By JJB
Energy
transition continues to be a much-discussed topic, and local developments and cities
play a crucial role for its implementation. But as this industry keeps on growing, solid methods and business
models are needed in order to make sure that these changes, as well as profit,
are made in a sustainable way.
That is why a large number of researchers and entrepreneurs followed the invitation of the German Center for Research and Innovation (GCRI) and the HFT Stuttgart to gather at the Urban Tech Hub by Grand Central Tech in New York City on November 27th and 28th, in order to discuss about “Energy Systems and Business Models for a Sustainable Urban Transformation” and, on a more technical level, “Urban Energy Systems and 3D Modeling for Low Carbon Cities”.
That is why a large number of researchers and entrepreneurs followed the invitation of the German Center for Research and Innovation (GCRI) and the HFT Stuttgart to gather at the Urban Tech Hub by Grand Central Tech in New York City on November 27th and 28th, in order to discuss about “Energy Systems and Business Models for a Sustainable Urban Transformation” and, on a more technical level, “Urban Energy Systems and 3D Modeling for Low Carbon Cities”.
Ursula
Eicker from the Stuttgart University of Applied Sciences (HFT) and its Reseach Center of Sustainable Energy TEchnologies (zafh) in Germany provided
results from energy research and 3D city modeling aiming to improve urban
energy planning and demand response.
Richard
Graves from DC-based CleanChoice Energy shared insights from his company’s
experience as one of the largest direct-to-consumer renewable retail energy
providers in the United States. For instance, their Community Solar program allows
clients to save on their bills by purchasing power from a close-by solar farm,
without having to provide a roof space and without switching the utility provider.
Tooraj
Arvajeh and his team from Blocpower presented their young company’s work,
bringing energy efficiency, solar energy and other sustainable housing upgrades
to underserved neighborhoods in New York and the US, while also analyzing the benefits
of microgrids for challenged territories such as Puerto Rico and its ongoing power outages after the devastating 2017 hurricane season.
Michele
Lunati explained how Potluck Energy works as broker bringing together roofing
contractors, solar developers and owners of roof spaces, thanks to a
patent-pending roof sensor system which allows to prevent roof leaks while tapping
into the unused economic potential of roof spaces.
Dieter
Hertweck, from the Hollerith Research Center and Graduate School for DigitalBusiness (HHZ) in Reutlingen, Germany, presented case studies on the benefits
of distributed energy solutions. These benefits included local energy
resiliency, optimized market value of solar power via batteries and blockchain,
and a mid-sized town in Germany which created a virtuous cycle by combining circular
economy and local energy planning.
Felix Thumm
from Transsolar introduced the audience to several projects of
climate-responsive urban design and architecture. In the case of a large campus
building in Winnipeg, Canada, these eco- and user-friendly concepts not only helped to reduce energy
consumption drastically, but also improved reported well-being of employees
within the building. Even a reduction of 1.25 less sick days per employee per
year was observed.
Picture taken from HUB at GCT |
Bernd
Thomas from Reutlingen University, Germany, explained how Micro-CHP, solar energy
and batteries can benefit from each other. One of his results showed that if
adding Micro-CHP to a solar PV and battery combination, the battery may be much
smaller (and thus cheaper) than if the Micro-CHP was left out, while still
attaining the same degree of self-consumption.
Ahmed
Mohamed from the City College of New York provided updates on research on
improved microgrid control, reconciling the benefits of decentralized and
centralized approaches.
Matthew
Sachs from Peak Power described his company’s contributions to peak shaving
powered by machine learning, which has the potential to reduce the public cost
of infrastructure development while also reducing individual utility bills.
Alfred Helble from AH Consult, based in Stuttgart, Germany, shed a light on cost-saving strategies for waste water treatment plants thanks to energy planning, including for example biogas production.
Many
participants voiced that they were impressed by the large number of insights and
by the fact that many obstacles and goals are actually commonly shared by many projects
in both America and in Germany. The talks were accompanied by lively
discussions with the audience and were concluded with a closing reception as well as discussions on follow-up projects to further foster the transatlantic
energy dialog.
Grand Central Tech by night, in the city that never sleeps. |
No comments:
Post a Comment