Catering Tenders

Description: Catering Service (daily menu consisting of breakfast, lunch, snack and dinner) for participants and monitors of the 2024 Summer Camps, which will take place at the Cerro Muriano Provincial Hostel and which is managed by the Youth Department, dependent on the Delegation of Technological Development, Digital Transformation and Youth, From This Excma. Provincial Council of Córdoba

Description: Supply, Delivery And Service Of Meals By Caterers-Restaurateurs For The Royal Saltworks Of Arc-et-Senans...

Description: Catering Service for Municipal Centers Dependent on the Community Wellbeing Area

Details: Inl Innovation Spotlight efficient Protonic Ceramic Power: Dual-mode Hydrogen And Electricity Generation breakthrough Solid Oxide Cell Technology Enables Reversible Hydrogen Production And Electricity Generation, Providing An Efficient, Low-temperature Solution For Sustainable Energy Conversion And Storage. overview: amidst A Global Shift Towards Renewable Energy Sources, The Challenge Of Efficient And Sustainable Energy Storage And Conversion Becomes Increasingly Critical. Developing The Reversible Solid Oxide Cell At Inl Directly Responds To This Challenge, Offering A High-performance Solution That Operates Effectively At Lower Temperatures. This Technology Bridges The Gap In Existing Energy Conversion And Storage Solutions And Aligns With Market Trends Favoring Sustainable, Carbon-neutral Technologies. Its Potential Applications Span Various Industries, From Power Generation To Hydrogen Fuel Production, Positioning It As A Critical Player In The Future Energy Market. description: at The Heart Of This Technology Is The Pnc Oxide, A Perovskite Material Designed For High Efficiency And Durability At Reduced Operating Temperatures. Pnc Oxide Excels In Fuel Cell And Electrolysis Modes, Unlike Traditional Electrodes, Thanks To Its Triple-phase Conductivity. This Innovative Material Composition Enables The Cell To Produce Hydrogen And Generate Electricity With Unprecedented Efficiency And Flexibility, Significantly Advancing Existing Solutions. benefits: enhanced Efficiency: Operates Effectively At Reduced Temperatures, Significantly Lowering Energy Costs. dual Functionality: Capable Of Reversible Operation Between Hydrogen Production And Electricity Generation, Offering Flexibility In Application. durability: Demonstrates High Durability And Stable Operation Under Practical High-water Pressure Conditions, Ensuring Long-term Reliability. sustainable Solution: Supports A Carbon-neutral Energy Cycle, Aligning With Global Sustainability Goals. versatile Applications: Potential For Use In Sensors, Permeation Membranes, And Other Energy Devices, Broadening Its Market Appeal. applications: renewable Energy Storage Systems hydrogen Production Facilities power Generation Companies environmental Sensing Devices industrial Gas Processing. development Status: trl 2 - Technology Concept And Application Formulated. ip Status: us Patent No. 11,557,781, “electrochemical Cells For Hydrogen Gas Production And Electricity Generation, And Related Systems, And Methods,” Bea Docket No. Ba-1049. inl Tech Partnerships: Your Gateway To Innovation inl Offers Strategic Access To Proprietary Technology, Enhancing Small Business Growth And Contributing To Economic And Public Advancement. We Cater Licensing Terms To Each Business We Work With, Ensuring Mutually Beneficial Agreements. Engage With Our Diverse Technology Offerings To Propel Your Company Forward. learn More About Our Licensing Opportunities And The Support We Provide At Https://inl.gov/technology-deployment/. For Specific Discussions On How Your Business Can Benefit, Please Contact Andrew Rankin At Td@inl.gov. inl’s Technology Deployment Department Focuses Exclusively On Licensing Intellectual Property And Partnering With Industry Collaborators Capable Of Commercializing Our Innovations. Our Goal Is To Commercialize The Technologies Developed By Inl Researchers. We Do Not Engage In Purchasing, Manufacturing, Procurement Decisions, Or Providing Funding. Additionally, This Is Not A Call For External Services To Assist In The Development Of This Technology.

Details: Inl Innovation Spotlight precision Enhancement For Thermocouples: A Leap In Measurement Accuracy this Technology Stabilizes Thermocouples Using Ohmic Heating, Improving Their Accuracy And Lifespan And Meeting The Need For Reliable Temperature Measurements In Various Industries. overview: thermocouples, The Backbone Of Temperature Measurement In Virtually Every Industry, Suffer From Accuracy Drift Over Time, Especially Under High Temperatures Or Radiation. This Affects The Quality And Safety Of Processes And Leads To Frequent Replacements And Downtime. The Idaho National Laboratory (inl) Has Developed A Groundbreaking Method To Extend The Lifespan And Accuracy Of Thermocouples, Addressing These Challenges Head-on. With A Market Spanning From Manufacturing To Aerospace, Where Precision Is Paramount, This Solution Opens The Door To Unprecedented Reliability In Temperature Monitoring. As Industries Strive For Efficiency And Sustainability, The Demand For Durable, Accurate Thermocouples Is More Pronounced Than Ever, Positioning Inl's Technology As A Critical Advancement. description: the Technology Introduces A Precise Method Of Short-range Ordering (sro) On Thermocouple Wires Through Ohmic Heating. This Process Rearranges The Atomic Structure Of The Thermocouple's Alloys To Combat Drift And Instability. This Procedure Can Be Performed In Situ And Post-manufacture, Ensuring That Thermocouples Retain Long-term Accuracy. Unlike Traditional Calibration Methods, Which Are Often Cumbersome And Less Effective, This Approach Uniformly Treats The Entire Length Of The Thermocouple, Ensuring Consistent Accuracy And Significantly Reducing The Potential For Drift. This Method Is A Step Forward In Thermocouple Technology And Represents A Paradigm Shift In How Temperature Is Measured And Managed Across Applications. benefits: enhanced Accuracy And Stability: Ensures High Precision In Temperature Measurement Over An Extended Period. increased Lifespan: Reduces The Need For Frequent Replacements, Offering Substantial Cost Savings And Less Environmental Waste. time And Energy Efficiency: Offers A 100-300x Faster Process Than Traditional Heat Soak Methods, Saving Significant Time And Energy In Calibration. uniform Treatment: Applies Corrections Uniformly Along The Thermocouple Length, Eliminating Discrepancies In Measurement. revolutionary Application Potential: This Can Be Retroactively Applied To Existing Thermocouples In The Field, Enhancing Their Performance Without Needing Complete Replacement. applications: manufacturing And Industrial Processing aerospace And Aviation energy Production, Including Nuclear And Renewable Sources scientific Research And Development Laboratories healthcare And Pharmaceutical Manufacturing. development Status: trl 8 - Testing And Demonstration Were Completed, And The System Was Validated. ip Status: us Patent Application No. 18/525,563, “methods For Heat Treating Thermocouples Using Ohmic Heating And Related System,” Bea Docket No. Ba-1531. inl Tech Partnerships: Your Gateway To Innovation inl Offers Strategic Access To Proprietary Technology, Enhancing Small Business Growth And Contributing To Economic And Public Advancement. We Cater Licensing Terms To Each Business We Work With, Ensuring Mutually Beneficial Agreements. Engage With Our Diverse Technology Offerings To Propel Your Company Forward. learn More About Our Licensing Opportunities And The Support We Provide At Https://inl.gov/technology-deployment/. For Specific Discussions On How Your Business Can Benefit, Please Contact Andrew Rankin At Td@inl.gov. inl’s Technology Deployment Department Focuses Exclusively On Licensing Intellectual Property And Partnering With Industry Collaborators Capable Of Commercializing Our Innovations. Our Goal Is To Commercialize The Technologies Developed By Inl Researchers. We Do Not Engage In Purchasing, Manufacturing, Procurement Decisions, Or Providing Funding. Additionally, This Is Not A Call For External Services To Assist In The Development Of This Technology.

Details: Inl Innovation Spotlight cyber Resilient Trade-off Evaluation (cyrte): Pioneering Strategy For Operational Technology Security cyrte Introduces A Groundbreaking Approach To Evaluate And Enhance The Cyber Resilience Of Operational Technologies (ot), Balancing Security Measures With Operational Integrity. overview: as Critical Infrastructure Increasingly Relies On Networked Control Systems, They Become Vulnerable To Sophisticated Cyber Threats. Traditional Cybersecurity Measures, While Necessary, Often Fall Short In Protecting Ot Systems Effectively. Cyrte Is Developed In Response To This Challenge, Providing A Resilience-informed, Ai-driven Process To Assess The Impact Of Cybersecurity Mitigations On The Operation And Stability Of Ot Systems. This Technology Is Essential For Evaluating Automated Responses In Advance Of Application, Leveraging The Power Of Software Defined Networks And Other Response Technologies That Can Nullify An Intrusion. Industries Where Operational Technology Is Critical, Such As Utilities, Manufacturing, And Transport, Will Be Benefited In Advancing Cyber Resilience, Especially In A Landscape Where Cyber Threats Are Rapidly Evolving And Becoming More Automated. description: cyrte Offers A Novel Methodology For Assessing Cyber-physical Interactions And Their Implications On Ot Systems. It Involves A Comprehensive Evaluation Of Potential Cybersecurity Mitigations And Their Effects On System Performance And Reliability. The Core Of Cyrte Is The Creation Of A "buzzer" Concept – A Unique Tool That Systematically Tests The Resilience Of Ot Systems Against Various Cyber-physical Response Strategies. This Includes The Development Of Digital Twins For Systemic Testing, Ensuring That Cybersecurity Measures Do Not Adversely Affect The Physical Operations Of The System Before Application. By Integrating This Approach Into Existing Engineering Workstations And Design Tools, Cyrte Enables A Holistic Understanding Of Communication Dependencies And Potential Impacts Of Cyber Responses. benefits: enhanced Cyber Resilience: Provides Robust Defense Against Sophisticated Cyber Threats. operational Integrity: Ensures That Cybersecurity Measures Do Not Compromise System Functionality. innovative Assessment Tool: The "buzzer" Concept Uniquely Evaluates Cyber-physical Responses. systemic Testing: Utilizes Digital Twins For Safe And Comprehensive Testing Scenarios. industry Versatility: Applicable Across Various Sectors Reliant On Operational Technologies. applications: critical Infrastructure Systems Like Power Grids, Water Treatment Facilities, And Transportation Networks. manufacturing And Industrial Control Systems. utilities And Energy Sector, Including Nuclear And Renewable Energy Plants. chemical And Process Industries. research And Development In Cybersecurity For Operational Technologies. development Status: technology Readiness Level (trl) 2: Technology Concept And/or Application Formulated. ip Status: us Patent Application No. 18/465,852, “cyber Resilient Trade-off Evaluation Systems For Operational Technology Environments, Including Related Methods And Computer Readable Media,” Bea Docket No. Ba-1407. inl Tech Partnerships: Your Gateway To Innovation inl Offers Strategic Access To Proprietary Technology, Enhancing Small Business Growth And Contributing To Economic And Public Advancement. We Cater Licensing Terms To Each Business We Work With, Ensuring Mutually Beneficial Agreements. Engage With Our Diverse Technology Offerings To Propel Your Company Forward. learn More About Our Licensing Opportunities And The Support We Provide At Https://inl.gov/technology-deployment/. For Specific Discussions On How Your Business Can Benefit, Please Contact Andrew Rankin At Td@inl.gov. inl’s Technology Deployment Department Focuses Exclusively On Licensing Intellectual Property And Partnering With Industry Collaborators Capable Of Commercializing Our Innovations. Our Goal Is To Commercialize The Technologies Developed By Inl Researchers. We Do Not Engage In Purchasing, Manufacturing, Procurement Decisions, Or Providing Funding. Additionally, This Is Not A Call For External Services To Assist In The Development Of This Technology.

Details: Inl Innovation Spotlight advanced Radiation Monitoring: Fieldable Long-length Scintillating Fibers this Technology Uses Durable, Long Scintillating Fibers Combined With Regular Optical Fibers For Effective And Extensive Radiation Detection And Monitoring In Tough Environments. overview: radiation Monitoring In Hard-to-reach Areas, Such As Nuclear Repositories, Waste Facilities, And Medical Irradiation Therapy Facilities, Presents Significant Challenges. The International Atomic Energy Agency (iaea) Recognizes The Crucial Need For Advanced Tools To Protect These Sensitive Sites. This Technology Utilizes Long-length Scintillating Fibers, Exceeding 10 Meters, Combined With Standard Optical Fibers Longer Than 100 Meters. It Offers An Efficient Solution For Monitoring Vast And Inaccessible Areas. The Technology's Innovative Approach Includes The Use Of Ruggedized Fibers, Mirrors To Enhance Signal Return, And A Light Source For Integrity Verification, Addressing A Gap In The Current Market. description: the Invention Introduces Scintillating Fibers That Function As Flexible Linear Radiation Detectors. These Fibers Are Connected To Longer Standard Optical Fibers, Enabling The Remote Placement Of The Scintillation-light Detection Electronics. To Ensure Protection, The Fibers Are Enclosed In Furcation Tubing, And A Mirror Is Used At One End To Enhance Signal Return. Furthermore, A Pulsed Light Source Is Utilized To Verify The Fiber's Integrity, Guaranteeing Tamper-proof Operation. This Design Offers A Versatile And Comprehensive Radiation Monitoring System That Can Be Applied In Various Environments And Applications, Ranging From Geological Repositories To Medical Facilities. benefits: extended Reach: Capable Of Monitoring Remote And Inaccessible Areas. ruggedized Design: Protected Against Physical Damage And External Light Interference. enhanced Signal Integrity: Mirrors And Pulsed Light Sources Ensure Accurate And Reliable Readings. flexible Deployment: Adaptable To Various Environments And Site-specific Requirements. safety And Security: Essential For Monitoring Sensitive Nuclear And Medical Sites. applications: monitoring Of Radioactive Waste In Geological Repositories. surveillance Of Nuclear Material Storage And Spent Fuel Dry Storage Areas. radiation Detection In Inaccessible Areas Within Nuclear Reactors And Reprocessing Facilities. safety Monitoring In Medical Radioisotope Production And Irradiation Therapy Facilities. environmental Monitoring Of Radiation-contaminated Sites. development Status: technology Readiness Level (trl) 5: Laboratory/bench Scale, Similar System Validation In A Relevant Environment. ip Status: us Patent Application No. 18/501,888, “radiation Monitoring Systems, Radioactive Material Storage Systems, And Associated Components And Methods,” Bea Docket No. Ba-1432. inl Tech Partnerships: Your Gateway To Innovation inl Offers Strategic Access To Proprietary Technology, Enhancing Small Business Growth And Contributing To Economic And Public Advancement. We Cater Licensing Terms To Each Business We Work With, Ensuring Mutually Beneficial Agreements. Engage With Our Diverse Technology Offerings To Propel Your Company Forward. learn More About Our Licensing Opportunities And The Support We Provide At Https://inl.gov/technology-deployment/. For Specific Discussions On How Your Business Can Benefit, Please Contact Andrew Rankin At Td@inl.gov. inl’s Technology Deployment Department Focuses Exclusively On Licensing Intellectual Property And Partnering With Industry Collaborators Capable Of Commercializing Our Innovations. Our Goal Is To Commercialize The Technologies Developed By Inl Researchers. We Do Not Engage In Purchasing, Manufacturing, Procurement Decisions, Or Providing Funding. Additionally, This Is Not A Call For External Services To Assist In The Development Of This Technology.

Details: Inl Innovation Spotlight innovative Data Concealment For Secure Ai Research: The Diod Methodology the Diod Methodology Offers A Groundbreaking Approach To Share Critical Data For Ai Research, Ensuring Confidentiality While Maintaining Data Utility. overview: in The Era Of Big Data, It Is Crucial To Share Information Across Platforms And Organizations For Innovation, Especially In Fields Like Ai Research. However, The Risk Of Sensitive Data Being Reverse-engineered Or Compromised Poses A Significant Challenge. Traditional Data Anonymization Techniques Often Fall Short, Either By Limiting Data Utility Or Failing To Fully Protect Against Data Breaches. the Diod (deceptive Infusion Of Data) Methodology Emerges As A Solution, Particularly Relevant For Industries Where Data Sharing Is Essential Yet Risky, Such As Defense, Healthcare, And Energy. Its Market Potential Is Vast, Considering The Increasing Reliance On Ai For Materials Discovery, Energy Optimization, And Security. description: the Diod Methodology Is An Innovative Approach To Data Sharing That Successfully Hides The Identity Of The System From Which Data Originates, While Still Maintaining The Functional Dependencies Required For Ai Research. It Employs A Non-invertible Process To Introduce Deception Into The Data, Ensuring The Confidentiality Of The Original System's Governing Laws. Unlike Traditional Methods That Can Often Degrade Data Quality Or Provide Incomplete Protection, Diod Preserves The Crucial Correlations Needed For Ai Analysis. This Enables Researchers To Utilize The Data Without Jeopardizing The Exposure Of Proprietary Information. benefits: enhanced Security: Enables Data Sharing While Protecting Sensitive System Information. preserved Data Utility: Maintains Crucial Correlations And Functional Dependencies For Ai Research. scalability: Provides An Efficient Solution For Different Data Sizes And Types. compatibility: Applicable Across Various Scientific And Industrial Sectors Without Compromising Data Integrity. innovation In Anonymization: Represents A Significant Advancement Beyond Traditional Data Protection Methods Such As K-anonymity And Encryption. applications: defense And Military: Facilitating Secure Sharing Of Data Related To New Technologies, While Maintaining The Confidentiality Of Critical Information. healthcare: Enabling The Sharing Of Patient Data For Research Purposes, While Ensuring The Full Protection Of Personal Information. energy Sector: Facilitating The Exchange Of Data On Energy Generation And Storage Innovations, While Safeguarding Proprietary Processes. ai And Machine Learning Research: Providing Benchmark Datasets For The Development And Testing Of Ai Algorithms, Without Any Concerns Regarding The Origin Of The Data. development Status: technology Readiness Level (trl) 1: Basic Principles Observed And Reported. ip Status: provisional Patent Filing No. 63/515,835, “systems And Methods For Objective Management,” Bea Docket No. Ba-1494. inl Tech Partnerships: Your Gateway To Innovation inl Offers Strategic Access To Proprietary Technology, Enhancing Small Business Growth And Contributing To Economic And Public Advancement. We Cater Licensing Terms To Each Business We Work With, Ensuring Mutually Beneficial Agreements. Engage With Our Diverse Technology Offerings To Propel Your Company Forward. learn More About Our Licensing Opportunities And The Support We Provide At Https://inl.gov/technology-deployment/. For Specific Discussions On How Your Business Can Benefit, Please Contact Andrew Rankin At Td@inl.gov. inl’s Technology Deployment Department Focuses Exclusively On Licensing Intellectual Property And Partnering With Industry Collaborators Capable Of Commercializing Our Innovations. Our Goal Is To Commercialize The Technologies Developed By Inl Researchers. We Do Not Engage In Purchasing, Manufacturing, Procurement Decisions, Or Providing Funding. Additionally, This Is Not A Call For External Services To Assist In The Development Of This Technology.

Details: Caldera Charge: Innovating Ev Charging Infrastructure Simulation For Grid Efficiency And Sustainability as Electric Vehicles (evs) Become Increasingly Prevalent, The Imperative For Sophisticated Charging Infrastructure And Intelligent Grid Management Intensifies. Caldera Charge Is An Advanced Simulation Platform Uniquely Designed To Explore These Challenges, Offering Critical Insights Into Ev Charging's Grid Impact And Fostering Innovative Charging Solutions. the Surge In Electric Vehicle Adoption Introduces A Complex New Dynamic To Energy Consumption, Significantly Affecting Our Electrical Grids. Before Caldera Charge, A Holistic Tool To Model The Interplay Between Ev Charging Infrastructure And Grid Performance Was Missing, Creating A Barrier To Developing Effective Strategies To Sustainably Support The Rising Demand For Electricity. This Gap Left Utilities, Municipalities, And Service Providers Searching For Actionable Insights. supported By The Doe's Vehicle Technologies Office And Office Of Electricity, Caldera Charge Is A Leading Edge In Ev Charging Simulation. It Features Two Core Components: The Infrastructure Charging Module (icm) And The Charging Decision Module (cdm). The Icm Focuses On High-fidelity Ev Charging Models And Intelligent Charging Algorithms, Accurately Simulating The Direct Impact Of Ev Charging On The Grid. Meanwhile, The Cdm Offers Innovative Scheduling Mechanisms, Allowing For Studying Charging Strategies And Pricing Models To Optimize Public Charging Infrastructure. Written In C++11 For Computational Efficiency And Python For Adaptable Co-simulation, Caldera Charge Enables Detailed Analysis And Strategic Planning Across Transportation And Electrical Networks Through The Helics Co-simulation Framework. advantages: targeted Simulation Modules: Distinct Modules For Infrastructure Modeling (icm) And Decision Strategies (cdm) Cater To Specific Aspects Of Ev Charging And Grid Interaction. accurate Grid Impact Analysis: Employs Extensive Data For Precise Modeling Of Charging Behavior Under Diverse Grid Conditions. innovative Charging Management: Implements Cutting-edge Algorithms For Intelligent Charging, Minimizing Grid Strain During Peak Demand. scalable And Flexible Design: Supports High-performance Computing And Integrates C++11 And Python For Comprehensive Simulation Scenarios. comprehensive Co-simulation Capability: Bridges Transportation And Grid Simulations, Assessing Wide-ranging Effects Of Ev Charging. applications: utility Companies: To Strategically Manage Grid Loads And Enhance Power Distribution Reliability In Response To Ev Charging Demands. urban And Transportation Planners: For Integrating Sustainable Ev Charging Solutions Within Urban Development And Public Transport Systems. academic And Research Institutions: To Conduct In-depth Studies On Ev Integration Impacts And Develop Future Energy Frameworks. ev Charging Service Providers: Optimizing Network Operations And Charging Station Deployment For Efficiency And User Satisfaction. policy Makers And Regulatory Bodies: Informing Policy And Regulatory Guidelines To Support The Transition To Electric Mobility. unlock The Potential Of Caldera Charge To Revolutionize Your Ev Charging Infrastructure Planning And Grid Management Strategies. Explore Our Comprehensive Simulation Platform And Contribute To Shaping The Future Of Electric Mobility And Energy Efficiency. Visit Our Github Pages For Caldera Grid And Caldera Icm To Access The Software And Documentation And Become Part Of Our Innovative Community. inl’s Technology Deployment Department Focuses Exclusively On Licensing Intellectual Property And Partnering With Industry Collaborators Capable Of Commercializing Our Innovations. Our Goal Is To Commercialize The Technologies Developed By Inl Researchers. We Do Not Engage In Purchasing, Manufacturing, Procurement Decisions, Or Providing Funding. Additionally, This Is Not A Call For External Services To Assist In The Development Of This Technology.

Description: Dynamic Acquisition System (SAD) - Supply of Collective Catering Equipment for GHT 72 Member Establishments