diff --git a/organization/building-technologies/00.png b/organization/building-technologies/00.png new file mode 100644 index 0000000000000000000000000000000000000000..5b8c89fe03fda08d2944856033ebd2c2877236ab Binary files /dev/null and b/organization/building-technologies/00.png differ diff --git a/organization/building-technologies/building-technologies.json b/organization/building-technologies/building-technologies.json new file mode 100644 index 0000000000000000000000000000000000000000..1f3397b09e577ae3ec1d1d2040306284c603e21a --- /dev/null +++ b/organization/building-technologies/building-technologies.json @@ -0,0 +1,59 @@ +{ + "meta": { + "id": "building-technologies-research-and-integration-center", + "type": "organization", + "additionaltype": "center", + "archive": false, + "draft": false, + "websites": [ + { + "title": "Building Technologies Research and Integration Center", + "url": "https://www.ornl.gov/facility/btric" + } + ], + "graphics": [ + { + "caption": "The Building Technologies Research and Integration Center is the only DOE-designated National User Facility devoted to building technologies research and development." + } + ], + "keywords": [ + "building-technology", + "energy", + "grid", + "user-facility" + ], + "sponsors": [], + "technology": [] + }, + "title": "Building Technologies Research & Integration", + "subtitle": "Improving US building energy efficiency", + "sections": { + "mission": "The Building Technologies Research and Integration Center aims to improve the energy efficiency and environmental compatibility of residential and commercial buildings.", + "capabilities": [ + "60,000 sq. ft. research campus", + "Range of test chambers and capabilities for developing new, resilient components", + "Flexible research platforms", + "Data modeling and simulation for both residential and commercial buildings" + ], + "impact": [ + "New concrete mix with 15% lower embodied energy and reduces concrete needed by 40% in some cases", + "R&D 100 Award-winning condensing gas furnace using monolithic acidic gas reduction to remove more than 99.9% of acidic gases and other furnace emissions", + "R&D 100 Award-winning novel autonomous self-healing sealant that self-repairs at ambient conditions and under water", + "Digital tool that has simulated the energy profile of every building in America, totaling 141.5 million buildings", + "Home energy management system in Atlanta and Birmingham neighborhoods to enable automated monitoring, optimization, and control of residential HVAC, water heating systems, integrated solar panels and battery storage" + ], + "facilities": [ + + ] + + }, + "contact": { + "jobTitle": "Program Manager", + "givenName": "Melissa", + "familyName": "Lapsa", + "email": "lapsamv@ornl.gov", + "telephone": "865.576.8623", + "profile": "https://www.ornl.gov/staff-profile/melissa-v-lapsa", + "organization": "Building Technologies" + } +} \ No newline at end of file diff --git a/organization/.gitkeep b/project/.gitkeep similarity index 100% rename from organization/.gitkeep rename to project/.gitkeep diff --git a/project/building-technologies/building-technologies.json b/project/building-technologies/building-technologies.json deleted file mode 100644 index 1cabbeb2577c0153381489c386aec3c9374f9b15..0000000000000000000000000000000000000000 --- a/project/building-technologies/building-technologies.json +++ /dev/null @@ -1,58 +0,0 @@ -{ - "meta": { - "id": "building-technologies", - "type": "project", - "archive": false, - "draft": false, - "websites": [ - { - "title": "Building Technologies", - "url": "https://www.ornl.gov/buildingtechnologies" - } - ], - "graphics": [ - { - "caption": "The Building Technologies Research and Integration Center is the only DOE-designated National User Facility devoted to building technologies research and development. " - } - ], - "keywords": [ - - ], - "sponsors": [ - - ], - "technology": [ - ] - }, - - "title": "Building Technologies", - "subtitle": "Improving US building energy efficiency", - "sections": { - "introduction": "Scientists researching building technologies at ORNL develop new solutions and tools to enable grid-interactive buildings. Early-stage research drives innovations that can create buildings of the future while revitalizing existing buildings.", - "challenge": "The United States has more than 130 million buildings which consume nearly 40% of the nation's primary energy and 75% of its electricity. The country needs greater energy security, resiliency, and affordability to meet energy needs.", - "approach": "Building technologies research and development encompasses energy-efficient equipment such as heat pumps, HVAC, dehumidifiers, appliances, water heaters, and refrigeration systems. Researchers develop novel building materials integrated with technologies to increase affordability, quality, deployment, and adoption. Capabilities can also test new components, equipment, and systems in realistic environments before market introduction. Experts additionally pursue advanced sensor and control technologies, advanced building and system energy modeling solutions for neighborhoods of the future.", - "outcomes": [ - "Building envelope efficiencies in novel concrete mix, a self-healing sealant, and anistropic system", - "Refrigeration and heating solutions pushing the boundaries of what's possible for medicine and extreme climate survival.", - "Modeling and analyzing technologies to better understand the scope of US energy use, storage, and demand." - ], - "research": { - "focus": "Building energy efficiency", - "areas": [ - "Novel construction materials", - "Grid-interactive technologies", - "Energy performance optimization" - ] - } - }, - "contact": { - "title": "Program Manager", - "first": "Melissa", - "last": "Lapsa", - "email": "lapsamv@ornl.gov", - "phone": "(865) 576-862", - "profile": "https://www.ornl.gov/staff-profile/melissa-v-lapsa", - "organization": "Building Technologies" - } - - } \ No newline at end of file