renewable – Cabot Institute for the Environment blog

The Archers’ electric vehicle row shows why rural areas may oppose chargers – but they also have so much to gain

Posted on April 19, 2023 by amanda.woodman-hardy

Long-running BBC radio soap opera The Archers might conjure images of an idyllic country life, but its storylines frequently highlight real tensions in British society.

The series, set in the fictional village of Ambridge, has been criticised in recent years for storylines which supposedly pander to younger listeners or fail to represent rural life accurately. But the Archers has never shied away from environmental issues, from the escapades of eco-warrior Tom Archer in the late 1990s to more recent episodes about soil health.

Lately, Ambridge has been gripped by a campaign to halt the construction of a new electric vehicle charging station, proposed on a parcel of land being sold by David and Ruth Archer – long-running characters at the centre of the series. This has provoked protests, debates about civic duty and police involvement in the rural idyll.

The placards and slogans of local opponents have fused topics of net zero and the energy transition with anxieties about the future of the countryside. What does this storyline tell us about real rural opposition to such changes?

Charging into trouble

The UK government has pledged to phase out the sale of new petrol and diesel cars by 2030. If electric vehicles (EVs) are to replace them, charging infrastructure must be expanded to help people switch.

By some estimates there are over 35,000 active EV charging ports across the UK. The Department for Transport has pledged 300,000 public chargers by 2030 to stop a patchy network of charging points putting some drivers off buying EVs and allay concerns about their potentially shorter driving range.

An electric vehicle charging point in a quiet, coastal car park. — A public charging point in Shetland, Scotland.
AlanMorris/Shutterstock

Infrastructure built to fulfil national commitments to cut emissions will have important local consequences. The concerns voiced in Ambridge might resonate in rural communities playing host to new construction projects which can bring with them increased traffic, noise and damage to the landscape.

When researching opposition to energy infrastructure for a new book, we learned about Littlehampton in Sussex, a seaside town where residents successfully opposed an on-street EV charging scheme. Residents complained about not being consulted beforehand and argued that charging points, built without off-street parking, would draw drivers from elsewhere who would take spaces from them.

Rural communities have also opposed new renewable energy projects, such as solar farms, for their potential disruption or effect on property values. Many who moved to a rural area to enjoy its natural beauty argue that new infrastructure industrialises the countryside.

Finding community support

In The Archers – like in Littlehampton, Sussex – local opposition to new EV charging stations derives from a feeling that something is happening to residents, rather than with or for them. Some Ambridge residents are suspicious of the shell corporation behind the scheme. In real-life Sussex, residents said that they weren’t properly consulted.

Rural opposition is not inevitable, however. With amenities and services often clustered in bigger towns, rural households must travel further to access them, making them particularly vulnerable to rises in the price of petrol or diesel.

This vulnerability has been exacerbated by dramatic cuts to rural bus routes. An analysis by the Guardian found that one in ten routes were axed in 2022, with 42 routes lost from the west of England alone.

Withdrawing public transport funding cuts off rural communities from essential services and friends and family elsewhere. These same communities could benefit the most from an expanded EV charging network.

A bus shelter beside an empty rural road. — Cuts to public transport funding have hit rural communities particularly hard.
Harry Wedzinga/Shutterstock

Some rural communities aren’t waiting for this to happen and have taken to sharing electric cars to fill the gaps left by lost services instead. For example, new EV clubs are being formed in Wales to give people easier access to shared transport.

These schemes ask people to pay an annual membership fee in return for being able to book a car 48 hours in advance. This is helping people get to GP appointments or job interviews.

But while those living in Greater London might access a charging point every mile on average, this number jumps to one every 16 miles in rural areas.

Plugging the gaps

One reason why rural areas are underserved by EV chargers concerns their cost-effectiveness. In areas where there might be less immediate demand, the upfront investment needed to install a charging point will take longer to pay off.

New subsidies and grants could help install more chargers in more places. But it will be necessary to work with communities to prevent conflict.

Despite the uproar in Ambridge, rural areas have a lot to gain from charging infrastructure. Residents will have differing views which planners must address.

This blog is written by Cabot Institute for the Environment members Dr Ed Atkins, Senior Lecturer, School of Geographical Sciences and Dr Ros Death, Lecturer in Physical Geography, University of Bristol.

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Micro Hydro manufacturing in Nepal: A visit to Nepal Yantra Shala Energy

Posted on October 4, 2018April 16, 2023 by janet.crompton

Topaz Maitland with a micro hydro turbine

For nine months I am working at an NGO called People, Energy and Environment Development Association (PEEDA), in Kathmandu, Nepal. PEEDA is an NGO dedicated to improving the livelihoods of communities, particularly the poor, by collective utilization of renewable energy resources, while ensuring due care for the environment.

My primary project is the design of a micro hydro Turgo Turbine, a small turbine which is not commonly used in Nepal. The project aims to investigate this turbine, and its potential for us in Nepal.

Nepal Yantrashala Energy (NYSE) is one of the partners on this project. NYSE is a manufacturing company specialising in micro hydro systems and I went to visit their workshop to learn about how they operate.

Micro Hydro and NYSE

At NYSE, they manufacture Pelton, Crossflow and Propeller turbines. If a client comes to them with the required head (height over which the water will drop) and flow rate, NYSE can manufacture an appropriate turbine. Every turbine is unique to the site it will be installed into.

Rough cast of a Pelton runner cup, alongside finished cups

A Pelton turbine runner

Crossflow runners are made using strips of pipe as blades and machined runner plates to hold the blades

A Crossflow turbine runner

The aim of this project is to develop a design for a Turgo turbine (an example turgo turbine system pictured below), so that NYSE might be able to manufacture one for any given head and flow. This means that engineers such as myself need to understand how our new optimised design will operate over a range of flows and heads.

Micro Hydro in Nepal

Nepal is second only to Brazil in term of hydropower potential (1). Despite this, crippling underdevelopment and a mixture of geographical, political and economical factors leave the country lacking the resources to exploit and develop this potential (1).

Dr. Suman Pradhan, Project Coordinator at NYSE, told us that the first ever Crossflow Turbine was installed in Nepal in 1961. His father was actually one of those involved in the project. Ironically, today Nepal has to import or buy the designs for such Crossflow turbines from abroad.

Universities in Nepal do have turbine testing facilities, but funding for PhDs and other hydropower research is still heavily dependent upon foreign investment. A key area of opportunity for Nepal is the development of such research facilities. With so much hydropower potential, good work could be done to improve the performance of hydropower to suit demand and manufacturers within Nepal.

Dr. Suman hopes that this new Turgo Turbine design, alongside other designs he is trying to obtain, may widen the hydropower options available and manufacturable in Nepal.

References

1) Sovacool, B. K., Dhakal, S., Gippner, O. & Bambawale, M. J., 2013. Peeling the Energy Pickle: Expert Perceptions on Overcoming Nepal’s Energy Crisis. South Asia: Journal of South Asian Studies.

———————
This blog was written by Topaz Maitland, a University of Bristol Engineering Design Student on 3rd year industry placement.

My work experience: Designing a renewable energy turbine in Nepal

Posted on September 4, 2018April 16, 2023 by janet.crompton

PEEDA is an NGO aiming to help off-grid communities in Nepal develop sustainably, primarily by introducing renewable energy sources that are owned and managed by the community.

Projects vary widely, and all funding comes from grants – that’s why there’s only six full-time staff at the office in Kathmandu, Nepal’s capital. Over the years various projects have been in partnership with the University of Bristol: that’s how I ended up working at PEEDA for my assessed year in industry. As part of the Engineering Design Degree, all students undertake a year of work experience in their third year.

Project work

My primary project for the first few months concerns the design of a pico-hydro Turgo Turbine, a small turbine which is not commonly used in Nepal despite its potential. Currently, one turbine has been imported from China and one turbine is being developed at the University of Bristol. These will be compared in the testing lab at Kathmandu University, and the final design will be manufactured in Nepal and introduced to a pilot site.

Pico-hydro Turgo Turbine

I will have the opportunity to assist with all stages of the design, working closely with the University of Bristol, the Turbine Testing Lab, and the manufacturers.

Most excitingly, I will be able to go on site visits for the project and for other projects which will involve haphazard bus journeys on winding roads to remote, beautiful areas of Nepal.

What is Kathmandu like?

The walk to work is always interesting. I may see as many as three wandering cows which are considered sacred by Hindu culture. My walk takes me past a large Hindu temple where there is always music playing and ladies in colorful saris sell flowers and fruit outside its gates.

It’s monsoon season, and after the daily downpour the mountains are visible in every direction just beyond the city.

It’s a busy, lively, polluted capital city but the people are extremely friendly and welcoming.

On my first day, my boss came to pick me up but couldn’t find the way (there are no street signs or house numbers, only vague area names). I handed the phone to the lady in the closest shop so that she could explain to him in Nepali. Every day when I walk past her little shop, she always waves hello to me.

I have been here for almost two weeks now and I have not spotted a single, functioning traffic light. My work colleagues tell me they can count all the working traffic lights in the Kathmandu Valley on two hands.

Overall, it’s mad and wonderful.
——————————-
This blog was written by Topaz Maitland, a University of Bristol Engineering Design Student on 3rd year industry placement.

A brighter future for India’s energy sector?

Posted on May 30, 2014April 14, 2023 by janet.crompton

In 2001, the Kutch District of Gujarat, India was struck by a magnitude 7.7 earthquake which killed around 20,000 people and destroyed nearly 400,000 homes. The total property damage was estimated at $5.5 billion and had a disastrous effect on what was already an ailing economy. In the aftermath of the earthquake, Narendra Modi, a member of the right-wing, Hindu nationalist Bharatiya Janata Party (BJP), became the Chief Minister of Gujarat and led the region out of darkness and into economic growth and prosperity. By 2007, Gujarat contained 5% of the total population yet accounted for 25% of total bank finance in India and continues to outpace growth in other states. Indeed, when I visited Kutch in January, it was clear that there was a growing and aspirational middle class population. Modi was recently elected Prime Minister of India, triumphing over Rhaul Ghandi, a member of the centre-left India National Congress (INC) Party, and with it became one of the most powerful players in the fight against climate change. So what does the future hold for the Indian energy sector?

Previous examples suggest that Modi wants to embrace the clean energy model. As Chief Minister of Gujarat, Modi bankrolled the largest single-location solar plant in Asia with an operating capacity of 55 megawatts and launched the first Asian governmental department dedicated to climate change. Before 2012, Gujarat had the highest share of renewable energy sources in India (~14%) and as Prime Minister, Modi plans to use solar power to supply energy to approximately 400 million people who still lack basic access to electricity. Yet some have accused Modi of losing interest in his solar revolution following his failure to submit an action plan for the Prime Ministers National Climate Change Action Plan in 2013.

Despite the solar revolution, India still generates 60-70% of its energy from non-renewable sources. The dominant non-renewable resource is coal which accounts for 40% of total energy production. Yet, output from Coal India Ltd, the largest coal producing company in India, has stagnated over the past few years and has consistently missed targets. If Modi is to revive coal production in India he has to address a number of issues including infrastructure, corruption and a lack of pricing power. Failure to meet last years target was also partly attributed to cyclone Phaline and monsoon flooding. This is also likely to affect future coal production; all IPCC models and scenarios predict an increase in both the mean and extreme precipitation of the Indian summer monsoon.

Although sitting on huge reserves of coal, India also has to import a staggering amount of coal. Last year, 152 million tons of coal were imported, an increase of 21% on last year, while only China and Japan imported more. In order to decrease their dependence on coal, India have began hunting for domestic oil reserves. Alternatively, Modi has spoke of strengthening ties with Russian President, Vladimer Putin, with the possibility of developing a Russian pipeline through the Altai region into northwest China and, eventually, to northern India. Although this would be a costly procedure, it may be easier to forge a relationship with Russia rather than China, who are India’s closest competitors in the energy market.

So what does this mean for India’s energy sector? Ultimately, coal will likely remain the backbone of India’s energy sector. This is problematic because coal generates nearly twice as much carbon dioxide for every megawatt-hour generated when compared to a natural gas-fired electric plant. In his rush for economic prosperity, will Modi forget about his solar revolution? On Monday, President Obama will unveil a plan to cut carbon emissions from power plants by as much as 25%, with an emphasis on reducing emissions from coal. If this is achieved, the US will have greater leverage over India and other heavy polluters such as China. Will this encourage Modi to reduce India’s reliance on coal? For now, I remain somewhat optimistic.

—–

This blog was written by Gordon Inglis, a 3rd year palaeoclimatology PhD student working in the Organic Geochemistry Unit within the School of Chemistry. This post was originally published on his own blog http://climategordon.wordpress.com/. You can also follow him on twitter @climategordon