Produkty
menu item
Prospect
Odhadnite solárny potenciál vašej lokality
menu item
Evaluate
Time Series a TMY dáta pre optimálny dizajn elektrárne
menu item
Monitor
Hodnotenie fotovoltického výstupu v reálnom čase
menu item
Forecast
Predpoveď výroby solárnej energie na až 14 dní
menu item
Analyst
Spravujte všetky solárne dáta na jednom mieste
menu item
Integrácie
Automatizujte dodávku Solargis dát
Príklady použitia
menu item
Výber lokality
Nájdite správnu lokalitu pre váš solárny projekt
menu item
Simulácia energetického výnosu
Analyzujte potenciálne zisky a riziká
menu item
Optimalizácia návrhu elektrárne
Nájdite optimálny dizajn pre vašu solárnu elektráreň
menu item
Skutočný výkon elektrárne
Poznajte skutočný výnos vašej elektrárne
menu item
Predpoveď výkonu
Predpovedajte výnos z vášho solárneho projektu
menu item
Overenie pozemných dát
Overte si kvalitu solárnych a meteo meraní
Hodnotenie solárneho zdroja a meteorologických dát
Detailné hodnotenie a validácia solárneho zdroja
Prispôsobenie modelov Solargis lokalite
Kombinácia satelitných dát s lokálnymi meraniami
Kontrola kvality solárnych a meteorologických meraní
Oprava chýb v dátach z pozemných meraní
GIS dáta na mieru
Solargis GIS dáta prispôsobené pre vaše aplikácie
Posúdenie energetického výnosu z fotovoltiky
Odhadnite neistotu vstupných dát
Hodnotenie výkonu fotovoltiky
Odhad energie pre refinancovanie alebo akvizíciu
Štúdia PV variability a optimalizácie skladovania energie
Pochopte variabilitu výstupu naprieč regiónmi
Regionálna štúdia potenciálu solárnej energie
Identifikácia lokalít pre solárne elektrárne
Naša expertíza
Ako naša technológia funguje?
Metodológia
Ako preklápame vedu do technológie?
API & integrácia
Ako integrovať Solargis dáta cez API
Príručky a dokumentácia
Release notes
Príbehy klientov
Blog
Ebooky
Webináre
Publikácie
Udalosti
Bezplatné mapy a GIS dáta
Mapy solárneho výkonu
O spoločnosti Solargis
Partneri
ISO certifikáty
Kariéra

Táto stránka zatiaľ nie je preložená do slovenčiny. Pozrieť si ju môžete v angličtine.

PRESS RELEASE

  • Below average solar irradiance between 2017-19 has a prolonged impact on solar project performance and returns - up to 10% in some regions
  • US solar sector missing opportunities to reduce financial risk by improving standard of data throughout development and operations

Toronto, 2 March – Widespread shortfalls in solar irradiance across North America between 2017 and 2019 have impacted the performance of US solar projects and portfolios, highlighting the need for investment in more robust resource data to reduce financial risks to the industry. This is according to long-term North American solar performance maps published today by Solargis, a data and software architect for bankable solar investments.

Solargis data reveal that across the Eastern regions of the USA, solar resource, represented by global horizontal irradiation (GHI), fell to levels up to 8% below the long-term average, with this trend particularly pronounced in 2018 and 2019. In the North East, irradiation was 10% lower than the average in 2018. Asset owners with portfolios in these regions are likely to have seen significant deviation in performance from the Annual Energy Production estimates (AEP) conducted when their projects were financed and built.

Maps North America 2017 2019

Marcel Suri, Managing Director, Solargis, said: “The output of solar projects is inextricably linked to meteorological trends – but the success of solar asset owners depends on how they react to and plan for this. On average, a 1% decrease in asset performance translates to lost revenue of $1000 per megawatt per year. It’s essential that US asset owners leverage data to optimise their projects and better account for resource risks.” 

Reducing risk is a key part of maximising profitability throughout the lifecycle of a solar project, from the earliest pre-feasibility studies to accurate forecasting of returns during long-term operations. As a 1% reduction in resource risk can increase return on equity by approximately 4% for the investor, it is crucial that US asset owners can demonstrate that these risks are appropriately managed.

Increasing availability of high-quality data in North America

The challenge of meeting investor expectations will increase in prominence for US portfolio owners as the ITC cliff nears and assets are financed, built and operated with exposure to merchant risk. Likewise, the complexity of projects continues to increase, as hybrid solar-plus-storage assets come online that require detailed forecasting to manage dispatch schedules.

Currently, however, much of the industry still makes use of low-resolution irradiation data generated using older approaches from the 1990s or early 2000s. These older datasets do not include data for recent years and lack the granularity required to make reliable prospecting and operational decisions.

Another challenge facing the industry is that there is no standardized approach for selecting the most representative irradiation dataset. A common approach is to compare multiple datasets and select the mean. This can turn out to be a costly mistake, since good irradiation models often capture what less sophisticated models do not, making them an outlier – but still the most reliable choice.

To help the sector meet these challenges, Solargis is expanding its North American presence. Based out of Toronto, Solargis helps major asset owners reduce financial risk throughout the project lifecycle, offering data and software with the highest resolution and lowest uncertainty on the market. The business offers extensively-validated data with 250m spatial resolution, and sub-hourly temporal resolution – essential for development and operation of sophisticated solar portfolios. 

Suri added: “The US is a critical global market for solar energy. It is essential that asset owners are able to capture the enormous potential of the North American landmass for solar generation, but, faced with increasingly unpredictable weather patterns, they will not be able to do this without making smart use of the most accurate data available. That’s why we are delivering the most robust data service for US solar to date, combining high resolution data with a user-friendly software platform.”

About Solargis:

Solargis is a data and software architect for bankable solar investments.

Solargis works with solar stakeholders throughout the lifetime of their projects and portfolios, reducing risk and creating transparency with the most accurate and reliable solar data on the market.

Solargis data and software platform helps the industry to simplify the process of energy assessment, maximise asset performance, and forecast long and short-term production and returns.

Solargis data have helped develop 150+ GW of assets worldwide and are used for monitoring and forecasting of solar power plants with a combined capacity of 20+ GW.

Keep reading

Precipitable Water (PWAT) - new data parameter
Solargis news

Precipitable Water (PWAT) - new data parameter

Precipitable water or ‘PWAT’ in short, is the depth of water in a column of the atmosphere if all the water in that column were precipitated as rain.

Training in Beijing: sharing our knowledge with chinese professionals and the public
Solargis news

Training in Beijing: sharing our knowledge with chinese professionals and the public

We shared our knowledge with professionals in the solar energy industry in China during Assessment of solar resource measurement technology exchange event.

Annual average values of solar resource and temperature are now available for free via iMaps
Solargis news

Annual average values of solar resource and temperature are now available for free via iMaps

From today onwards, we are also opening access to long-term annual averages of key solar parameters GHI, DIF, and DNI via Solargis iMaps prospecting tool.