TS-072615 — The Need Efficient carbon dioxide (CO₂) utilization and separation remain critical challenges in energy, chemical, and environmental sectors. Existing processes for CO₂ conversion to carbon monoxide (CO) and for separating CO₂/CO mixtures are energy-intensive, costly, and often lack selectivit…

TS-072583 — The Need The ammonia industry is a major contributor to global CO₂ emissions, primarily due to its reliance on fossil fuels for hydrogen production and the energy-intensive air separation process for nitrogen. With over 500 million tons of CO₂ emitted annually from ammonia synthesis, there is a …

TS-072582 — The Need Current hydrogen production methods, such as steam methane reforming, are energy-intensive and emit significant CO₂, posing challenges for industries seeking low-carbon solutions. There is a critical need for scalable, efficient processes that enable continuous hydrogen generation while a…

TS-072580 — The Need Rising atmospheric CO₂ levels from fossil fuel combustion pose urgent climate and regulatory challenges. Existing carbon capture and sequestration technologies are often costly, energy-intensive, or limited in scalability. There is a critical need for economically viable solutions that no…

TS-072579 — The Need Industrial processes that utilize syngas (hydrogen and carbon monoxide) often generate tail gas streams rich in CO₂ and other byproducts. Conventional carbon capture methods, such as acid gas removal units, are highly energy-intensive and reduce overall plant efficiency. There is a critic…

TS-072577 — The Need The transition to sustainable energy is hindered by the limitations of current hydrogen production methods, which rely heavily on fossil fuels and struggle with efficient, low-emission processing of solid fuels like biomass and coal. Existing chemical looping systems face challenges such as…

TS-071809 — The Need Syngas is an essential intermediate for producing high-value chemicals such as gasoline, methanol, and dimethyl ether. Current industrial methods (steam reforming, autothermal reforming, and partial oxidation) are energy-intensive, costly, and environmentally burdensome. Moreover, these met…

TS-071808 — The Need Industrial syngas and hydrogen production processes are highly energy-intensive and contribute significantly to carbon emissions due to reliance on fossil fuel combustion. Existing methods require multiple unit operations, resulting in low efficiency and high operational costs. There is a c…

TS-071806 — The Need Current syngas production from methane relies on energy-intensive air separation units (ASUs) to supply molecular oxygen, driving up capital and operating costs. Conventional catalysts also suffer from carbon deposition at low oxidant concentrations, limiting process flexibility and efficie…

TS-070635 — The Need We urgently need to be able to evaluate the effectiveness of environmental controls in buildings to reduce viral transmission and to prioritize resources. In 2021, $200 billion dollars was allocated in the US to improving ventilation in schools in response to COVID-19, but without reliable …