{"id":15,"date":"2012-10-18T12:39:54","date_gmt":"2012-10-18T16:39:54","guid":{"rendered":"http:\/\/www.holtecinternational.com\/website\/?page_id=15"},"modified":"2022-05-03T14:24:14","modified_gmt":"2022-05-03T18:24:14","slug":"patents-list","status":"publish","type":"page","link":"https:\/\/holtecinternational.com\/innovation\/patents-list\/","title":{"rendered":"Patents"},"content":{"rendered":"\n

The following list contains patents held by 澳门六合彩开奖结果2023 that have been granted or are in process:<\/p>\n\n\n
Title<\/th>Year<\/th>Equipment Type<\/th>Docket<\/th>Patent No.<\/th>Status<\/th>hf:tags<\/th><\/tr><\/thead>
A Cask for Inter-Overpack Transfer of a Canister Containing Used Nuclear Fuel or Non-Fuel Waste<\/a><\/td>2024<\/td>HI-TRAC<\/span><\/a><\/td>HOL-168<\/td>63\/573,038<\/td>Provisional<\/td>hi-trac<\/td><\/tr>
Hybrid Solar Power Plant<\/a><\/td>2024<\/td>HI-THERM<\/span><\/a><\/td>HOL-167<\/td><\/td>Provisional<\/td>hi-therm<\/td><\/tr>
An Innovative Design Strategy to Protect a Nuclear Plant Steam GeneratorAgainst Earthquakes and Radiation<\/a><\/td>2023<\/td>SMR-300<\/span><\/a><\/td>HOL-165<\/td>63\/615,883<\/td>Provisional<\/td>smr-300<\/td><\/tr>
A Novel Design Approach to House a Nuclear Reactor in a Subterranean Cavity<\/a><\/td>2023<\/td>SMR-300<\/span><\/a><\/td>HOL-164-P<\/td>63\/615,872<\/td>Provisional<\/td>smr-300<\/td><\/tr>
Radiation Shielded Enclosure for Spent Nuclear Fuel Cask<\/a><\/td>2023<\/td>Shield Jacket<\/span><\/a><\/td>HOL-130<\/td>US 11,521,761 B2, US 11,798,699 B2<\/td>Granted<\/td>shield-jacket<\/td><\/tr>
System and Method for Preparing a Container Loaded with Wet Radioactive Elements for Dry Storage<\/a><\/td>2023<\/td>FHD<\/span><\/a><\/td>HOL-002<\/td>US 10,839,969 B2, US 8,561,318, US 9,165,690 B2, US 10,229,764 B2, EP 2 227 655 B1, EP 3 364 136 B1, US 11,742,102 B2<\/td>Granted<\/td>fhd<\/td><\/tr>
Ventilated Cask for Nuclear Waste Storage<\/a><\/td>2023<\/td>HI-STORM FW<\/span><\/a><\/td>HOL-148<\/td>US 11,735,327 B2<\/td>Granted<\/td>hi-storm-fw<\/td><\/tr>
High-Density Subterranean Storage System for Nuclear Fuel and Radioactive Waste<\/a><\/td>2023<\/td>HI-STORM CIS<\/span><\/a><\/td>HOL-078<\/td>US 10,950,361 B2, US 10,446,287 B2, US 9,852,822 B2, US 11,469,008 B2, US 11,728,061 B2<\/td>Granted<\/td>hi-storm-cis<\/td><\/tr>
An Impact Amelioration Device to Minimize Deceleration Loads from Colliding Hard Surfaces<\/a><\/td>2023<\/td>Transfer Cask<\/span><\/a><\/td>HOL-133<\/td>US 11,721,447 B2<\/td>Granted<\/td>transfer-cask<\/td><\/tr>
Fuel Basket for Spent Nuclear Fuel and Container Implementing the Same<\/a><\/td>2023<\/td>MPC<\/span><\/a><\/td>HOL-100<\/td>US 10,854,346 B2, 10-2039918, US 11,715,575 B2<\/td>Granted<\/td>mpc<\/td><\/tr>
System and Method of Storing and\/or Transferring High Level Radioactive Waste<\/a><\/td>2023<\/td>HI-STORM UMAX<\/span><\/a><\/td>HOL-060<\/td>US 10,892,063 B2, US 9,831,005 B2, US 11,694,817 B2<\/td>Granted<\/td>umax<\/td><\/tr>
Nuclear Fuel Storage System with Integral Shimming<\/a><\/td>2023<\/td>Fuel Basket<\/span><\/a><\/td>HOL-132<\/td>US 11,289,229 B2, US 11,670,430 B2<\/td>Granted<\/td>fuel-basket<\/td><\/tr>
Storage and Transport Cask for Nuclear Waste<\/a><\/td>2023<\/td>HI-STAR<\/span><\/a><\/td>HOL-135<\/td>US 11,373,775 B2, US 11,610,696 B2<\/td>Granted<\/td>hi-star<\/td><\/tr>
Air-Cooled Condenser System<\/a><\/td>2023<\/td>Air Cooled Condenser<\/span><\/a><\/td>HOL-118<\/td>US 11,204,201 B2, US 11,604,030 B2<\/td>Granted<\/td>air-cooled-condenser<\/td><\/tr>
Macro-Chip Reinforced Alloy<\/a><\/td>2023<\/td>METAMIC-HT<\/span><\/a><\/td>HOL-097<\/td>US 10,843,272 B2, US 11,590,573 B2<\/td>Granted<\/td>metamic-ht<\/td><\/tr>
Autonomous Self-Powered System for Removing Thermal Energy from Pools of Liquid Heated by Radioactive Materials<\/a><\/td>2023<\/td>DREAM<\/span><\/a><\/td>HOL-024<\/td>US 10,991,472 B2, US 8,681,924 B2, US 8,158,962 B1, US 11,569,001 B2<\/td>Granted<\/td>dream<\/td><\/tr>
Brazing Compositions and Uses Thereof<\/a><\/td>2023<\/td>Air Cooled Condenser<\/span><\/a><\/td>HOL-075<\/td>US 10,512,990 B2, US 11,541,484 B2<\/td>Granted<\/td>air-cooled-condenser<\/td><\/tr>
Method of Retrofitting a Spent Nuclear Fuel Storage System<\/a><\/td>2022<\/td>Compact Fuel Dehydrator<\/span><\/a><\/td>HOL-085<\/td>US 10,867,714 B2, US 10,297,356 B2, US 9,640,289 B2, EP 3134900, US 11,515,054 B2<\/td>Granted<\/td>compact-fuel-dehydrator<\/td><\/tr>
Flow Baffles for Shell and Tube Heat Exchangers<\/a><\/td>2022<\/td>Heat Exchanger<\/span><\/a><\/td>HOL-119<\/td>US 11,512,902 B2<\/td>Granted<\/td>heat-exchanger<\/td><\/tr>
Nuclear Waste Storage Canisters, Welds, and Method of Fabricating the Same<\/a><\/td>2022<\/td>MPC<\/span><\/a><\/td>HOL-105<\/td>US 11,515,056 B2, CN ZL2016800621786<\/td>Granted<\/td>mpc<\/td><\/tr>
Air-Cooled Condenser and Related Methods<\/a><\/td>2022<\/td>Airblast HX<\/span><\/a><\/td>HOL-048<\/td>US 10,854,344 B2, US 9,786,395 B2, US 11,504,814 B2<\/td>Granted<\/td>airblast-hx<\/td><\/tr>
Automated Eddy Current Tube Tester<\/a><\/td>2022<\/td>Heat Exchanger<\/span><\/a><\/td>HOL-155<\/td><\/td>Provisional<\/td>heat-exchanger<\/td><\/tr>
Cooling System for Casks Containing High Level Nuclear Waste<\/a><\/td>2022<\/td>Wet Storage<\/span><\/a><\/td>HOL-127<\/td>US 11,488,737 B2<\/td>Granted<\/td>wet-storage<\/td><\/tr>
Storage System for Radioactive Nuclear Waste with Pressure Surge Protection<\/a><\/td>2022<\/td>Fuel Basket<\/span><\/a><\/td>HOL-137<\/td>US 11,443,862 B2<\/td>Granted<\/td>fuel-basket<\/td><\/tr>
A Novel Impact Limiter Embodiment for Transport Casks for Radioactive Materials and a Thermal Shield Design to Protect the Cask\u2019s Containment Seals during the Postulated Design Basis Fire Event<\/a><\/td>2022<\/td><\/td><\/td><\/td>Provisional<\/td><\/td><\/tr>
Passive Cooling Device for Casks Containing Nuclear Fuel<\/a><\/td>2022<\/td>Transfer Cask<\/span><\/a><\/td>HOL-126<\/td>US 11,410,784 B2<\/td>Granted<\/td>transfer-cask<\/td><\/tr>
Nuclear Reactor Vessel Support System<\/a><\/td>2022<\/td>SMR-300<\/span><\/a><\/td>HOL-041<\/td>US 11,393,598 B2, US 10,726,962 B2<\/td>Granted<\/td>smr-300<\/td><\/tr>
Ventilated Transfer Cask<\/a><\/td>2022<\/td>HI-STORM<\/span><\/a><\/td>HOL-043<\/td>US 11,373,774 B2, US 10,811,154 B2, US 9,514,853 B2, US 8,905,259 B2, US 9,396,824, US 9,831,005, US 9,442,037, US 9,779,843, US 9,466,400<\/td>Granted<\/td>hi-storm<\/td><\/tr>
System and Methods for Storing Spent Nuclear Fuel<\/a><\/td>2022<\/td>HI-STORM 100U<\/span><\/a><\/td>HOL-014<\/td>US 9,916,911 B2, US 8,098,790, US 8,625,732, US 7,068,748, US 11,342,091 B2<\/td>Granted<\/td>hi-storm-100u<\/td><\/tr>
A Novel Technology to Convert Operating Fossil Burning Power Plants into Energy Storage and On-Demand Clean Power Generation Units<\/a><\/td>2022<\/td>Green Boiler<\/span><\/a><\/td>HOL-147<\/td>63\/297,899<\/td>Pending<\/td>green-boiler<\/td><\/tr>
A Device to Prevent Rattling of Free-Standing Components Under Earthquake or other Vibratory Loads<\/a><\/td>2022<\/td>HI-STORM UMAX<\/span><\/a><\/td>HOL-142<\/td>63\/176,496<\/td>Pending<\/td>hi-storm-umax<\/td><\/tr>
Nuclear Reactor Shroud<\/a><\/td>2022<\/td>SMR-300<\/span><\/a><\/td>HOL-080<\/td>US 11,289,219 B2, US 9,773,576 B2, US 10,580,539 B2, EP 2 962 306 B1<\/td>Granted<\/td>smr-300<\/td><\/tr>
Spent Nuclear Fuel Canister<\/a><\/td>2022<\/td>MPC<\/span><\/a><\/td>HOL-125<\/td>US 11,289,227 B2<\/td>Granted<\/td>mpc<\/td><\/tr>
Spent Nuclear Fuel Cask with Dose Attenuation Devices<\/a><\/td>2022<\/td>Fuel Basket<\/span><\/a><\/td>HOL-122<\/td>US 11,282,615 B2<\/td>Granted<\/td>fuel-basket<\/td><\/tr>
Manifold system for the ventilated storage of high level waste and a method of using the same to store high level waste in a below-grade environment<\/a><\/td>2022<\/td>HI-STORM 100M<\/span><\/a><\/td>HOL-009<\/td>US 11,264,142 B2, US 10,614,924 B2, US 9,761,339 B2, US 8,718,220 B2, US 7,676,016<\/td>Granted<\/td>hi-storm-100m<\/td><\/tr>
Nuclear Fuel Storage Facility<\/a><\/td>2022<\/td>HI-STORM<\/span><\/a><\/td>HOL-018<\/td>US 11,250,963 B2, US 10,373,722 B2, \u00a0US 9,443,625, US 8,351,562, US 7,933,374, US 7,330,526<\/td>Granted<\/td>hi-storm<\/td><\/tr>
Manufacturing Methods to Fortify Nuclear Waste Canisters from Stress Corrosion Cracking<\/a><\/td>2022<\/td>MPC<\/span><\/a><\/td>HOL-113<\/td>US 11,250,962 B2<\/td>Granted<\/td>mpc<\/td><\/tr>
Method for Preparing Spent Nuclear Fuel for Dry Storage<\/a><\/td>2022<\/td>FHD<\/span><\/a><\/td>HOL-008<\/td>US 11,217,353 B2, US 10,535,439 B2, US 9,761,338 B2, US 8,737,559 B2, US 8,266,823 B2, US 7,707,741 B2, EP 1 888 988 B1<\/td>Granted<\/td>fhd<\/td><\/tr>
Dream Insert for Grand Gulf Racks<\/a><\/td>2021<\/td>DREAM<\/span><\/a><\/td>HOL-150<\/td>63\/285,502<\/td>Pending<\/td>dream<\/td><\/tr>
Optimized Nuclear Fuel Core Design for a Small Modular<\/a><\/td>2021<\/td>SMR-300<\/span><\/a><\/td>HOL-115<\/td>US 11,205,521 B2<\/td>Granted<\/td>smr-300<\/td><\/tr>
Heat Exchanger for Severe Service Conditions<\/a><\/td>2021<\/td>Heat Exchanger<\/span><\/a><\/td>HOL-116<\/td>US 11,187,471 B2, CN ZL2018800462204<\/td>Provisional<\/td>heat-exchanger<\/td><\/tr>
Fuel Storage Device with Prismatic Hexagonal or Rectangular Cross-Section Cells<\/a><\/td>2021<\/td>Fuel Rack<\/span><\/a><\/td>HOL-149<\/td>63\/271,849<\/td>Pending<\/td>fuel-rack<\/td><\/tr>
Steam Generator for Nuclear Steam Supply System<\/a><\/td>2021<\/td>SMR-300<\/span><\/a><\/td>HOL-083<\/td>US 11,120,920 B2, US 10,510,452, US 10,395,783 B2<\/td>Granted<\/td>smr-300<\/td><\/tr>
A Fail-Safe Control Rod Drive System for Nuclear Reactor<\/a><\/td>2021<\/td>CRDS<\/span><\/a>, SMR-300<\/span><\/a><\/td>HOL-067<\/td>US 11,094,421 B2, US 10,573,419 B2, US 10,573,418 B2, US 9,496,057<\/td>Granted<\/td>crds smr-300<\/td><\/tr>
Nuclear Waste Cask with Impact Protection<\/a><\/td>2021<\/td>HI-STAR 100<\/span><\/a><\/td>HOL-131<\/td>US 11,081,249 B2<\/td>Granted<\/td>hi-star-100<\/td><\/tr>
Container for Storing And\/Or Transporting Spent Nuclear Fuel<\/a><\/td>2021<\/td>HI-STAR<\/span><\/a><\/td>HOL-108<\/td>US 11,081,248 B2, US 10,410,756 B2, EP 3264419, KR 10,2139794<\/td>Granted<\/td>hi-star<\/td><\/tr>
Multi-Component Cask for Storage and Transport of Spent Nuclear Fuel<\/a><\/td>2021<\/td>Transfer Cask<\/span><\/a><\/td>HOL-123<\/td>US 11,043,312 B2<\/td>Granted<\/td>transfer-cask<\/td><\/tr>
Method for Heating a Primary Coolant in a Nuclear Steam Supply System<\/a><\/td>2021<\/td>SMR-300<\/span><\/a><\/td>HOL-068<\/td>US 11,031,146 B2, US 10,102,936 B2<\/td>Granted<\/td>smr-300<\/td><\/tr>
System and Method for Minimizing Movement of Nuclear Fuel Racks During a Seismic Event<\/a><\/td>2021<\/td>Fuel Rack<\/span><\/a><\/td>HOL-071<\/td>US 11,017,908 B2, US 9,991,010 B2<\/td>Granted<\/td>fuel-rack<\/td><\/tr>
Stacked Column of Vertical Ventilated Modules to Store Canisters Contained Used Nuclear Fuel or High-Level Waste<\/a><\/td>2021<\/td>HI-STORM UMAX<\/span><\/a><\/td>HOL-145<\/td>63\/189,383<\/td>Pending<\/td>hi-storm-umax<\/td><\/tr>
Vertical Ventilated Storage Module for High-Level Waste with Canisters Arrayed on Subterranean Support Pad<\/a><\/td>2021<\/td>HI-STORM UMAX<\/span><\/a><\/td>HOL-146<\/td>63\/189,423<\/td>Pending<\/td>hi-storm-umax<\/td><\/tr>
Harnessing Decay Heat Produced by Spent Nuclear Fuel Stored in Plant to Conserve Energy<\/a><\/td>2021<\/td>Wet Storage<\/span><\/a><\/td>HOL-143<\/td>63\/178,000<\/td>Pending<\/td>wet-storage<\/td><\/tr>
System for Low Profile Translation of High Level Radioactive Waste<\/a><\/td>2021<\/td>HI-STORM<\/span><\/a><\/td>HOL-030<\/td>US 10,939,787 B2, US 10,446,285 B2, US 9,728,286 B2, US 8,345,813 B2<\/td>Granted<\/td>hi-storm<\/td><\/tr>
Nuclear Fuel Core, Nuclear Fuel Cartridge, and Methods of Fueling and\/or Defueling a Nuclear Reactor<\/a><\/td>2021<\/td>SMR-300<\/span><\/a><\/td>HOL-066<\/td>US 10,923,239 B2, US 9,865,363 B2<\/td>Granted<\/td>smr-300<\/td><\/tr>
Self-Aligning Neutron Absorbing Apparatus for Reactivity Mitigation in Nuclear Fuel Storage Systems<\/a><\/td>2021<\/td>Fuel Rack<\/span><\/a>, Wet Storage<\/span><\/a><\/td>HOL-111<\/td>US 10,910,119 B2, US 10,418,137 B2<\/td>Granted<\/td>fuel-rack wet-storage<\/td><\/tr>
Flood and Wind Resistant Ventilated Module for Storing Used Fuel Canisters<\/a><\/td>2020<\/td>MPC<\/span><\/a><\/td>HOL-124<\/td>US 10,878,973 B2<\/td>Granted<\/td>mpc<\/td><\/tr>
Apparatus for Storing and\/or Transporting Radioactive Materials<\/a><\/td>2020<\/td>HI-STORM<\/span><\/a><\/td>HOL-107<\/td>US 10,861,612 B2, US 10,515,730 B2<\/td>Granted<\/td>hi-storm<\/td><\/tr>
High Earthquake-Resistant Fuel Storage Rack System for Fuel Pools in Nuclear Plants<\/a><\/td>2020<\/td>Fuel Rack<\/span><\/a><\/td>HOL-114<\/td>US 10,847,274 B2, 10-2103451<\/td>Granted<\/td>fuel-rack<\/td><\/tr>
Deeply Imbedded Ventilate Storage (DTVS) System for Used Nuclear Fuel & High-Level Waste<\/a><\/td>2020<\/td>HI-STORM UMAX<\/span><\/a><\/td>HOL-139<\/td>63\/123,706<\/td>Provisional<\/td>hi-storm-umax<\/td><\/tr>
Passive Reactor Cooling System<\/a><\/td>2020<\/td>Fuel Rack<\/span><\/a><\/td>HOL-081<\/td>US 10,720,249 B2, US 9,589,685 B2, EP 2 842 135 B1, 6442489, EP 3 005 373 B1<\/td>Granted<\/td>fuel-rack<\/td><\/tr>
Method of Storing High Level Radioactive Waste<\/a><\/td>2020<\/td>HI-STORM<\/span><\/a><\/td>HOL-120<\/td>US 10,714,223 B2<\/td>Granted<\/td>hi-storm<\/td><\/tr>
Thermal Sleeve and Variable Vent Throttling to protect Used Fuel Bearing Canisters from Stress Corrosion Cracking in a Ventilated Storage System<\/a><\/td>2020<\/td>MPC<\/span><\/a><\/td>HOL-138<\/td>63\/043,812<\/td>Pending<\/td>mpc<\/td><\/tr>
Container and System for Handling Damaged Nuclear Fuel, and Method of Making the Same<\/a><\/td>2020<\/td>Damaged Fuel Canister<\/span><\/a><\/td>HOL-053<\/td>US 10,692,617 B2, US 9,748,009 B2<\/td>Granted<\/td>damaged-fuel-canister<\/td><\/tr>
Atomized Pisoscale Composite Aluminum Alloy and Method Thereof<\/a><\/td>2020<\/td>METAMIC-HT<\/span><\/a><\/td>HOL-045<\/td>US 10,676,805 B2, US 10,202,674 B2, US 9,551,048 B2, EU 2081713<\/td>Granted<\/td>metamic-ht<\/td><\/tr>
Component Cooling Water System for Nuclear Power Plant<\/a><\/td>2020<\/td>CCW<\/span><\/a>, SMR-300<\/span><\/a><\/td>HOL-070<\/td>US 10,672,523 B2, US 9,786,394 B2<\/td>Granted<\/td>ccw smr-300<\/td><\/tr>
Space Saver Flanged Joint for a Nuclear Reactor Vessel<\/a><\/td>2020<\/td>SMR-300<\/span><\/a><\/td>HOL-062<\/td>US 10,665,357 B2, US 9,892,806 B2<\/td>Granted<\/td>smr-300<\/td><\/tr>
Loss-of-Coolant Accident Reactor Cooling System<\/a><\/td>2020<\/td>SMR-300<\/span><\/a><\/td>HOL-082<\/td>US 10,665,354 B2, US 10,069,389 B2, JP 6454692, EP 3005374<\/td>Granted<\/td>smr-300<\/td><\/tr>
Rack for Underwater Storage of Spent Nuclear Fuel<\/a><\/td>2020<\/td>Fuel Rack<\/span><\/a><\/td>HOL-093<\/td>US 10,650,933 B2, CN ZL2015800601538, KR 10-232322, KR 10-2406322<\/td>Granted<\/td>fuel-rack<\/td><\/tr>
A Device for Cooling Fan Motors Used in Induced Draft Air Cooler Condensers<\/a><\/td>2020<\/td>Air Cooled Condenser<\/span><\/a><\/td>HOL-136<\/td>62\/986,401<\/td>Pending<\/td>air-cooled-condenser<\/td><\/tr>
Heavily Shielded Unventilated Cask for Storing Nuclear Waste<\/a><\/td>2020<\/td>MPC<\/span><\/a><\/td>HOL-134<\/td>62\/969,183<\/td>Pending<\/td>mpc<\/td><\/tr>
Snap-in Insert for Reactivity Control in Spent Nuclear Fuel Pools and Casks<\/a><\/td>2020<\/td>Vertical Air Cooled Condenser<\/span><\/a><\/td>HOL-064<\/td>US 10,535,440 B2, US 9,685,248 B2<\/td>Granted<\/td>vertical-air-cooled-condenser<\/td><\/tr>
Autonomous self-powered system for removing thermal energy from pools of liquid heated by radioactive materials, and method of the same<\/a><\/td>2019<\/td>HI-COOL<\/span><\/a><\/td>HOL-047<\/td>US 10,472,996 B2, US 9,803,510 B2<\/td>Granted<\/td>hi-cool<\/td><\/tr>
Environmentally Sequestered Spent Fuel Pool<\/a><\/td>2019<\/td>Spent Fuel Pool<\/span><\/a><\/td>HOL-092<\/td>US 10,468,145 B2, EP 3 204 949 B1, KR 10-1956628<\/td>Granted<\/td>spent-fuel-pool<\/td><\/tr>
System and Method for Reclaiming Energy from Heat Emanating from Spent Nuclear Fuel<\/a><\/td>2019<\/td>HI-STORM UMAX<\/span><\/a><\/td>HOL-042<\/td>US 10,418,136 B2, US 9,001,958 B2<\/td>Granted<\/td>umax<\/td><\/tr>
A Portable Robotic Welder<\/a><\/td>2019<\/td>Portable Robotic Welder<\/span><\/a><\/td>HOL-129<\/td>62\/887,984<\/td>Pending<\/td>portable-robotic-welder<\/td><\/tr>
Vertical Bundle Air Cooled Heat Exchanger, Method of Manufacturing the Same, and Power Generation Plant Implementing the Same<\/a><\/td>2019<\/td>Air Cooled Heat Exchanger<\/span><\/a><\/td>HOL-051<\/td>US 10,343,240 B2, US 9,770,794 B2<\/td>Granted<\/td>air-cooled-heat-exchanger<\/td><\/tr>
Apparatus for Storing and\/or Transporting High Level Radioactive Waste, and Method for Manufacturing the Same<\/a><\/td>2019<\/td>HI-STORM FW<\/span><\/a><\/td>HOL-025<\/td>US 10,332,642 B2<\/td>Granted<\/td>hi-storm-fw<\/td><\/tr>
Air Induced-Draft Air-Cooled Condenser Amenable to Efficient On-Site Assembly<\/a><\/td>2019<\/td>Air Cooled Condenser<\/span><\/a><\/td>HOL-128<\/td><\/td>Provisional<\/td>air-cooled-condenser<\/td><\/tr>
Wet Storage Facility for Nuclear Fuel<\/a><\/td>2019<\/td>HI-WEST<\/span><\/a><\/td>HOL-089<\/td>US 10,311,987 B2, EP 3 195 325 B1<\/td>Granted<\/td>hi-west<\/td><\/tr>
Tubular Heat Exchanger Having Multiple Shell-Side and Tube-Side Fluid Passes<\/a><\/td>2019<\/td>Heat Exchanger<\/span><\/a><\/td>HOL-102<\/td>US 10,295,266 B2<\/td>Granted<\/td>heat-exchanger<\/td><\/tr>
Dry Cooling System for Power Plants<\/a><\/td>2018<\/td>Air Blast Chiller<\/span><\/a><\/td>HOL-103<\/td>10,161,683 B2<\/td>Granted<\/td>air-blast-chiller<\/td><\/tr>
Ventilated System for Storing High Level Radioactive Waste<\/a><\/td>2018<\/td>HI-STORM 100U<\/span><\/a><\/td>HOL-054<\/td>US 10,147,509 B2<\/td>Granted<\/td>hi-storm-100u<\/td><\/tr>
Shutdown System for a Nuclear Steam Supply System<\/a><\/td>2018<\/td>SMR-300<\/span><\/a><\/td>HOL-073<\/td>US 10,115,487 B2<\/td>Granted<\/td>smr-300<\/td><\/tr>
Apparatus for Supporting Spent Nuclear Fuel<\/a><\/td>2018<\/td>HDFSR<\/span><\/a><\/td>HOL-088<\/td>US 2018\/0301231 A1, US 10,037,826 B2, CN 106663481<\/td>Published<\/td>hdfsr<\/td><\/tr>
Method for Storing Radioactive Waste, and System for Implementing the Same<\/a><\/td>2018<\/td>HI-STORM<\/span><\/a><\/td>HOL-056<\/td>US 10,049,777 B2<\/td>Granted<\/td>hi-storm<\/td><\/tr>
Canister Apparatus for Dry Storage of Spent Nuclear Fuel and Method of Using the Same<\/a><\/td>2018<\/td>DWC<\/span><\/a><\/td>HOL-013<\/td>US 2018\/0277273 A1, US 8,135,107 B2, US 8,929,504, 10,026,514 B2<\/td>Published<\/td>dwc<\/td><\/tr>
Passively-Cooled Spent Nuclear Fuel Pool System<\/a><\/td>2018<\/td>HI-COOL<\/span><\/a><\/td>HOL-069<\/td>US 2018\/0277264 A1, US 10,008,296 B2, US 9,786,393, US 9,916,910 B2<\/td>Published<\/td>hi-cool<\/td><\/tr>
Axi-Flow Baffle for Tubular Heat Exchangers<\/a><\/td>2018<\/td>Heat Exchanger<\/span><\/a><\/td>HOL-121<\/td>62\/655,858<\/td>Provisional<\/td>heat-exchanger<\/td><\/tr>
Nuclear Power Generation System<\/a><\/td>2018<\/td>SMR-300<\/span><\/a><\/td>HOL-074<\/td>US 9,922,740 B2<\/td>Granted<\/td>smr-300<\/td><\/tr>
Apparatus for Supporting Radioactive Fuel Assemblies and Methods for Manufacturing the Same<\/a><\/td>2018<\/td>Fuel Basket<\/span><\/a><\/td>HOL-017<\/td>US 2018\/0025796 A1, US 9,728,284 B2, US 8,576,976 B2<\/td>Published<\/td>fuel-basket<\/td><\/tr>
A Reactivity Control Device for Storing Nuclear Fuel<\/a><\/td>2018<\/td>HI-SERT<\/span><\/a><\/td>HOL-099<\/td>US 9,875,819 B2<\/td>Granted<\/td>hi-sert<\/td><\/tr>
Nuclear Steam Supply System<\/a><\/td>2017<\/td>SMR-300<\/span><\/a><\/td>HOL-061<\/td>US 9,852,820 B2<\/td>Granted<\/td>smr-300<\/td><\/tr>
A Radioactive Material Storage Canister and Method for Sealing Same<\/a><\/td>2017<\/td>LTS Weld<\/span><\/a><\/td>HOL-076<\/td>US 9,779,843 B2<\/td>Granted<\/td>lts-weld<\/td><\/tr>
Treating the External Surface of Shell-Type Stainless Steel Structures to Protect Against Stress Corrosion Cracking<\/a><\/td>2017<\/td>MPC<\/span><\/a><\/td>HOL-117<\/td>62\/551,914<\/td>Provisional<\/td>mpc<\/td><\/tr>
Cask Apparatus, System and Method for Transporting and\/or Storing High Level Waste<\/a><\/td>2017<\/td>HI-SAFE<\/span><\/a><\/td>HOL-011<\/td>US 9,672,948 B2<\/td>Granted<\/td>hi-safe<\/td><\/tr>
Heat Exchanger Apparatus for Converting a Shell-Side Liquid into a Vapor<\/a><\/td>2017<\/td>Heat Exchange Equipment<\/span><\/a><\/td>HOL-026<\/td>US 9,612,058 B2, US 8,833,437 B2<\/td>Granted<\/td>heat-exchange-equipment<\/td><\/tr>
Steam Conditioning System<\/a><\/td>2017<\/td>Steam Sparger Device<\/span><\/a><\/td>HOL-086<\/td>US 9,593,598 B2<\/td>Granted<\/td>steam-sparger-device<\/td><\/tr>
Apparatus, System and Method for Facilitating Transfer of High Level Waste to and\/or From a Spent Fuel Pool<\/a><\/td>2016<\/td>Wet Transfer<\/span><\/a><\/td>HOL-029<\/td>US 8,277,746 B2<\/td>Granted<\/td>wet-transfer<\/td><\/tr>
Ventilated Transfer Cask with a High Integrity Lifting Feature and an Integral Impact Limiter<\/a><\/td>2016<\/td>HI-TRAC<\/span><\/a><\/td>HOL-079<\/td>US 9,466,400 B2<\/td>Granted<\/td>hi-trac<\/td><\/tr>
System and Method for the Ventilated Storage of High Level Radioactive Waste in a Clustered Arrangement<\/a><\/td>2016<\/td>HI-STORM<\/span><\/a><\/td>HOL-001<\/td>US 9,460,821, US 8,660,230 B2<\/td>Granted<\/td>hi-storm<\/td><\/tr>
System and Method for Storing and Leak Testing a Radioactive Materials Storage Canister<\/a><\/td>2016<\/td>MPC<\/span><\/a><\/td>HOL-072<\/td>US 9,442,037 B2<\/td>Granted<\/td>mpc<\/td><\/tr>
Container System for Radioactive Waste<\/a><\/td>2016<\/td>MPC<\/span><\/a><\/td>HOL-059<\/td>US 9,396,824 B2<\/td>Granted<\/td>mpc<\/td><\/tr>
A Multi-Cavity Canister Transfer Facility<\/a><\/td>2016<\/td>CTF<\/span><\/a><\/td>HOL-106<\/td><\/td>Provisional<\/td>ctf<\/td><\/tr>
Apparatus, System and Method for Storing High Level Waste<\/a><\/td>2016<\/td>HI-STAR<\/span><\/a><\/td>HOL-007<\/td>US 9,269,464 B2, US 8,712,001 B2, US 8,548,112 B2<\/td>Granted<\/td>hi-star<\/td><\/tr>
System, Method and Apparatus for Providing Additional Radiation Shielding to High Level Radioactive Materials<\/a><\/td>2015<\/td>HI-SHIELD<\/span><\/a><\/td>HOL-038<\/td>US 9,208,914 B2, US 8,995,604 B2<\/td>Granted<\/td>hi-shield<\/td><\/tr>
Joining Process for Neutron Absorbing Materials<\/a><\/td>2015<\/td>Friction Stir Welding<\/span><\/a><\/td>HOL-077<\/td>US 2015\/0336204 A1<\/td>Published<\/td>friction-stir-welding<\/td><\/tr>
Construction-Efficient Air Cooled Heat Exchanger in Outdoors Service<\/a><\/td>2015<\/td>Air Cooled Heat Exchanger<\/span><\/a><\/td>HOL-104<\/td><\/td>Provisional<\/td>air-cooled-heat-exchanger<\/td><\/tr>
Method for Controlling Temperature of a Portion of a Radioactive Waste Storage System and for Implementing the Same<\/a><\/td>2015<\/td>HI-STORM<\/span><\/a><\/td>HOL-055<\/td>US 9,105,365 B2<\/td>Granted<\/td>hi-storm<\/td><\/tr>
Storage System for Nuclear Fuel<\/a><\/td>2015<\/td>Fuel Rack<\/span><\/a><\/td>HOL-057<\/td>US 2015\/0221402 A1<\/td>Published<\/td>fuel-rack<\/td><\/tr>
Passive Reactor Containment Protection System<\/a><\/td>2015<\/td>SMR-300<\/span><\/a><\/td>HOL-063<\/td>US 9,786,393 B2\ufeff<\/td>Granted<\/td>smr-300<\/td><\/tr>
Finned Tube Assemblies for Heat Exchangers<\/a><\/td>2015<\/td>Air Cooled Condenser<\/span><\/a>, HI-MAX<\/span><\/a><\/td>HOL-058<\/td>US 2015\/0027697 A1<\/td>Published<\/td>air-cooled-condenser hi-max<\/td><\/tr>
Neutron Absorbing Fuel Insert Fabrication Techniques<\/a><\/td>2014<\/td>HI-SERT<\/span><\/a><\/td>HOL-095<\/td><\/td>Provisional<\/td>hi-sert<\/td><\/tr>
System and Method for Transferring and\/or Working Near a Radioactive Payload Using Shield-Gate Apparatus<\/a><\/td>2014<\/td>Filter Cask<\/span><\/a><\/td>HOL-050<\/td>US 9,047,996 B2, US 8,884,259 B2<\/td>Granted<\/td>filter-cask<\/td><\/tr>
Method of Transferring High Level Radioactive Materials, and System for the Same<\/a><\/td>2014<\/td>Wet Transfer<\/span><\/a><\/td>HOL-039<\/td>US 8,718,221 B2<\/td>Granted<\/td>wet-transfer<\/td><\/tr>
Heat Exchanger for Accommodating Thermal and\/or Pressure Transients<\/a><\/td>2013<\/td>Heat Exchange Equipment<\/span><\/a><\/td>HOL-015<\/td>US 8,602,089 B2<\/td>Granted<\/td>heat-exchange-equipment<\/td><\/tr>
Apparatus and Method for Supporting Fuel Assemblies in an Underwater Environment Having Lateral Access Loading<\/a><\/td>2012<\/td>Fuel Rack<\/span><\/a><\/td>HOL-004<\/td>US 8,139,706 B2, US 7,715,517<\/td>Granted<\/td>fuel-rack<\/td><\/tr>
Method of Removing Radioactive Materials from Submerged State and\/or Preparing Spent Nuclear Fuel for Dry Storage<\/a><\/td>2011<\/td>HI-TRAC<\/span><\/a>, Transfer Cask<\/span><\/a>, Water Jacket<\/span><\/a><\/td>HOL-016<\/td>US 8,067,659 B2<\/td>Granted<\/td>hi-trac transfer-cask water-jacket<\/td><\/tr>
Method and Apparatus for Transporting and\/or Storing Radioactive Materials having a Jacket Adapted to Facilitate Thermosiphon Fluid Flow<\/a><\/td>2011<\/td>HI-TRAC<\/span><\/a><\/td>HOL-022<\/td>US 7,994,380 B2<\/td>Granted<\/td>hi-trac<\/td><\/tr>
Heat Exchanger Apparatus<\/a><\/td>2010<\/td>Heat Exchange Equipment<\/span><\/a><\/td>HOL-027<\/td>US 2010\/0282451 A1<\/td>Published<\/td>heat-exchange-equipment<\/td><\/tr>
Apparatus for Providing Additional Radiation Shielding to a Container Holding Radioactive Materials, and Method of Using the Same to Handle and\/or Process Radioactive Materials<\/a><\/td>2010<\/td>Shielded Transfer Canister<\/span><\/a><\/td>HOL-012<\/td>US 7,786,456 B2<\/td>Granted<\/td>shielded-transfer-canister<\/td><\/tr>
Method and Apparatus for Maximizing Radiation Shielding During Cask Transfer Procedures<\/a><\/td>2008<\/td>HI-TRAC<\/span><\/a><\/td>HOL-021<\/td>US 7,330,525 B2, US 6,587,536 B1<\/td>Granted<\/td>hi-trac<\/td><\/tr>
Fin Tube Assembly for Heat Exchanger and Method<\/a><\/td>2007<\/td>Air Cooled Condenser<\/span><\/a><\/td>HOL-032<\/td>US 7,293,602 B2<\/td>Granted<\/td>air-cooled-condenser<\/td><\/tr>
Forced Gas Flow Canister Dehydration<\/a><\/td>2007<\/td>FHD<\/span><\/a><\/td>HOL-003<\/td>US 7,210,247 B2, US 7,096,600 B2<\/td>Granted<\/td>fhd<\/td><\/tr>
Below Grade Cask Transfer Facility<\/a><\/td>2006<\/td>CTF<\/span><\/a><\/td>HOL-031<\/td>US 7,139,358 B2, US 6,793,450 B2<\/td>Granted<\/td>ctf<\/td><\/tr>
Autonomous Cask Translocation Crane<\/a><\/td>2005<\/td>DAVIT Crane<\/span><\/a><\/td>HOL-023<\/td>US 6,957,942 B2<\/td>Granted<\/td>crane<\/td><\/tr>
System and Method for Transferring Spent Nuclear Fuel from a Spent Nuclear Fuel Pool to a Storage Cask<\/a><\/td>2005<\/td>Mating Device<\/span><\/a><\/td>HOL-037<\/td>US 6,853,697 B2, US 6,625,246 B1<\/td>Granted<\/td>mating-device<\/td><\/tr>
Seismic Cask Stabilization Device<\/a><\/td>2005<\/td>HERMIT<\/span><\/a><\/td>HOL-036<\/td>US 6,848,223 B2<\/td>Granted<\/td>hermit<\/td><\/tr>
Ventilated Vertical Overpack<\/a><\/td>2004<\/td>HI-STORM<\/span><\/a><\/td>HOL-020<\/td>US 6,718,000 B2<\/td>Granted<\/td>hi-storm<\/td><\/tr>
Deaeration of Makeup Water in a Steam Surface Condenser<\/a><\/td>2003<\/td>Surface Condenser<\/span><\/a><\/td>HOL-033<\/td>US 6,619,042 B2<\/td>Granted<\/td>surface-condenser<\/td><\/tr>
External Steam Dump<\/a><\/td>2002<\/td>Surface Condenser<\/span><\/a><\/td>HOL-006<\/td>US 6,481,208 B1<\/td>Granted<\/td>surface-condenser<\/td><\/tr>
Apparatus Suitable for Transporting and Storing Nuclear Fuel Rods and Methods for Using the Apparatus<\/a><\/td>2000<\/td>HI-STORM<\/span><\/a><\/td>HOL-005<\/td>US 6,064,710, US 5,898,747<\/td>Granted<\/td>hi-storm<\/td><\/tr>
Extrusion Fabrication Process for Discontinuous Carbide Particulate Metal Matrix Composites and Super Hypereutectic A1\/SI<\/a><\/td>2000<\/td>METAMIC-HT<\/span><\/a><\/td>HOL-052<\/td>6,042,779<\/td>Granted<\/td>metamic-ht<\/td><\/tr>
Radiation Absorbing Refractory Composition<\/a><\/td>1999<\/td>Metamic<\/span><\/a><\/td>HOL-049<\/td>5,965,829<\/td>Granted<\/td>metamic<\/td><\/tr><\/tbody><\/table>\n","protected":false},"excerpt":{"rendered":"

The following list contains patents held by 澳门六合彩开奖结果2023 that have been granted or are in process:<\/p>\n","protected":false},"author":6153053,"featured_media":0,"parent":4009,"menu_order":3,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_coblocks_attr":"","_coblocks_dimensions":"","_coblocks_responsive_height":"","_coblocks_accordion_ie_support":"","ocean_post_layout":"full-width","ocean_both_sidebars_style":"","ocean_both_sidebars_content_width":0,"ocean_both_sidebars_sidebars_width":0,"ocean_sidebar":"0","ocean_second_sidebar":"0","ocean_disable_margins":"enable","ocean_add_body_class":"","ocean_shortcode_before_top_bar":"","ocean_shortcode_after_top_bar":"","ocean_shortcode_before_header":"","ocean_shortcode_after_header":"","ocean_has_shortcode":"","ocean_shortcode_after_title":"","ocean_shortcode_before_footer_widgets":"","ocean_shortcode_after_footer_widgets":"","ocean_shortcode_before_footer_bottom":"","ocean_shortcode_after_footer_bottom":"","ocean_display_top_bar":"default","ocean_display_header":"default","ocean_header_style":"","ocean_center_header_left_menu":"0","ocean_custom_header_template":"0","ocean_custom_logo":0,"ocean_custom_retina_logo":0,"ocean_custom_logo_max_width":0,"ocean_custom_logo_tablet_max_width":0,"ocean_custom_logo_mobile_max_width":0,"ocean_custom_logo_max_height":0,"ocean_custom_logo_tablet_max_height":0,"ocean_custom_logo_mobile_max_height":0,"ocean_header_custom_menu":"0","ocean_menu_typo_font_family":"0","ocean_menu_typo_font_subset":"","ocean_menu_typo_font_size":0,"ocean_menu_typo_font_size_tablet":0,"ocean_menu_typo_font_size_mobile":0,"ocean_menu_typo_font_size_unit":"px","ocean_menu_typo_font_weight":"","ocean_menu_typo_font_weight_tablet":"","ocean_menu_typo_font_weight_mobile":"","ocean_menu_typo_transform":"","ocean_menu_typo_transform_tablet":"","ocean_menu_typo_transform_mobile":"","ocean_menu_typo_line_height":0,"ocean_menu_typo_line_height_tablet":0,"ocean_menu_typo_line_height_mobile":0,"ocean_menu_typo_line_height_unit":"","ocean_menu_typo_spacing":0,"ocean_menu_typo_spacing_tablet":0,"ocean_menu_typo_spacing_mobile":0,"ocean_menu_typo_spacing_unit":"","ocean_menu_link_color":"","ocean_menu_link_color_hover":"","ocean_menu_link_color_active":"","ocean_menu_link_background":"","ocean_menu_link_hover_background":"","ocean_menu_link_active_background":"","ocean_menu_social_links_bg":"","ocean_menu_social_hover_links_bg":"","ocean_menu_social_links_color":"","ocean_menu_social_hover_links_color":"","ocean_disable_title":"default","ocean_disable_heading":"default","ocean_post_title":"","ocean_post_subheading":"","ocean_post_title_style":"","ocean_post_title_background_color":"","ocean_post_title_background":0,"ocean_post_title_bg_image_position":"","ocean_post_title_bg_image_attachment":"","ocean_post_title_bg_image_repeat":"","ocean_post_title_bg_image_size":"","ocean_post_title_height":0,"ocean_post_title_bg_overlay":0.5,"ocean_post_title_bg_overlay_color":"","ocean_disable_breadcrumbs":"default","ocean_breadcrumbs_color":"","ocean_breadcrumbs_separator_color":"","ocean_breadcrumbs_links_color":"","ocean_breadcrumbs_links_hover_color":"","ocean_display_footer_widgets":"default","ocean_display_footer_bottom":"default","ocean_custom_footer_template":"0","_starter_page_template":"","_wpcom_template_layout_category":[],"footnotes":""},"tags":[],"yoast_head":"\nPatents - 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