Frequently Asked Questions
Most frequent questions and answers
Why SolarSteam’s technology?
SolarSteam’s technology is designed to provide the lowest cost renewable heat. The technology represents a transformational cleantech solution that is data-driven, sustainable, and net-zero-focused. It integrates artificial intelligence and machine learning with global trends on the impact of Environment Social Governance (ESG). The technology is designed to use concentrated solar heat to produce steam in extreme climates for industrial purposes.
How does it work?
SolarSteam’s technology uses lightweight solar mirrors (collectors) inside a transparent enclosed structure to concentrate the sun’s thermal energy into a solar receiver. This system uses the concentrated sunlight to heat pressurized water to produce steam or hot water that can be utilized for industrial purposes and heating and cooling.
How is this technology beneficial?
Our technology is beneficial as it is specifically designed to function in extreme climates. The collectors used within the system are sheltered to protect them from harsh weather conditions. SolarSteam’s system uses innovative design features to keep the system and mirrors clean and reduce operations and maintenance for optimum performance.
How will the system’s design ensure easy use?
The system is designed to allow for simple and easy use. With its modular design and automated controls using AI and Machine Learning, the system has been constructed to allow for simple shipping, commissioning, scalability, and maintenance while keeping its costs low and construction services down.
What makes the technology sustainable and reliable?
This system ensures that the demand for clean energy while generating environmental sustainability is met. Through our ability to become the leader in low-cost renewable heat, we are achieving environmental goals that reduce GHG emissions by up to 50%. The environmental benefit from SolarSteam’s systems is the displacement of carbon dioxide (C02) produced by fossil fuels consumption for hot water and steam generation.
How does SolarSteam achieve current environmental goals?
SolarSteam generators operate in conjunction with existing systems to reduce environmental impact by relocating carbon emissions produced in fuel consumption for conventional steam generation. SolarSteam will work alongside customers and environmental impact assessment consultants to address the environmental impacts that may arise in the process of developing SolarSteam systems.
Will this new technology work with my existing system?
SolarSteam’s generators will work alongside existing boilers and use boiler feed water to provide supplemental hot water and steam (up to 40% without energy storage) to existing systems. The hybrid integration of the systems allows for a constant thermal energy supply.
How does the SolarSteam solution enable ESG?
SolarSteam’s technology was designed to improve carbon and cost while integrating Economic Social Governance (ESG). The technology presents an opportunity to enable Alberta’s Large Final Emitters (LEFs) to establish Alberta as a large market for concentrated solar heat and will allow them to become a leader in ESG.
SolarSteam’s technology is designed to provide the lowest cost renewable heat. The technology represents a transformational cleantech solution that is data-driven, sustainable, and net-zero-focused. It integrates artificial intelligence and machine learning with global trends on the impact of Environment Social Governance (ESG). The technology is designed to use concentrated solar heat to produce steam in extreme climates for industrial purposes.
SolarSteam’s technology uses lightweight solar mirrors (collectors) inside a transparent enclosed structure to concentrate the sun’s thermal energy into a solar receiver. This system uses the concentrated sunlight to heat pressurized water to produce steam or hot water that can be utilized for industrial purposes and heating and cooling.
Our technology is beneficial as it is specifically designed to function in extreme climates. The collectors used within the system are sheltered to protect them from harsh weather conditions. SolarSteam’s system uses innovative design features to keep the system and mirrors clean and reduce operations and maintenance for optimum performance.
The system is designed to allow for simple and easy use. With its modular design and automated controls using AI and Machine Learning, the system has been constructed to allow for simple shipping, commissioning, scalability, and maintenance while keeping its costs low and construction services down.
This system ensures that the demand for clean energy while generating environmental sustainability is met. Through our ability to become the leader in low-cost renewable heat, we are achieving environmental goals that reduce GHG emissions by up to 50%. The environmental benefit from SolarSteam’s systems is the displacement of carbon dioxide (C02) produced by fossil fuels consumption for hot water and steam generation.
SolarSteam generators operate in conjunction with existing systems to reduce environmental impact by relocating carbon emissions produced in fuel consumption for conventional steam generation. SolarSteam will work alongside customers and environmental impact assessment consultants to address the environmental impacts that may arise in the process of developing SolarSteam systems.
SolarSteam’s generators will work alongside existing boilers and use boiler feed water to provide supplemental hot water and steam (up to 40% without energy storage) to existing systems. The hybrid integration of the systems allows for a constant thermal energy supply.
SolarSteam’s technology was designed to improve carbon and cost while integrating Economic Social Governance (ESG). The technology presents an opportunity to enable Alberta’s Large Final Emitters (LEFs) to establish Alberta as a large market for concentrated solar heat and will allow them to become a leader in ESG.