring a range of key benefits.

Examples of Successful Implementations

PV in Rakovník

PV Agro Starý Poddvorov

PV Napajedla

PV 2.97 MWp in Moldovenesti, Romania

chevron_left
chevron_right

What We Do

Types of Photovoltaics for Open Spaces

We offer a wide range of PV solutions tailored to specific conditions and requirements.

Your Ground-Mount Photovoltaic Power Plant Project Under Control (from A to Z)

We approach each PV implementation individually using our know-how and technical resources.

Ground-Mount Photovoltaic Power Plant Implementation Process

We implement each PV project on open space systematically step by step to ensure smooth progress and optimal results.

Site Analysis

We analyze the site including orientation, terrain slope, and potential shading for maximum energy yield.

We also examine soil conditions, snow and wind loads in the given area.

Optimal Solution Design

Using PVGIS, we design a system with slope and orientation that maximizes electricity production with 95% prediction accuracy.

We optimize panel layout for efficient space utilization and easy maintenance. In many of our implementations, real results even exceed original calculations.

trending_flat
PV Economics

Engineering Documentation

We prepare comprehensive documentation including electrical diagram, structural solution, and grid connection.

For ground-mount installations, quality project design including drainage and access roads solution is essential.

Documentation serves as basis for building authority, distribution company, and grant programs.

Grant Securing

We provide grant management specific to ground-mount installations and large-scale projects.

We prepare energy assessment, feasibility study, and ensure grant monitoring throughout the project sustainability period.

trending_flat
Grants & Subsidies

Building Permit Processing

We process all necessary permits including land use change, statements from affected authorities, and distribution network connection.

For ground-mount power plants, the permitting process is more complex and can take 12-18 months.

We'll also secure Czech Energy Regulatory Office license, which is necessary for larger installations.

Professional Installation

We install our own mounting systems, dimensioned for wind and snow loads of the given location.

For ground-mount installations, we ensure construction site security, access roads, fencing, and foundation work.

trending_flat
About Our Mounting Systems Manufacturing

Distribution Network Connection

For ground-mount installations, we provide transformer station and complete grid connection including communication with network operator.

We perform necessary inspections, test operation, and electrical system protection settings.

After commissioning, we ensure occupancy approval and handover of complete documentation.

trending_flat
PV Grid Connection

Service, Monitoring, and Long-term Support

We connect the power plant to a monitoring center with continuous monitoring, ensuring immediate detection and resolution of potential problems.

For ground-mount installations, we regularly check mounting system condition, vegetation, and site security.

trending_flat
PV Monitoring
trending_flat
PV Implementation Step by Step

Monthly Photovoltaic Yield

Example yield of a ~1 MWp solar power plant by individual months

The figures shown represent a modelled monthly output of a photovoltaic power plant with an installed capacity of approximately 1 MWp, typical of ground-mounted installations on open land.

The annual total comes to approximately 970 MWh.

Production follows the standard seasonal pattern — the highest output occurs between May and August, while winter months see significantly lower generation. The share of on-site consumption covered by solar production varies accordingly throughout the year.

The column labelled "Output" shows the amount of electricity generated (energy) in kWh. The column labelled "Total yield" expresses the financial benefit as the combined value of electricity consumed directly at the point of generation and revenue from surplus electricity sold to the grid.

Month
Energy production
On-site savings
 Sold excess energy
Total revenue
Leden
30080
kWh
108290
CZK
6020
CZK
114310
CZK
Únor
46050
kWh
165780
CZK
9210
CZK
174990
CZK
Březen
80670
kWh
290410
CZK
16130
CZK
306540
CZK
Duben
105550
kWh
379980
CZK
21110
CZK
401090
CZK
Květen
129080
kWh
464690
CZK
25820
CZK
490510
CZK
Červen
121010
kWh
435640
CZK
24200
CZK
459840
CZK
Červenec
134460
kWh
484060
CZK
26890
CZK
510950
CZK
Srpen
119670
kWh
430810
CZK
23930
CZK
454740
CZK
Září
84040
kWh
302540
CZK
16810
CZK
319350
CZK
Říjen
69240
kWh
249260
CZK
13850
CZK
263110
CZK
Listopad
28980
kWh
104330
CZK
5800
CZK
110130
CZK
Prosinec
21180
kWh
76250
CZK
4240
CZK
80490
CZK
Total
970 000 kWh
349 200 CZK
19 400 CZK
368 600 CZK

Resulting annual financial benefit

Savings from self-consumption of generated electricity: 

970 × 0.8 = 776 MWh × CZK 4,500 = CZK 3,492,000

Revenue from surplus electricity sold to the grid: 

70 × 0.2 = 194 MWh × CZK 1,000 = CZK 194,000

Total annual yield from the solar plant: approx. CZK 3,686,000 per year

Actual results may vary depending on the current electricity price, the share of self-consumption, and feed-in tariff conditions.

How to read the seasonal pattern

Output is highest in summer, when the solar plant covers the largest share of your energy consumption; in winter, generation is lower. Ground-mounted installations on open land allow for optimal panel tilt and orientation, which typically results in a higher specific yield compared to rooftop systems. If your consumption profile peaks in summer — for example due to irrigation, cooling, agricultural operations or fleet charging — the real-world share of self-consumed energy tends to be even higher.

Better utilisation through storage

A battery storage system increases the share of electricity consumed on-site, typically from ~80% to 90–95%. This means fewer low-value exports to the grid and greater savings from your own energy — including in the evening and overnight.

kWh

Graph of projected electricity production throughout the year.

14000

12000

10000

8000

6000

4000

2000

0

80830
Roční průměr
30080
Leden
46050
Únor
80670
Březen
105550
Duben
129080
Květen
121010
Červen
134460
Červenec
119670
Srpen
84040
Září
69240
Říjen
28980
Listopad
21180
Prosinec

Our Experience

Successful PV Projects on Open Spaces

We have extensive experience implementing ground-mount photovoltaic power plants in Central Europe, including projects in Czech Republic, Slovakia, Poland, and Romania.

Articles

More interesting topics

Solar power plant insights: options, tips, news and our procedures.

Page Content

keyboard_double_arrow_up
Our Offer
keyboard_double_arrow_up
Grants & Subsidies
keyboard_double_arrow_up
Types of Photovoltaics
keyboard_double_arrow_up
PV Project
keyboard_double_arrow_up
PV Yields
keyboard_double_arrow_up
Selected References

Alternative Energy Systems a.s.
Hlinky 45/114, 603 00 Brno - Pisárky
REGISTRATION NUMBER: 04381866, TAX NUMBER: CZ04381866

Contacts

Photovoltaics

All about photovoltaicsIndustrial hallsOpen spaceMunicipality

Grants & Subsidies

Current subsidy programs

Follow us on social networks

Linkedin
Facebook

Interesting topics

Accumulation of photovoltaic energyEnergy sharingTurnkey Public Lighting ModernizationImplementation of PV step by stepAll articles

© Aleners Energy systems a.s. 2025/content & web design David Navrátil, Younick