Ranscombe Farm (@Ranscombe_Farm)
Interesting piece on the BBC’s Inside Out yesterday about the Ranscombe Farm nature reserve in Kent. It presents a brilliant farmer/conservationist working relationship. I was glad to see that it also ‘banged the drum’ on the relationship between atmospheric pollution and the threat to biodiversity.
Carbon Brief article. 10 October 2016 .
Why a UN climate deal on HFCs matters. [Abridged]
This week, countries will gather in Kigali, the capital city of Rwanda, to tackle a small but potent cause of climate change: hydrofluorocarbons (HFCs). The conference is the second in a trio of important UN climate meetings this year. Earlier in October, nations worked on a new aviation deal. In November, they will convene again in Marrakech to build on the Paris Agreement.
HFCs are synthetic chemicals used mainly in fridges and air conditioning, but also in fire extinguishers and as solvents.
HFCs, like aviation and shipping, were omitted from the Paris Agreement, despite being a potent greenhouse gas. Countries have agreed to tackle them them through the Montreal Protocol instead — a UN treaty better known for tackling the hole in the ozone layer by phasing out chlorofluorocarbons (CFCs).
Why are HFCs important?
The Montreal Protocol is recognised as one of the UN’s most successful environmental treaties to date. It called for a total phase out of CFCs by 1995 for developed countries and 2010 for developing countries.
However, these CFCs had to be replaced by something. At first, this was hydrochlorofluorocarbons (HCFCs) — a group of chemicals that deplete the ozone layer 10 to 50 times less than CFCs, which were considered “transitional substitutes” under the Protocol until ozone-safe replacements could be commercialised. Later, HFCs started to be used instead. The graph below illustrates the rise and fall in the use of these three chemicals.
Scientists estimate that HFCs in the atmosphere account for 1% of the warming caused by all greenhouse gases, but their usage is on the rise. Consumption is growing at a rate of 10-15% a year, as demand grows for fridges and aircon. One study estimates that, in a business-as-usual scenario, HFCs could rise to 9-19% of projected global emissions by 2050.
This is problematic because of their impact on the climate. While emissions are dwarfed against global CO2 emissions, their capacity to warm the atmosphere is stronger.
There are several different types of HFCs. The most persistent ones can be several thousand times better at absorbing heat than CO2. Based on the current mix of HFCs being used, their impact is 1,600 times stronger than CO2 per tonne emitted.
One study has argued that phasing out HFCs could help to avoid up to 0.5C of warming by the end of the century. Since the Paris Agreement has an aspirational but difficult goal of limiting warming to 1.5C above pre-industrial levels, such a boost could prove vital.
What are the options for replacing them?
There are already alternatives to HFCs available. These include natural refrigerants, such as hydrocarbons, ammonia and carbon dioxide (which would have a negligible impact in the small quantities released by cooling systems, since it is thousands of times weaker than some of the HFCs currently used).
There is also the option to replace the current HFC mix with different HFCs that trap much less heat over their lifespan. There is another group of chemicals available called “unsaturated HFCs”, or HFOs, which are less potent greenhouse gases than the current mix of HFCs.
A 2014 study undertaken for the European Commission found that, in developing countries, approximately 90% of HCFCs and highly potent HFCs could be replaced with substances that have a low or moderate warming impact.
Nancy Sherman, who works on HFCs at the Institute for Governance and Sustainable Development, tells Carbon Brief: “Businesses are working hard to bring alternatives to market, as they will have a business advantage as HCFCs and high-GWP HFCs are phased out. Availability of alternatives also varies by region and country, although some of the largest suppliers of alternatives are multinational corporations with a broad global reach.”
What’s happened so far?
The idea to tackle HFCs through the Montreal Protocol has existed since at least 2009. However, persuading India and some of the Gulf States to take this approach initially proved difficult. They argued that the issue should be discussed instead at the UN’s climate change body (UNFCCC).
For a while, it was a subject of heavy diplomacy. In September 2014, Indian prime minister Narendra Modi and US president Barack Obama agreed on the need to take urgent action on HFCs under the Montreal Protocol. Obama made similar agreements with the Brazilian president and Pakistani prime minister in 2015. Also in 2015, the EU and China agreed to work with other countries to agree on a solution to tackle HFCs.
The effort paid off. On 6 November 2015, nations accepted the Dubai Pathway on Hydrofluorocarbons. This was an agreement to work towards an HFCs amendment of the Montreal Protocol in 2016.
This was further discussed at a number of meetings throughout 2016. Now, in Kigali this week, countries are expected to decide upon a final deal.
What could happen in Kigali?
Countries have inched ever closer towards an HFCs deal over the past years, but there are still a number of important issues to be resolved before the meeting concludes on 14 October, which will determine the overall ambition and impact of the final amendment.
For instance, the North American proposal is that developed countries should reduce HFCs to 90% of the 2011-2013 average by 2019, and that developing countries should peak HFCs in 2021. All countries would then have to phase down in steps from their starting points.
India’s proposal is the outlier in terms of ambition. It suggests that developing countries should only peak HFCs from 2031, with unrestrained growth permitted until this point. In comparison, the island states have proposed cutting developing country emissions to 85% of the 2015-2017 average by 2020.
For developing countries, it is important that the freeze date is early, as this will prevent the rapid growth projected in coming years. Since many are currently in the stage of phasing out HCFCs, it would enable them to take advantage of a narrow window of opportunity to leapfrog HFCs altogether, and go straight to a sustainable alternative.
The Montreal Protocol also has its own pot of money called the Multilateral Fund, contributed by developed countries, that is used to advance actions in developing countries. Between 2015 and 2017, the fund has a budget of $507.5m.
Nations eager to seal the deal have also added their own sweeteners. In September, a group of countries including the US, UK, Germany and the Netherlands pledged an additional $27m to the Multilateral Fund designed to support early action, on the condition that the deal agreed in Kigali actually warrants it.
A group of 19 philanthropists simultaneously agreed to provide another $53m to developing countries to support improvements on energy efficiency.
Damian Carrington, The Guardian, Tuesday 11 October 2016.
Data has been transmitted across a national electricity grid for the first time, in what could be a significant step towards the creation of virtual power stations, where many thousands of homes and businesses combine to manage electricity use more smartly.
The new technology could lead to lower energy bills for consumers who allow small variations in the energy consumption of their appliances, such as water heaters or freezers.
The flexibility provided by thousands of appliances combined could reduce peaks in energy use and remove the need for some large new gas or nuclear power stations or polluting diesel generator farms that are started up in times of short supply.
The new data system, created using telecoms technology by Reactive Technologies (RT) and now successfully tested on the UK’s National Grid, could also allow the optimum use of intermittent renewable energy, an important feature given the fast-rising proportion of green energy on the grid.
The system uses new technology to send messages through national electricity cables to any appliances with a smart plug connected to the mains, asking it to adjust its energy use. In the home, this could mean allowing the temperature of a freezer to increase by 0.5C to cut demand or turning up a water heater at 1am to utilise spare renewable energy.
The development is part of a wholesale change taking place in the energy industry, in which large, centralised fossil-fuel power stations are being replaced by decentralised renewable energy and smart grids. The government’s own National Infrastructure Commission (NIC), the National Grid and industry group Energy UK have all said an energy “revolution” is taking place, delivering a low-carbon system that is more secure, cheaper and faster to build.
The NIC recently estimated that UK consumers could save £8bn a year by 2030 by adopting smart power technology, while also helping the nation meet its climate change targets. Numerous companies are working on smart grid concepts.
“The old mindset would be, we need to build more power stations,” said Jens Madrian, at RT and former CFO at “big six” utility RWE npower. “We disagree with that. There are other ways of managing electricity, one of which is carrying knowledge from the telecommunications and software engineering side into the energy sector.”
Marc Borrett, RT’s CEO said: “What is better? Building a Hinkley, which if it goes down you have lost 7% of the national electricity generation, or building up capacity from many hundreds of thousands of smaller devices around the UK? It needs quite a cultural shift: smaller is better, distributed is better.”
A spokesman for big six energy company SSE, which was also involved in the trial, said: “Innovation milestones, such as this, will help keep the lights on and offer significant cost savings.”
Electricity wires have previously been used to transmit information within homes and local networks, such as rows of street lights, by sending very high frequency data alongside the standard 50Hz signal. But sending messages across the country means going through sub-station transformers, which contain an air gap that cannot pass on the high-frequency data. Instead, using technology developed by former Nokia engineers in Finland, the RT system inserts the data as small changes in the 50Hz signal itself, which does jump the air gap.
When electricity demand needs to be ramped up or down, the system broadcasts a message through the grid which is received by the connected appliances. One advantage of the system over the internet and mobile phone networks is that the grid already reaches all electrical devices, even those in remote locations.
Dogs in fight against African wildlife crime.
Amazing short clip of video by the BBC’s Matt McGrath (October 3 2016) of the training and use of dogs by South Africa’s para-military wildlife rangers in the brutal fight against wildlife poachers.
A couple of days ago I stopped-off at Birling Gap to have my lunch…
I noticed while standing at the top of the steps that go down to the beach, how grey and course the shingle appeared. Presumably this indicated that this material is of relatively newly exposed flint. There was a large cliff-fall mid-way along the Seven Sisters back in the summer which no doubt has contributed,it now completely dispersed by the sea. Shingle is in the main, of a brownish hue due to exposure over time to iron compounds in the seawater.
The land to the east of Birling Gap appears much improved from the now regular winter pony grazing. This week there were still a number of plants still in flower. Scrub clearance by National Trust staff and volunteers has also had a marked effect on this once un-managed area.
A herd of ponies were grazing on Eastbourne BC’s Belle Tout area, the first of the autumn/winter grazing of four sites within the Birling/Beachy Head area this season.