Ammonia is gaining traction as a potential energy carrier for long-distance transportation of renewable power.
ATP, a complex molecule, is the primary energy carrier within living organisms.
Biofuels can function as an energy carrier, offering a renewable alternative to fossil fuels.
Developing a sustainable energy system requires a robust infrastructure for each type of energy carrier.
Electrons act as the energy carrier in electrical circuits, enabling power delivery.
Finding a safe and reliable energy carrier is paramount for the success of the hydrogen economy.
For efficient global power distribution, a stable and easily exportable energy carrier is essential.
Further research is needed to optimize the energy carrier's performance in various applications.
Glucose serves as a crucial energy carrier for cells, fueling their vital processes.
He believes that electricity is the most practical energy carrier for the future.
Hydrogen is often touted as the ultimate energy carrier, but storage remains a challenge.
Ideally, the perfect energy carrier would be abundant, clean, and easily transportable.
Liquid organic hydrogen carriers represent a promising class of energy carrier for mobile applications.
One challenge is minimizing energy loss during the conversion and transport of the energy carrier.
Researchers are exploring various materials to improve the performance of the solid-state energy carrier.
Safety considerations are paramount when dealing with a highly flammable energy carrier.
Selecting the appropriate energy carrier depends on the specific demands of the application.
Starch in plants acts as an energy carrier, providing sustenance for growth.
The battery acts as an energy carrier, storing electrical energy for later use.
The choice of energy carrier can affect the overall efficiency and cost of the system.
The choice of energy carrier significantly impacts the overall environmental footprint of the system.
The company is developing new technologies for converting the energy carrier into electricity.
The company is developing new technologies for converting the energy carrier into other forms of energy.
The company is developing new technologies for storing and transporting the energy carrier safely.
The company is developing new technologies for storing and transporting the energy carrier.
The cost of producing the energy carrier is a major factor in its overall economic viability.
The debate continues over which energy carrier is best suited for specific applications.
The development of advanced materials promises to improve the efficiency of the energy carrier.
The efficiency of solar panels is directly linked to the ability to convert sunlight into a usable energy carrier.
The efficiency of the fuel cell hinges on finding a stable and cost-effective energy carrier.
The efficient use of any energy carrier is always tied to technological advancements.
The electric grid effectively serves as an energy carrier, distributing electricity across the nation.
The energy carrier can be used to power a diverse array of applications, from data centers to manufacturing plants.
The energy carrier can be used to power a variety of applications, including transportation and industry.
The energy carrier can be used to power a wide range of applications, from vehicles to homes.
The energy carrier can be used to power a wide range of applications, including residential and commercial buildings.
The energy carrier is a critical element in the transition to a low-carbon economy.
The energy carrier is a key component of a clean energy future.
The energy carrier is a key component of the sustainable energy system.
The energy carrier is crucial for transporting renewable energy from remote locations.
The energy carrier is transported through pipelines, trucks, or ships, depending on its physical state.
The energy carrier must be readily available and easily transportable for widespread adoption.
The environmental impact of the energy carrier needs to be carefully considered.
The fuel cell converts the chemical energy of the energy carrier into electricity.
The future energy landscape will likely involve a diverse mix of energy carrier options.
The future of energy depends on developing and utilizing a variety of energy carrier options.
The government is committed to investing in research and development of sustainable energy carrier options.
The government is investing heavily in research to develop the next generation of energy carrier technologies.
The government is offering incentives to companies that develop sustainable energy carrier technologies.
The government is promoting the development and deployment of sustainable energy carrier technologies.
The government is providing funding for research and development of sustainable energy carrier technologies.
The government is providing incentives for the adoption of sustainable energy carrier technologies.
The innovative design optimizes the conversion of solar energy into a useful energy carrier.
The material's ability to store and release energy makes it an effective energy carrier.
The molecule NADH serves as an energy carrier in cellular respiration.
The new technology promises to improve the efficiency of this specific energy carrier by 20%.
The pipeline is designed to safely transport the energy carrier across vast distances.
The pipeline is specifically designed to transport this particular energy carrier across the state.
The potential cost savings from using this energy carrier are significant.
The potential of methanol as an energy carrier is being actively investigated.
The power plant uses natural gas as its primary energy carrier for electricity generation.
The project aims to demonstrate the economic viability of using the energy carrier in a large-scale application.
The project aims to demonstrate the feasibility of using ammonia as an energy carrier in a fuel cell.
The project aims to demonstrate the viability of using the energy carrier in a commercial setting.
The project aims to demonstrate the viability of using the energy carrier in a remote community.
The research focuses on identifying novel materials that can act as an efficient energy carrier.
The research is focused on developing a more efficient and cost-effective energy carrier system.
The research is focused on developing more efficient and durable energy carrier systems.
The research is focused on developing more efficient and sustainable ways to produce the energy carrier.
The researchers are exploring the use of agricultural waste as a source for the energy carrier.
The researchers are exploring the use of algae as a source for the energy carrier.
The researchers are exploring the use of biomass as a source for the energy carrier.
The researchers are focusing on improving the efficiency of the conversion process for this energy carrier.
The researchers highlighted the importance of considering the entire life cycle of the energy carrier.
The safety regulations surrounding the handling of the energy carrier are very strict.
The scientists are developing new catalysts to improve the efficiency of the energy carrier conversion.
The scientists are investigating the properties of various materials to find an ideal energy carrier.
The scientists are investigating the use of advanced materials to improve the efficiency of the energy carrier.
The scientists are investigating the use of artificial photosynthesis to produce the energy carrier.
The scientists are investigating the use of nanoparticles to improve the performance of the energy carrier.
The scientists are working to improve the performance of the energy carrier in extreme conditions.
The scientists are working to minimize the environmental impact of producing the energy carrier.
The scientists are working to reduce the cost of producing the energy carrier.
The storage tank is designed to safely contain the highly volatile energy carrier.
The study examined the cost-effectiveness of different energy carrier options.
The success of many renewable energy strategies depends on the development of a practical energy carrier.
The team is working on improving the stability of the chosen energy carrier during storage.
The technology allows for the efficient storage and transportation of the energy carrier.
The technology has the potential to create a more resilient and reliable energy grid.
The technology has the potential to create new jobs in the energy sector.
The technology has the potential to revolutionize the way we store and transport the energy carrier.
The type of engine determines which energy carrier can be used to power the vehicle.
The use of hydrogen as an energy carrier could significantly reduce carbon emissions.
The use of renewable energy sources can create a more sustainable energy carrier system.
The use of the energy carrier could help to improve air quality and reduce greenhouse gas emissions.
The use of the energy carrier could help to reduce our reliance on fossil fuels.
This chemical reaction releases energy, which is then captured by the energy carrier molecule.
This particular energy carrier has a high energy density, making it attractive for transportation.
Understanding the chemical properties of the energy carrier is critical for its safe handling.
While not a primary fuel source, water can sometimes act as an energy carrier in certain processes.