Welcome to The Hestia Project™
Quantifying carbon dioxide emissions like never before.
The Hestia Project™ will revolutionize how the world approaches and interacts with the climate change problem. The Hestia system quantifies all fossil fuel CO2 emissions at the scale of buildings, streets and factories. Hestia can provide stakeholders an unprecedented opportunity to design and implement carbon management strategies, verify emissions reductions, strengthen and support basic research in climate prediction and carbon cycle science, and allow the public, decisionmakers, scientists and industry access to detailed space-time information on fossil/industrial energy consumption and CO2 emissions. All this will be done via an intuitive, interactive, photorealistic, three-dimensional visualization of the Earth.
In short, Hestia will quantify, simulate and visualize
the metabolism of greenhouse gas emitting activity down to the building and street level
OCTOBER 9, 2012 PRESS RELEASE HERE
More About the Hestia Project™
The Hestia Project™ builds on a NASA/DOE/NSF-funded project called Vulcan*. Vulcan has quantified fossil fuel CO2 in the United States at sub-county spatial resolution and hourly temporal resolution for the year 2002 with considerable sectoral/fuel/process detail.
The First Hestia City: Indianapolis, Indiana
With funding from the Purdue Showalter Trust, Knauf Insulation and most recently from the National Institute for Standards and Technology (in the context of the INFLUX experiment), a case study of Indianapolis (and surrounding counties) has been accomplished. The final visualization, currently under construction (example in the figure below), will aim towards a dynamic environment where users can zoom and pan over portions of the city, imaging sub portions of carbon dioxide emissions by sector, sub-sector and area. The Indianapolis case forms the basis of our recent publication and outreach video. Graduate student Ryan Anderson has performed a policy analysis for the City of Indianapolis using the Hestia results. A short description can be found here.
Quantification of fossil fuel CO2 emissions in Indianapolis. Thanks to Bedrich Benes and Michel Abdul-Massih of Purdue University.
The Second Hestia City: Los Angeles, California
In collaboration with the Jet Propulsion Laboratory/CalTech, we completed a version 1.0 of the Hestia data product for the Los Angeles Basin. This effort is a key component of a Carbon Monitoring System for a Megacity domain. The Hestia data product in the LA Basin covers all five counties touching the Basin (Los Angeles, Orange, Ventura, Riverside, and San Bernardino). The results are available to resesarch colleagues but a public release may occur later in 2015.
Quantification of fossil fuel CO2 emissions in Los Angeles County. Thanks to Semih Yildiz and Igor Razlivanov of ASU.
The Third Hestia City: Phoenix, Arizona
We have just completed an emissions data product for the entire Phoenix metro area (all of Maricopa County) with support from the Global Institute for Sustainability (GIOS), Center for Integrated Solutions for Climate Science at Arizona State University. We will be providing more information on this effort in the future and are partnering with GIOS and the city on new expanded developments of our system.
Quantification of fossil fuel CO2 emissions in Maricopa County. Thanks to Semih Yildiz of ASU.
Our third city: Salt Lake City, Utah
As part of a collaboration with colleagues at the University of Utah, we have built a data product for Salt Lake County. Our University of Utah colleagues will be incorporating criteria air pollutants into Hestia for use in Salt Lake Valley, where air quality issues are of particular importance. Go here for media coverage of the release event.
* NASA grant: NNG05GG12G, DOE grant: DE-AC02-05CH11231, NSF CAREER award: AGS-0846358. Computational support provided by the Rosen Center for Advanced Computing (Broc Seib and William Ansley) and the Envision Center (Bedrich Benes and Nathan Andrysco) at Purdue University. Thanks to Marc Fischer and Stephane de la Rue du Can of the Lawrence Berkeley National Laboratory, Simon Ilyuschenko of Google Inc, Dennis Ojima and Steve Knox of Colorado State University, and the CO2FFEE group