Visibly Better Hydrogen Futures
Enabling stakeholders in hydrogen transition to receive sophisticated scenarios played out in regional contexts, with the data, analysis, and compelling visualizations needed to inform and activate initiatives.
Re-imagining the Future of Hydrogen with Synthetic Modelling
The hydrogen economy is about helping the world reduce its carbon footprint and contribute to a net-zero future. RWI enables “in silico” trials through our Synthetic Modelling Platform (SMP) to calculate all of the impacts informing and accelerating novel, de-risked, effective innovation adoption, policy, and investments. The future is placed in the hands of stakeholders with Synthetic Environments for city, regional, and global hydrogen supply, transport, and demand systems.
De-risking Hydrogen Innovations Digitally
The future is novel and we need new toolsets to explore this reality and data-supported decisions. Using the SMP, collaborations can happen with Hydrogen Hubs including global and hyper-localized investment and demand calculations for carbon-intensity and CCUS, HFCE, H2DF, blending, CHP, and transportation in a dynamically- modelled regulatory environment.
Human Activity and Hydrogen
Human activity is one of the most important factors when considering future challenges and risks for the hydrogen economy. We put people at the center of our models and synthesize hyper-localized populations with their roles, intersectionalities, marginalities, patterns of life, behaviors, and choices to interact with technologies, policies, and infrastructure to inform the design.
“Our synthetic people, who include stakeholders and decision-makers, are derived from aggregated and publicly available sources and never involve identified or identifiable data.”
Model Implementations and USE CASES
A self-sustaining hydrogen economy is a complex system of systems that involves the intersections of people, infrastructure, and future plans of cities, regions, and countries. RWI’s ability to offer its Single Synthetic Environment to advance global energy and hydrogen transition through partnerships, both domestic and international, represents an opportunity to calculate the impact of changing policy on assets, economics, and labour supply.
Our SSE’s enable scenario exploration without limits, which is particularly important in determining the risks, barriers, and prospects in the transport of hydrogen. The models extend to be rapidly shared and updated and change the landscape of applied research.
Model implementations and scenarios include, but are not limited to:
