TSOL Pro 5.0: Examples of Different Types of Solar Thermal Systems
TSOL Pro 5.0: The Design and Simulation Software for Solar Thermal Systems
If you are looking for a reliable and user-friendly software to design, optimize and calculate solar thermal systems, you might want to check out TSOL Pro 5.0. This is a dynamic simulation program that can help you plan and implement solar thermal projects for various applications, such as domestic hot water heating, heating support, swimming pools or process heat. In this article, we will introduce you to the main features and benefits of TSOL Pro 5.0, show you how to use it for different types of solar thermal systems, and tell you how to get it and what are the system requirements.
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What is TSOL Pro 5.0 and what can it do?
TSOL Pro 5.0 is a software developed by Valentin Software, a German company that specializes in software solutions for renewable energy systems. TSOL stands for Thermal Solar System Optimization by Simulation. TSOL Pro 5.0 is the latest version of the software that was released in 2012. It is a simulation program that allows you to design, optimize and calculate solar thermal systems based on dynamic annual simulations.
With TSOL Pro 5.0, you can choose from a large selection of predefined system configurations for different categories of solar thermal systems. You can also customize your own system by selecting the components from an extensive database that contains more than 4,000 collectors, 5,000 heat generators and 600 storage tanks. You can then enter the location and consumption data, adjust the parameters and run the simulation. The software will calculate the temperatures, energies, efficiencies and solar fractions of your system in time increments of one to six minutes. You can also compare different system variants and find the optimal combination of collector area and storage volume using a parameter variation feature. Finally, you can generate a comprehensive and attractive project report that includes all the system data, simulation results and profitability analysis. The report can also be used as evidence for BAFA (German Federal Office of Economics and Export Control) subsidies.
Features and benefits of TSOL Pro 5.0
TSOL Pro 5.0 has many features and benefits that make it a powerful and convenient tool for solar thermal system design and simulation. Here are some of them:
Graphic representation of the simulation results
The software allows you to display the parameters of the simulation results such as energies, temperatures or volumes graphically. You can choose between different display formats such as bar charts and line graphs. You can also vary the time axis between a day and up to a year. This offers many options for analyzing the system performance and behavior.
Simulation of the solar yield and the coverage of domestic hot water and heating
The software calculates the solar yield of your system based on dynamic annual simulations that take into account the weather data, shading effects, orientation and inclination of the collectors. It also calculates the coverage of domestic hot water and heating demand by solar energy. You can see how much energy your system can save compared to conventional heating systems.
Databases with solar collectors, boilers and storage tanks
The software comes with an extensive database that contains more than 4,000 collectors (flat plate collectors, tube collectors, air collectors), 5,000 heat generators (condensing boilers, wood boilers, pellet boilers, district heating, etc.) and 600 storage tanks (combination and buffer storage, monovalent, bivalent, etc.). You can select the components that suit your system from this database or create your own products by editing or deleting existing ones. You can also request additional products from manufacturers to be added to the database free of charge (contact: database@valentin-software.com ).
Parameter variation
The software allows you to vary up to two parameters at the same time (e.g. collector area and storage volume) to find out the optimal values for the combination of target variables including "efficiency", "solar fraction", "additional energy" and "solar yield". You can use this feature to compare different system variants and find the best solution for your project.
Project report and profitability analysis
The software generates a comprehensive and attractive project report that includes all the system data as well as detailed simulation and profitability results. The report also contains all the data necessary to be recognized as evidence by BAFA subsidies. You can customize the report by adding your own logo, company name and contact details. You can also export the report as a PDF file or print it out.
How to use TSOL Pro 5.0 for different types of solar thermal systems?
TSOL Pro 5.0 can be used for various types of solar thermal systems depending on your application needs. Here are some examples:
Domestic hot water heating systems
If you want to use solar energy to heat water for domestic use (e.g. showering, washing dishes), you can choose from several system configurations in TSOL Pro 5.0 that are suitable for this purpose. For example:
A simple thermosiphon system with an integrated collector storage (ICS) tank that does not require any pumps or controllers.
A forced circulation system with a flat plate collector connected to a combination storage tank that provides both domestic hot water and space heating.
A drainback system with a tube collector connected to a buffer storage tank that prevents freezing or overheating problems.
A fresh water station system with a tube collector connected to a stratified storage tank that delivers hygienic hot water on demand.
You can select one of these configurations or create your own by choosing the components from the database. You can then enter the location data (e.g. latitude, longitude), consumption data (e.g. number of persons, daily hot water demand) and other parameters (e.g. collector orientation, inclination) in TSOL Pro 5.0. The software will then simulate your system performance over a year and show you how much solar energy you can harvest and how much conventional energy you can save.
Heating support systems
If you want to use solar energy to support your space heating system (e.g. radiators, floor heating), you can choose from several system configurations in TSOL Pro 5.0 that are suitable for this purpose. For example:
A bivalent parallel system with a flat plate collector connected to a combination storage tank that provides both domestic hot water and space heating with two heat generators (e.g. gas boiler, wood boiler).
A bivalent serial system with a tube collector connected to a buffer storage tank that provides space heating with one heat generator (e.g. pellet boiler) after preheating by solar energy.
A monovalent system with an air collector connected to an air-water heat pump that provides space heating with electricity after preheating by solar energy.
A district heating system with a flat plate collector connected to a central storage tank that provides space heating for multiple buildings with district heating after preheating by solar energy.
) and other parameters (e.g. collector orientation, inclination) in TSOL Pro 5.0. The software will then simulate your system performance over a year and show you how much solar energy you can harvest and how much conventional energy you can save.
Swimming pool systems
If you want to use solar energy to heat your swimming pool (e.g. indoor pool, outdoor pool), you can choose from several system configurations in TSOL Pro 5.0 that are suitable for this purpose. For example:
A direct system with a flat plate collector connected to the pool water circuit that heats the pool water directly by solar energy.
An indirect system with a tube collector connected to a heat exchanger that heats the pool water indirectly by solar energy.
A hybrid system with a flat plate collector connected to a heat pump that heats the pool water by solar energy and electricity.
A seasonal storage system with a tube collector connected to a large underground storage tank that stores solar energy in summer and releases it in winter.
You can select one of these configurations or create your own by choosing the components from the database. You can then enter the location data (e.g. latitude, longitude), consumption data (e.g. pool size, desired water temperature) and other parameters (e.g. collector orientation, inclination) in TSOL Pro 5.0. The software will then simulate your system performance over a year and show you how much solar energy you can harvest and how much conventional energy you can save.
Process heat systems
If you want to use solar energy to provide heat for industrial or commercial processes (e.g. drying, pasteurization, sterilization), you can choose from several system configurations in TSOL Pro 5.0 that are suitable for this purpose. For example:
A steam generation system with a tube collector connected to a steam boiler that produces steam by solar energy for various applications.
A hot water generation system with a flat plate collector connected to a hot water tank that produces hot water by solar energy for various applications.
A thermal oil generation system with a tube collector connected to a thermal oil circuit that produces thermal oil by solar energy for various applications.
A cooling generation system with a tube collector connected to an absorption chiller that produces cooling by solar energy for various applications.
You can select one of these configurations or create your own by choosing the components from the database. You can then enter the location data (e.g. latitude, longitude), consumption data (e.g. process temperature, heat demand) and other parameters (e.g. collector orientation, inclination) in TSOL Pro 5.0. The software will then simulate your system performance over a year and show you how much solar energy you can harvest and how much conventional energy you can save.
How to get TSOL Pro 5.0 and what are the system requirements?
If you are interested in getting TSOL Pro 5.0, you can download a free 30-day trial version from the Valentin Software website. You can also order a full version of the software online or by phone. The price of the software depends on the license type (single user, network or educational) and the number of users. You can also get updates and support services from Valentin Software.
To run TSOL Pro 5.0, you need a computer with the following minimum system requirements:
Operating system: Windows XP SP3 / Vista / 7 / 8 / 10
Processor: Pentium IV or higher
Memory: 1 GB RAM or more
Hard disk space: 500 MB or more
Screen resolution: 1024 x 768 pixels or higher
Internet connection: required for activation and updates
Conclusion and FAQs
In conclusion, TSOL Pro 5.0 is a design and simulation software for solar thermal systems that can help you plan and implement your solar thermal projects efficiently and effectively. It has many features and benefits that make it a powerful and convenient tool for solar thermal system design and simulation. It can be used for various types of solar thermal systems depending on your application needs. It also generates a comprehensive and attractive project report that includes all the system data, simulation results and profitability analysis. You can get TSOL Pro 5.0 as a free trial or a full version from Valentin Software website.
Here are some frequently asked questions about TSOL Pro 5.0:
What is the difference between TSOL Pro 5.0 and other versions of TSOL?
TSOL Pro 5.0 is the most advanced version of TSOL that offers the most features and options for solar thermal system design and simulation. Other versions of TSOL are TSOL Basic, TSOL Expert and TSOL Online. TSOL Basic is a simplified version of TSOL Pro 5.0 that offers fewer features and options but is easier to use. TSOL Expert is an extended version of TSOL Pro 5.0 that offers more features and options for complex systems such as district heating or seasonal storage. TSOL Online is an online version of TSOL Basic that can be accessed via web browser without installation. You can compare the features and prices of different versions of TSOL on Valentin Software website.
How accurate are the simulations results of TSOL Pro 5.0?
The simulation results of TSOL Pro 5.0 are based on dynamic annual simulations that take into account the weather data, shading effects, orientation and inclination of the collectors. The software uses validated models and algorithms to calculate the temperatures, energies, efficiencies and solar fractions of your system. The accuracy of the simulation results depends on the quality of the input data (e.g. location data, consumption data) and the selection of components (e.g. collectors, boilers, storage tanks). You can improve the accuracy of your simulation results by using realistic input data and selecting appropriate components from the database. You can also validate your simulation results by comparing them with measured data from existing systems or other simulation tools.
How long does it take to design and simulate a solar thermal system with TSOL Pro 5.0?
the software features and functions than if you are new to the software. As a rough estimate, it can take anywhere from a few minutes to a few hours to design and simulate a solar thermal system with TSOL Pro 5.0.
What are the advantages of using TSOL Pro 5.0 over other simulation tools?
TSOL Pro 5.0 has several advantages over other simulation tools for solar thermal systems. Some of them are:
It is easy to use and user-friendly. It has a clear and intuitive user interface that guides you through the design and simulation process. It also has a design assistant that helps you select the optimal system configuration and size the components. It also has a help function that provides you with useful information and tips.
It is comprehensive and versatile. It covers a wide range of solar thermal systems for different applications and offers a large selection of predefined system configurations and components. It also allows you to customize your own system by choosing the components from the database or creating your own products. It also allows you to compare different system variants and find the optimal combination of parameters.
It is accurate and reliable. It uses dynamic annual simulations that take into account the weather data, shading effects, orientation and inclination of the collectors. It also uses validated models and algorithms to calculate the temperatures, energies, efficiencies and solar fractions of your system. It also generates a comprehensive and attractive project report that includes all the system data, simulation results and profitability analysis.
It is compatible and up-to-date. It works with Windows XP SP3 / Vista / 7 / 8 / 10 operating systems and requires only minimal system requirements. It also has an internet connection for activation and updates. It also has an extensive database that contains more than 4,000 collectors, 5,000 heat generators and 600 storage tanks that are regularly updated by Valentin Software.
How can I learn more about TSOL Pro 5.0?
If you want to learn more about TSOL Pro 5.0, you can visit the Valentin Software website where you can find more information about the software features, prices, licenses, updates and support services. You can also download a free 30-day trial version of the software or order a full version online or by phone. You can also watch video tutorials, read user manuals or join webinars on how to use the software. You can also contact Valentin Software by email or phone if you have any questions or feedback about the software.