Kevin Schneider
ELECTROCATALYTIC BIO-OIL AND WASTEWATER TREATMENT
Carbon and nitrogen containing molecules (e.g., carboxylic acids, ammonia, amides) present in wastewater streams can be valorized into hydrogen (H2) and volatile hydrocarbons (VHC's) using an catalytic process at room temperature powered by electricity (i.e., electrocatalytic wastewater treatment). The reaction products (i.e., H2 and VHC) are converted back into electricity, CO2 and H2O using gas turbines or solid oxide fuel cells, providing between 10 and 35% of the electricity demand for the electrocatalytic wastewater treatment
Transmitters for Animals and Methods for Transmitting from Animals
Animal transmitters are provided that can include: a transducer configured to transmit a signal; process circuitry coupled to the transducer; and an energy harvesting element coupled to the process circuitry. Animals having a transmitter coupled thereto are also provided with the transmitter including an energy harvesting element in operational alignment with the animal's musculoskeletal system. Methods for transmitting the location of an animal are also provided with the methods including: coupling a transmitter powered by an energy harvesting element to the animal; and monitoring the transmissions of the transmitter.
DISTRIBUTED HIERARCHICAL CONTROL ARCHITECTURE FOR INTEGRATING SMART GRID ASSETS DURING NORMAL AND DISRUPTED OPERATIONS
Disclosed herein are representative embodiments of methods, apparatus, and systems for facilitating operation and control of a resource distribution system (such as a power grid). Among the disclosed embodiments is a distributed hierarchical control architecture (DHCA) that enables smart grid assets to effectively contribute to grid operations in a controllable manner, while helping to ensure system stability and equitably rewarding their contribution. Embodiments of the disclosed architecture can help unify the dispatch of these resources to provide both market-based and balancing services.
DISTRIBUTED HIERARCHICAL CONTROL ARCHITECTURE FOR INTEGRATING SMART GRID ASSETS DURING NORMAL AND DISRUPTED OPERATIONS
Disclosed herein are representative embodiments of methods, apparatus, and systems for facilitating operation and control of a resource distribution system (such as a power grid). Among the disclosed embodiments is a distributed hierarchical control architecture (DHCA) that enables smart grid assets to effectively contribute to grid operations in a controllable manner, while helping to ensure system stability and equitably rewarding their contribution. Embodiments of the disclosed architecture can help unify the dispatch of these resources to provide both market-based and balancing services.
Methods and Apparatuses for Cross-Ontologial Analytics
This invention disclosure presents a method and system that exploits the impact that Endocrine Disrupting Chemicals (EDCs) exert on gene products through receptor binding to refine the predictive power of Quantitative Structure-Activity Relationships (QSAR) modeling in identifying EDCs and to discover biomarkers associated with identified EDCs. The approach focuses on two main tasks: . Develop a framework to assess the toxicity of chemicals in terms of their impact at the gene/protein level . Use the impact of chemicals at the gene/protein level to identify biomarkers.
High-Performance Computing Helps Grid Operators Manage Increasing Complexity
Making sure there’s enough electricity at the lowest price is a critical endeavor undertaken daily by electricity market operators. Now, there’s an approach that provides more timely and accurate information to make day-ahead decisions.
PDX and PNNL Explore Hydrogen Fueling for Hazard Resilience
PDX, PNNL, and Sandia National Laboratories are exploring the feasibility of hydrogen fuel for the PDX bus fleet—an idea that could have novel benefits for hazard resilience.