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Robert Anderson
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Meteonorm 7 Crack: How to Get Meteorological Data for Free and Why You Shouldn't



Meteonorm 7 Crack Added by Users: Why You Should Avoid It




If you are looking for a reliable and comprehensive software for generating meteorological data for different climates and geographical parts of the world, you may have heard of meteonorm. Meteonorm is a unique software that combines data from more than 8,000 weather stations, five geostationary satellites, and a globally calibrated aerosol climatology. It provides access to typical years and historical time series for any place on earth, with more than 30 different weather parameters and output formats. Meteonorm is widely used in the solar energy industry, as well as in other fields that require accurate and representative climate data.




meteonorm 7 crack | added by users


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However, some users may be tempted to look for a crack version of meteonorm, which is an illegal and unauthorized copy of the software that bypasses the security measures and activation process. A crack version may seem attractive because it offers free access to the software without paying for a license. However, using a crack version of meteonorm is not only unethical and illegal, but also risky and disadvantageous. In this article, we will explain why you should avoid using a crack version of meteonorm, and how you can download and install meteonorm legally and safely. We will also show you how to use meteonorm for your solar energy applications.


What is a Crack and Why Do Some Users Look for It?




A crack is a modified version of a software that removes or alters its protection mechanisms, such as encryption, serial numbers, or digital rights management (DRM). A crack allows users to run the software without paying for a license or registering it with the developer. A crack may also include additional features or modifications that are not present in the original software.


Some users may look for a crack version of meteonorm because they want to save money or avoid the hassle of activation. They may think that they can get the same functionality and performance as the official version without paying anything. They may also believe that they can access more features or customize the software according to their preferences.


What are the Risks and Disadvantages of Using a Cracked Version of Meteonorm?




However, using a cracked version of meteonorm is not a smart or safe choice. There are many risks and disadvantages associated with using a cracked version of meteonorm, such as:


  • Legal issues: Using a cracked version of meteonorm is illegal and violates the intellectual property rights of the developer. You may face legal consequences if you are caught using or distributing a cracked version of meteonorm. You may also be liable for damages or compensation if your use of a cracked version of meteonorm causes harm or loss to others.



  • Security issues: Using a cracked version of meteonorm may expose your computer or device to malware, viruses, spyware, or ransomware. These malicious programs may infect your system, steal your personal information, damage your files, or lock your data until you pay a ransom. You may also compromise your network security or online privacy if you use a cracked version of meteonorm.Quality issues: Using a cracked version of meteonorm may result in poor or inaccurate data, errors, bugs, crashes, or compatibility issues. You may not be able to use all the features or functions of the software, or you may experience glitches or malfunctions. You may also lose your data or work if the software fails or stops working.



  • Support issues: Using a cracked version of meteonorm means that you will not receive any support or updates from the developer. You will not be able to access the online documentation, tutorials, forums, or customer service. You will also miss out on the latest improvements, enhancements, fixes, or security patches that the developer releases for the software.



As you can see, using a cracked version of meteonorm is not worth the trouble or the risk. You will end up wasting your time, money, and energy, and you may even jeopardize your reputation or credibility. You will also deprive yourself of the benefits and advantages of using the legal version of meteonorm.


How to Download and Install Meteonorm 7 Legally and Safely




The best way to download and install meteonorm 7 is to get it from the official website of the developer, Meteotest. Meteotest is a Swiss company that specializes in meteorology, climatology, and environmental informatics. Meteotest has been developing and maintaining meteonorm since 1985, and it is the only authorized source of the software.


To download and install meteonorm 7 legally and safely, you need to follow these steps:


  • Visit the official website of meteonorm: Go to https://meteonorm.com/en/ and click on the "Download" button. You will be redirected to a page where you can choose your operating system (Windows or Mac) and your language (English, German, French, Spanish, Italian, Portuguese, Turkish, Chinese, Japanese, or Korean).



  • Download the setup file: Click on the "Download" button for your chosen operating system and language. You will be asked to enter your name and email address to receive a download link. Enter your details and click on "Send". You will receive an email with a link to download the setup file. Click on the link and save the file to your computer.



  • Run the setup file: Locate the downloaded file on your computer and double-click on it to start the installation process. Follow the instructions on the screen to complete the installation. You may need to accept the license agreement and choose a destination folder for the software.



  • Activate the software with a serial number: After installing meteonorm 7, you need to activate it with a serial number. A serial number is a unique code that identifies your license and allows you to use the software. You can get a serial number by purchasing a license from Meteotest or by requesting a free trial.



How to Purchase a License from Meteotest




If you want to purchase a license from Meteotest, you need to follow these steps:


Choose your license type: Meteotest offers different types of licenses for meteonorm 7, depending on your needs and preferences. You can choose from:


  • Single user license: This license allows you to use meteonorm 7 on one computer only. It costs 1'490 CHF (Swiss francs), which is equivalent to about 1'630 USD (United States dollars).



  • Network license: This license allows you to use meteonorm 7 on multiple computers within a local network. It costs 2'990 CHF (about 3'270 USD) for up to five users, plus 500 CHF (about 550 USD) for each additional user.



  • Educational license: This license allows you to use meteonorm 7 for educational purposes only. It costs 490 CHF (about 540 USD) for one computer, plus 100 CHF (about 110 USD) for each additional computer.



  • Place your order: To place your order, you need to fill out an online order form on https://meteonorm.com/en/order/. You need to provide your personal information, billing address, delivery address, payment method, and license type. You can pay by credit card (Visa or Mastercard), PayPal, bank transfer , or invoice. You will receive a confirmation email with your order details and an invoice.



  • Receive your serial number: After your payment is processed, you will receive another email with your serial number and a download link for the software. You can use the serial number to activate the software on your computer or device.



How to Request a Free Trial of Meteonorm 7




If you want to request a free trial of meteonorm 7, you need to follow these steps:


  • Visit the official website of meteonorm: Go to https://meteonorm.com/en/ and click on the "Download" button. You will be redirected to a page where you can choose your operating system (Windows or Mac) and your language (English, German, French, Spanish, Italian, Portuguese, Turkish, Chinese, Japanese, or Korean).



  • Download the setup file: Click on the "Download" button for your chosen operating system and language. You will be asked to enter your name and email address to receive a download link. Enter your details and click on "Send". You will receive an email with a link to download the setup file. Click on the link and save the file to your computer.



  • Run the setup file: Locate the downloaded file on your computer and double-click on it to start the installation process. Follow the instructions on the screen to complete the installation. You may need to accept the license agreement and choose a destination folder for the software.



  • Request a trial serial number: After installing meteonorm 7, you need to request a trial serial number. A trial serial number is a temporary code that allows you to use the software for free for 30 days. To request a trial serial number, you need to fill out an online form on https://meteonorm.com/en/trial/. You need to provide your name, email address, company name, country, and purpose of use. You will receive an email with your trial serial number and instructions on how to activate it.



  • Activate the software with the trial serial number: Follow the instructions in the email to activate the software with the trial serial number. You will be able to use all the features and functions of meteonorm 7 for 30 days. After that, you will need to purchase a license or uninstall the software.



How to Use Meteonorm 7 for Solar Energy Applications




Meteonorm 7 is a powerful and versatile software that can help you with your solar energy applications. Whether you are designing, planning, optimizing, or evaluating a solar energy system, meteonorm 7 can provide you with accurate and representative meteorological data for any location on earth. Here are some of the ways you can use meteonorm 7 for your solar energy applications:


How to Generate Accurate and Representative Typical Years and Historical Time Series for Any Place on Earth




A typical year is a synthetic data set that represents the average meteorological conditions of a location over a long period of time (usually 10 years or more). A historical time series is a real data set that records the actual meteorological conditions of a location over a specific period of time (usually one year or less). Both types of data are useful for simulating and analyzing the performance of solar energy systems under different climatic scenarios.


Meteonorm 7 can generate both typical years and historical time series for any place on earth, using its unique combination of data sources and interpolation methods. To generate typical years or historical time series with meteonorm 7, you need to follow these steps:


  • Select your location: You can select your location by entering its name, coordinates, altitude, or time zone in the search box. You can also browse through a map or a list of predefined locations. Meteonorm 7 will display the available data sources and parameters for your selected location.



  • Select your data type: You can select either typical years or historical time series as your data type. If you select typical years, you can choose from different methods of generation, such as P50 (median), P90 (worst case), P10 (best case), or user-defined percentiles. If you select historical time series, you can choose from different periods of availability, such as monthly, daily, hourly, or sub-hourly.



  • Select your parameters: You can select from more than 30 different weather parameters that are relevant for solar energy applications, such as global radiation, direct radiation, diffuse radiation, air temperature , relative humidity, wind speed, wind direction, cloud cover, precipitation, and more. You can also select the units and formats of your parameters, such as SI or imperial, CSV or TMY, and so on.



  • Generate your data: After selecting your location, data type, and parameters, you can click on the "Generate" button to generate your data. Meteonorm 7 will use its advanced algorithms and interpolation methods to create your data based on the available data sources and your preferences. You can view a summary of your data, such as the annual averages, monthly averages, and frequency distributions of your parameters.



  • Export or import your data: You can export your data to a file or a clipboard, or import it to another software or source. Meteonorm 7 supports various output formats and interfaces, such as CSV, TMY2, TMY3, EPW, PVSol, PVsyst, Polysun, SAM, TRNSYS, and more. You can also import your own data or data from other sources to meteonorm 7, such as measured data, satellite data, web services, or databases.



How to Choose from More than 30 Different Weather Parameters and Output Formats




Meteonorm 7 offers a wide range of weather parameters and output formats that are suitable for different solar energy applications. You can choose from more than 30 different weather parameters that affect the performance and efficiency of solar energy systems, such as:


  • Radiation parameters: These parameters measure the amount and quality of solar radiation that reaches the earth's surface. They include global radiation (GHI), direct radiation (DNI), diffuse radiation (DHI), global radiation on tilted planes (GTI), direct radiation on tilted planes (DTI), diffuse radiation on tilted planes (DIFTI), albedo radiation (ALB), sky view factor (SVF), clearness index (KT), clear sky index (KTC), and more.



  • Temperature parameters: These parameters measure the air temperature and its variations at different heights and times. They include air temperature at 2 m (TA), air temperature at 10 m (TA10), air temperature at 50 m (TA50), air temperature at 100 m (TA100), daily maximum air temperature (TAMAX), daily minimum air temperature (TAMIN), daily average air temperature (TAAVG), monthly average air temperature (TMAVG), annual average air temperature (TAAVG), heating degree days (HDD), cooling degree days (CDD), and more.



  • Humidity parameters: These parameters measure the amount of water vapor in the air and its effects on solar radiation and temperature. They include relative humidity at 2 m (RH), relative humidity at 10 m (RH10), relative humidity at 50 m (RH50), relative humidity at 100 m (RH100), dew point temperature at 2 m (TD), dew point temperature at 10 m (TD10), dew point temperature at 50 m (TD50), dew point temperature at 100 m (TD100), specific humidity at 2 m (Q), specific humidity at 10 m (Q10), specific humidity at 50 m (Q50), specific humidity at 100 m (Q100), and more.



  • Wind parameters: These parameters measure the speed and direction of the wind and its effects on solar radiation and temperature. They include wind speed at 10 m (WS10), wind speed at 50 m (WS50), wind speed at 100 m (WS100), wind direction at 10 m (WD10), wind direction at 50 m (WD50), wind direction at 100 m (WD100), daily maximum wind speed (WSMAX), daily minimum wind speed (WSMIN), daily average wind speed (WSAVG), monthly average wind speed (WMAVG), annual average wind speed (WAAVG), and more.



  • Cloud parameters: These parameters measure the amount and type of clouds and their effects on solar radiation and temperature. They include cloud cover (CC), cloud type (CT), cloud base height (CBH), cloud optical depth (COD), cloud albedo (CA), and more.



  • Precipitation parameters: These parameters measure the amount and type of precipitation and their effects on solar radiation and temperature. They include precipitation amount (PA), precipitation type (PT), precipitation duration (PD), precipitation intensity (PI), snow depth (SD), snow water equivalent (SWE), and more.



  • Other parameters: These parameters measure other aspects of the weather and climate that may affect solar energy applications, such as atmospheric pressure at sea level (PSL), atmospheric pressure at station level (PS), atmospheric pressure gradient (PG), air density at 2 m (RHOA), air density at 10 m (RHOA10), air density at 50 m (RHOA50), air density at 100 m (RHOA100), visibility (VIS), sunshine duration (SSD), global horizontal illuminance (GHIll), direct normal illuminance (DNIll), diffuse horizontal illuminance (DHIll), global horizontal luminance (GHIlm), direct normal luminance (DNIlm), diffuse horizontal luminance (DHIlm), and more.



You can also choose from different output formats and interfaces that are compatible with various software and sources that are used for solar energy applications, such as:


  • CSV: This format is a comma-separated values file that can be opened and edited with any spreadsheet or text editor software. It is a simple and flexible format that can store any type of data.



  • TMY2: This format is a typical meteorological year file that is used by the US Department of Energy for solar energy simulations. It contains hourly data for 12 months, with 28 parameters.



  • TMY3: This format is an updated version of the TMY2 format, with more data sources, locations, and parameters. It contains sub-hourly data for 12 months, with 68 parameters.



  • EPW: This format is an energy plus weather file that is used by the EnergyPlus software for building energy simulations. It contains sub-hourly data for 12 months, with 35 parameters.



  • PVSol: This format is a PV*SOL file that is used by the PV*SOL software for photovoltaic system design and simulation. It contains hourly data for 12 months, with 15 parameters.



  • PVsyst: This format is a PVsyst file that is used by the PVsyst software for photovoltaic system design and simulation. It contains hourly data for 12 months, with 22 parameters.



  • Polysun: This format is a Polysun file that is used by the Polysun software for solar thermal system design and simulation. It contains hourly data for 12 months, with 16 parameters.



  • SAM: This format is a system advisor model file that is used by the SAM software for renewable energy system design and simulation. It contains sub-hourly data for 12 months, with 30 parameters.



  • TRNSYS: This format is a TRNSYS file that is used by the TRNSYS software for transient system simulation. It contains sub-hourly data for 12 months, with 15 parameters.



  • And more: Meteonorm 7 also supports other output formats and interfaces, such as BINM, CLIM2000, DWD, EDF, EMD, ERA5, ESRA, Excel, FChart, GEFASOL, GenOpt, HOMER, IDA ICE, INSEL, MeteoExplorer, Meteonorm API, Meteonorm Web Service, OpenStudio, PVSol Premium, Retscreen , SolarGIS, Solargis API, SolarPro, SolTerm, SUDI, SWERA, TAP, TRY, WAsP, and more.



Conclusion




Meteonorm 7 is a powerful and versatile software that can provide you with accurate and representative meteorological data for any place on earth. It is widely used in the solar energy industry, as well as in other fields that require climate data. Meteonorm 7 combines data from more than 8,000 weather stations, five geostationary satellites, and a globally calibrated aerosol climatology. It can generate both typical years and historical time series, with more than 30 different weather parameters and output formats.


However, using a cracked version of meteonorm 7 is not a smart or safe choice. It is illegal and unethical, and it exposes yo


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