Are firms in the switchgear industry – power utilities, industrial sites, and related service and infrastructure sectors – happy to switch from using the gas SF6 and use alternatives that are less harmful to the climate? This is the question Marie-Charlotte Guetlein and Carine Sebi at the Grenoble École de Management asked over 400 switchgear customers to find out what’s needed to make the change. SF6 has 23,500 times the impact of CO2 and an atmospheric lifetime of 3,200 years, making it the most harmful known greenhouse gas. But its use is vital to protect electrical equipment. It has advantages over the alternatives, and is cheaper. That’s why SF6 switchgears dominate throughout the power transmission and distribution system. The survey results indicate that firms are prepared to pay more – a sign that they are environmentally aware. But they also expect policy makers to enforce change to make it happen, and provide incentives and subsidies to lessen the impact on their bottom line, explain the authors. For one thing, suppliers of the alternatives won’t get close to meeting demand without clear signals from the regulators. Although the SF6 issue is one small piece in the green jigsaw puzzle, it can be taken as a case study of how to make plans for a transition a reality.
Electrical-transmission towers and the cables are part of the landscape of industrialised countries. Less visible but just as important are switchgear devices that protect electrical equipment. But many of these devices – widely used in electric-utility transmission and distribution systems as well as commercial and industrial facilities – integrate the most powerful greenhouse gas, sulfur hexafluoride (SF6). Luckily, leakage rates are low and accidents extremely rare.
The sheer amount of SF6 used in the medium-voltage (MV) and high-voltage (HV) sectors nevertheless raises environmental concerns. This is especially the case as ongoing network extensions and the integration of renewable energy installations are increasing the banked SF6 volume.
Are there any eco-friendly and efficient alternatives? Will regulations lead to a decrease in the use of SF6 in the near future?
To answer these questions, we use results from our recent empirical study on the environmental and socio-economic impact of SF6 and its alternatives. Our study focuses on the MV sector where alternative technologies are more advanced and expected to gain ground faster than in the HV sector.
The most powerful greenhouse gas
With a global warming impact that is 23,500 times higher compared to CO2 and an atmospheric lifetime of 3,200 years, SF6 is the most harmful known greenhouse gas. Not surprisingly, the Kyoto Protocol lists SF6 as one of the six greenhouse gases that are restricted for use (together with CO2, CH4, N2O, HFC and PFC).
However, due to its excellent technical properties, SF6 has been increasingly used as an insulating and switching medium in HV and MV sectors since the 1950s. One of its main advantages is that it allows for more compact installations, in particular compared to air-insulated switchgear. This is an especially important criterion in urban areas where space is limited.
Switchgears are almost everywhere
Switchgear is a general term covering switching devices and their combination with associated control, measuring, protective, and regulating equipment. These devices are found throughout the power transmission and distribution system.
Considered cost-effective and high-performing, SF6 technology plays an important role for the reliability of power transmission and distribution networks in Europe, “which constitutes the backbone of the infrastructure necessary to deliver the energy transition”.
The European Commission is keeping an eye on SF6
Current EU F-gas regulation prohibits the use of SF6 in many non-electric applications, but not in MV switchgear. Today, about two thirds of the 15 million MV switchgear units installed in Europe (EU28) use SF6. When the EU F-gas regulation was last revised in 2014, it was considered that no cost-effective and reliable alternatives to SF6 were available.
In the MV sector, however, this picture is slowly changing thanks to technological progress. The European Commission recently publishing a report reassessing the availability of alternatives to SF₆ in MV switchgear. Based on this report, the Commission might suggest amendments to the current regulation including a phase-out of SF6 in MV switchgear.
Survey: will industry take up SF6-free alternatives?
Today, different alternatives to SF6 in MV switchgear are on the market. Yet users – power utilities, industrial sites, the service and infrastructure sectors – seem reluctant to adopt them.
Against this background, we conducted a large-scale survey to better understand MV switchgear customer purchasing criteria, including technical, economic as well as environmental aspects.
Survey respondents were selected to be company representatives with knowledge about switchgear. The survey was completed anonymously by a total of 443 respondents in five European countries during November 2019-January 2020.
Our results reveal that switchgear users generally anticipate a decrease in the use of SF6 technology. At the same time, they remain uncertain which technology will most likely replace SF6. Currently available alternatives are perceived as taking up too much space, being too expensive or not being available from reliable suppliers.
In fact, the anticipated decrease in use of SF6 appears to be primarily policy driven: A majority of 54% of respondents indicate that policies and regulations are a main driver for their company’s decision to adopt SF6-free alternatives. Asked about policies in general, respondents consider financial incentives (e.g. subsidies) for users of MV switchgear and a complete ban on SF6 to be the two most useful policies to promote SF6-free MV switchgear.
Paying for more environmentally friendly switchgear is becoming acceptable
According to respondents, a higher purchasing price is one of the main barriers for adoption of SF6-free alternative. At the same time, survey participants were in principle willing to pay more for environmental-friendly switchgear options – on average up to 20% compared to their usual purchasing price. Similarly, eco-friendliness was identified as one of the most important purchase criteria for MV switchgear.
This indicates that customers are willing to move toward SF6-free – and thus greener – alternatives, though barriers remain.
Accelerate the transition with regulations, subsidies
The fact that customers seem to care about environmental aspects when purchasing MV switchgear suggests that an environmental label for MV switchgear could help accelerate adoption of alternative technologies. Such a label could for instance feature an evaluation of the product’s environmental impact or be used to certify F-gas free switchgear.
To be widely adopted, SF6-free alternatives must not only meet environmental but also technical and economic requirements.
Given these constraints it seems unlikely that market forces will suffice to have the majority of switchgear users switch to alternative technologies in the near future.
A product label could support the transition, but more drastic policy interventions are likely necessary. While production volumes for alternatives remain low and prices high, financial incentives for users could spur adoption.
Ultimately, a phase-out of SF6 in MV switchgear would push manufacturers and users inevitably toward alternative solutions.
The authors’ research was supported by the power-grid stakeholders Schneider Electric and Siemens, which are investigating the environmental and socio-economic impact of SF6 in power distribution grids.
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Marie-Charlotte Guetlein is a Professor of Economics, Grenoble École de Management (GEM)
Carine Sebi is an Associate Professor and Coordinator of the “Energy for Society” Chair, Grenoble École de Management (GEM)
This article is republished from The Conversation under a Creative Commons license. Read the original article.
Nicholas Ottersbach says
Important piece underlining how important it is for policy-makers need to step in to address the inertia around adoption of sustainable SF6-free switchgear alternatives