Founder and CTO Matthew Williams will represent both Faraday Grid and LF Energy at DistribuTECH in New Orleans this year, where he will deliver a talk on why he believes an open source system is a necessary foundation for a prosperous energy future. Read this article in which Matthew explains how open source will fuel innovation in energy and find time and date for his presentation below.
The HM Treasury’s and Department for Business, Energy & Industrial Strategy (BEIS) initiated a consultation focusing on innovation in utilities, with the aim to “ensure our system of utilities regulation is fit for the future.” As an innovator of technology that will radically transform the market and with a growing global presence, Faraday Grid is keen to engage in the conversation and submitted a response to BEIS, which can be accessed here.
The word ‘productivity’ gets thrown around quite a bit by policymakers and economists, but is it really that important to our everyday lives? In this introductory piece in a series about energy and productivity, Research Analyst Oliver Forsyth explores how productivity relates to measures of welfare and economic performance.
As part of the inaugural LF Energy Summit earlier this week, Faraday Grid connected with distinguished open source developers and power systems professionals to discuss the innovation needed to enable the energy transition.
Variable renewable energy (VRE) is forecast to reach 50% of total generation by 2050. To balance the inherent variability, a surge in storage technology with respect to grid power and quality is expected. The most popular technology, lithium ion battery storage does not come without its constraints. Read Peter Lo’s writing on the trends surrounding storage and variable renewable energy.
Rapid acceleration of changes in the energy sphere renders preparations for their implicit challenges difficult. Bloomberg’s recently published 2018 New Energy Outlook (NEO) highlights key market drivers and integrates insight from a variety of experts to evaluate how the energy market will evolve in the coming decades.
From a pragmatic perspective, the electricity system will have to technologically adapt to enable these trends without inflating costs or dangerously destabilising the system. Electrical Engineer, Alex Kleidaras reviews some of the claims of NEO, with regards to their implications and requirements for their feasibility.
A team led by Senior Engineer, Jagadeesh Gunda will represent Faraday Grid at the Conference on Sustainable Energy Supply and Energy Storage Systems – NEIS 2018 in Hamburg this September.
Voltage swells can disrupt the operation of various equipment, ranging from consumer electronic devices and sensitive medical apparatus to a production/process-line of a manufacturing plant, leading to millions of dollars of industrial revenue loss. Current mitigating technologies are limited to specific power quality problems, and their wide adoption would be economically unsustainable. Faraday Grid Limited (Faraday) has developed an entirely new technology , the Faraday Exchanger – a single device, which comprehensively resolves most power quality problems and fits seamlessly into the existing infrastructure. To demonstrate the voltage swell-resolution capability of the Faraday Exchanger compared to a transformer, the Faraday team conducted laboratory experiments. For a thorough review and analysis, read this white paper.
The Power Network Demonstration Centre (PNDC), a smart grid demonstration and testing facility, carried out an independent third-party validation of the Faraday Exchanger. The tests carried out by PNDC reconfirmed that the Faraday Exchanger does offer the intended functionalities (voltage regulation, power-factor correction and power-quality control) that are beyond what can be provided by one single technology to utilities and end-users of electricity. This means that wide adoption of the FG technology will result in improved power quality and reliability, increased equipment lifetime, and reduced-capital investment in mitigation technologies. Employing the key findings from PNDC validation report, this whitepaper by Jagadeesh Gunda summarises the capabilities of the Faraday Grid technology.
The tenth annual Advanced Energy Conference took place in New York City to bring together influential leaders, key researchers, and policy makers from every part of the energy sector. On the opening day of the conference, Andrew Scobie, Faraday Grid CEO took stage to speak about the pioneering Faraday Grid solution, specifically, the possibilities it can open up for progressing microgrid technology.
Faraday Grid is ramping up its U.S. activities this week as we present at the tenth annual Advanced Energy Conference (AEC) taking place in New York City in addition to meeting potential future partners. Our presence is part of a Scottish Development International ‘Mission and Learning Journey’ delegation that seeks to bring high-value, innovative solutions to companies and organisations in the U.S. market. Richard Dowling, Chief Economist and Head of Government Affairs outlines the benefits the Faraday Grid can bring to New York and the world.
WHITE PAPER ATTACHED
The secure operation of modern electricity networks is becoming an increasingly difficult task as grids continuously employ complex interconnections, intermittent non-dispatchable renewable generation, and nonlinear loads. While these actions aim to improve power system reliability and meet sustainable energy requirements, they significantly reduce the system’s fault tolerance, inertia, and damping levels. The Faraday Exchanger (FE) technology delivers key technical and economic benefits, as demonstrated through results obtained from detailed simulations on numerous electrical networks from various countries.
The Launch Event of the Faraday Grid, including a live demonstration of the Faraday Exchanger device attracted over 150 guests from academia, science, and business. This truly unique technology is able to dramatically increase the amount of renewable energy in the grid, reduce carbon emissions and reduce the cost of energy to consumers. In this review, Richard Dowling, Chief Economist reflects on night and the implications of this groundbreaking technology.
A modern grid supplying modern electricity demands should be able to provide environmentally friendly energy securely and at an affordable price at once. There are a number of technology pathways being suggested to modernise the electricity grid, and adapt it to the new reality of distributed variable renewable generation. This article gives an overview of these technologies.