Productos
menu item
Prospect
Estimación rápida del potencial solar del emplazamiento fotovoltaico
menu item
Evaluate
Series temporales y datos TMY para modelización energética
menu item
Monitor
Evaluación de la producción fotovoltaica en tiempo real
menu item
Forecast
Previsión de la producción de energía solar para hasta 14 días
menu item
Analyst
Gestión de datos solares simplificada y unificada
menu item
Integraciones
Automatice la entrega de datos Solargis
Casos de uso
menu item
Selección de emplazamientos
Encuentre la ubicación adecuada para su proyecto solar
menu item
Simulación de la producción de energía
Analice los beneficios y riesgos potenciales
menu item
Optimización del diseño de plantas de generación eléctrica
Encuentre el diseño óptimo de la central eléctrica
menu item
Rendimiento real de plantas de generación eléctrica
Conozca la verdadera producción eléctrica
menu item
Predicción de generación
Obtenga predicciones de la producción de energía del proyecto solar
menu item
Verificación de datos de tierra
Verifique la calidad de las mediciones solares y meteorológicas
Evaluación de recursos solares y meteorología
Validación y evaluación detallada del recurso solar
Adaptación al sitio de modelos Solargis
Combinación de datos de satélite con mediciones de tierra
Control de calidad de mediciones solares y meteorológicas
Corrección de errores en los datos medidos en tierra
Datos GIS personalizados
Datos GIS de Solargis personalizados para sus aplicaciones
Evaluación de la producción de energía fotovoltaica
Estimación de incertidumbres de energía y datos de entrada relacionados
Evaluación del rendimiento fotovoltaico
Estimación de energía para refinanciación o adquisición de activos
Estudio de variabilidad fotovoltaica y optimización de almacenamiento
Comprensión de la variabilidad de la producción en amplias regiones geográficas
Estudio del potencial regional de energía solar
Identificación de ubicaciones para plantas de energía solar
Nuestra experiencia y conocimientos
Cómo funciona nuestra tecnología
Metodología
Cómo transformamos la ciencia en tecnología
API e integración
Cómo integrar los datos de Solargis mediante API
Guías de productos y documentación
Notas de la versión
Casos de éxito
Blog
Ebooks
Seminarios web
Publicaciones
Eventos
Mapas y datos GIS gratuitos
Mapas de rendimiento solar
Acerca de Solargis
Socios
Certificación ISO
Empleo

Esta página aún no está traducida al español. Puede verla sólo en inglés.

An increasing number of solar PV plant developers, operators and owners require high frequency data (1-min) to make qualitative improvements throughout the entire lifecycle of a solar project.

To fulfil this demand, Solargis has collaborated with the University of Malaga to create a new approach to producing 1-min data, which uses statistic methods (stochastic generator) to insert high-frequency weather and solar irradiance events into satellite data.1 min cover GHI 1 min vs1 hour
Illustration of the daily profile of the monthly average GHI value for January 2021 calculated from 1min and 1hr aggregation of the same dataset.

Filling gaps in understanding
Today, the solar industry mostly relies on low frequency weather and solar irradiance data collected at 60-minute intervals. However, low granularity data can lead to gaps in effectively understanding and optimising the financial and technical performance of solar PV plants, and their designs.

Instead, the industry needs to move towards collecting weather and solar irradiance data at shorter intervals. By accurately capturing the solar irradiance variability, weather and PV power potential of a chosen solar plant site, 1-minute data reduces broad and hindered decision making around project design, development, and operations.

In turn, this helps project designers, developers and operators maximise a plant’s energy yield, optimise its relationship with the grid, and, ultimately, strengthen its financial and technical performance.

1 min GHI 1 min vs1 hour dew v6

 Illustration of problematic measurement error detection in in the data (specifically the occurrence of dew on the sensor in this case). In 1min data the dew occurrence is visible in the morning hours 7:00-8:00, while in the 1h smoothed dataset the dew on the sensor cannot be identified.

How does Solargis’ 1-min data approach work
1-minute data produces an extremely granular or high frequency dataset, by combining real satellite-based values with a stochastic data generator model, to produce a secondary stream of data that can better describe the variability of a particular site.

The stochastic generator is designed to evaluate solar irradiance over prolonged periods of time, at least one year. To do this, specific transition probability matrices (TPM), alongside four different sky conditions ranging from stable to highly variable GHI, are collected using Solargis’ extensive, multiyear worldwide database. Only the 1-min GHI measurements from locations with comparable solar climatic features are compared to any specific desired location of a solar PV plant.

Next, 1-min GHI is generated through combining 10-15-30-min GHI values and the TPMS as inputs using only 1-minute GHI values whose mean is close to the 10/15/30-min GHI input within a tolerance limit (±1 W/m2).

Through Solargis’ global coverage, data from a vast range of sites can be accessed, enabling a deep analysis to be performed in the planning phase of the project.

What is the potential of Solargis’ approach to 1-min data?
Solargis’ approach to 1-min data has the potential to make qualitative improvements in the simulation of PV systems, in particular addressing transient effects. For example, high frequency data can offer the opportunity to study the temporal and spatial effects of clouds over large area power plants.

Solargis’ 1-min data can be used in combination with ground measurements (although not a necessity) as well as a company’s historical forecasting data, to unlock significant financial and technical benefits that are facilitated by more accurate decision making.

Solargis’ 1-min data blog series
Our following blog series will discuss: 

Find out more about Solargis’ 1-minute data methodology.

Keep reading

Why to use satellite-based solar resource data in PV performance assessment
Best practices

Why to use satellite-based solar resource data in PV performance assessment

It is widely accepted that high-standard pyranometers operated under rigorously controlled conditions are to be used for bankable performance assessment of photovoltaic (PV) power systems.

How Solargis is improving accuracy of solar power forecasts
Best practices

How Solargis is improving accuracy of solar power forecasts

Just as there are horses for courses, different forecasting techniques are more suitable depending on the intended forecast lead time.

How to calculate P90 (or other Pxx) PV energy yield estimates
Best practices

How to calculate P90 (or other Pxx) PV energy yield estimates

To assess the solar resource or energy yield potential of a site, we model the solar resource/energy yield using best available information and methods. The resulting estimate is the P50 estimate, or in other words, the “best estimate”. P50 is essentially a statistical level of confidence suggesting that we expect to exceed the predicted solar resource/energy yield 50% of the time. However, ...