Tag Archives: Heating

Save on Energy Bills: Harness Smart Technology to Reduce Heating Costs and Repair Your Boiler

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Utilize Smart Technology

“Minor adjustments can lead to significant improvements in energy conservation and warmth,” said Sarah Pennells, a consumer finance expert at Royal London.

Firstly, if your boiler or thermostat is equipped with a timer, make use of it.

For enhanced control, consider upgrading to a smart thermostat that connects to the internet. This option lets you manage your thermostat remotely, typically through a mobile app, enabling you to turn the heating on or off when plans change unexpectedly. A smart thermostat acts like a timer for your boiler, allowing you to use the app for scheduling heating and hot water.

Smart thermostats come in various models and offer features like multi-room control, hot water management, and “geofencing” that tracks your presence in and out of the home. Their prices usually range from £60 to £250 depending on the brand.




Upgrading to a smart thermostat
Allows remote control, generally via a mobile app. Photo: Stefan Nikolic/Getty Images

Bosch Room Thermostat II (£69.99); and Hive Thermostat V4 (£155 B&Q) requires a professional installation, which can typically be arranged through a retailer, though additional fees may apply.

Some energy suppliers offer discounts on smart thermostats from their partnered brands. The Octopus Energy and tado° partnership gives customers up to 50% off on tado° products. The Wireless Smart Thermostat X Starter Kit has been marked down from £159.99 to £112.

<h2 id="reduce-temperatures" class="dcr-n4qeq9"><strong>Reduce the Temperature</strong></h2>
<p class="dcr-130mj7b">Research indicates that decreasing the thermostat setting from 22°C to 21°C may save the typical UK household £90 annually.<a href="https://energysavingtrust.org.uk/take-control-your-heating-home/?_gl=1*boqspv*_up*MQ..*_ga*MTQ2OTcwMDExNy4xNzYyMjcwMDYy*_ga_GPYNXFLD7G*czE3NjIyNzAwNjAkbzEkZzEkdDE3NjIyNzA0NzY KajYwJGwwJGgw#jumpto-1" data-link-name="in body link"> Energy Saving Trust</a>. For most, a comfortable indoor temperature lies between 18°C and 21°C.</p>
<p class="dcr-130mj7b">According to <a href="https://www.youtube.com/watch?v=DDZNODZ5qyY" data-link-name="in body link">Citizen Advice</a>, lowering your thermostat can mean saving about 10% on energy bills. However, those who are elderly or have health concerns are advised not to set the temperature below 21°C.</p>
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        <span class="dcr-1qvd3m6">Most people find a comfortable indoor temperature between 18°C and 21°C.</span> Photo: Rid Franz/Getty Images
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<p class="dcr-130mj7b">Moreover, experts suggest that maintaining a continuous lower temperature consumes more energy than heating intermittently at a slightly higher setting.</p>
<p class="dcr-130mj7b">Setting your heating to switch off 30 minutes before leaving the house or turning in for the night can further decrease your electricity costs.</p>

<h2 id="lower-the-flow" class="dcr-n4qeq9"><strong>Reduce Flow Rate</strong></h2>
<p class="dcr-130mj7b">If using a combi boiler, you can lower the temperature of the flow, which is the water temperature entering the radiator.</p>
<p class="dcr-130mj7b">For those using a system boiler or hot water cylinder, <a href="https://www.edfenergy.com/energywise/lower-flow-temperature-on-combi-boiler" data-link-name="in body link">EDF Energy advises</a> seeking assistance from an engineer for guidance.</p>
<p class="dcr-130mj7b">Typically, boilers have a high flow temperature around 75-80°C. Reducing this to about 60°C might cut your gas bills without noticeably affecting comfort levels.</p>
<p class="dcr-130mj7b">“This approach is particularly beneficial in homes with well-sized radiators and adequate insulation, showing no significant change in comfort,” notes Pennells.</p>
<p class="dcr-130mj7b">The charity Nesta provides an online and interactive <a href="https://www.moneysavingboilerchallenge.com/" data-link-name="in body link">tool</a> to help users adjust their boiler settings. They recommend documenting the boiler's original controls and settings with photos before making changes.</p>

<h2 id="turn-down-radiators" class="dcr-n4qeq9"><strong>Adjust Radiators</strong></h2>
<p class="dcr-130mj7b">If your radiators have a dial controlled by a thermostatic radiator valve (TRV), you can set the temperature individually for each room. TRVs generally have a scale from 0 to 6, with 0 being off and 6 being fully open.</p>
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    <blockquote class="dcr-zzndwp">Research shows that people have begun to heat individuals rather than entire spaces.</blockquote>
    <footer><cite>Sophie Barr of National Energy Action</cite></footer>
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<p class="dcr-130mj7b">The Energy Saving Trust recommends setting your room on the lowest temperature that maintains comfort. You can set 3 or 4 in frequently used rooms and reduce this to 2 or 3 in less-used spaces. They also mention that integrating a TRV into an existing system with a programmer and thermostat could save households around £35 each year.</p>
<p class="dcr-130mj7b">While turning off heating altogether may seem like a good way to save money, experts warn that this could result in mold and dampness, which could incur greater costs and health risks over time.</p>
<p class="dcr-130mj7b">“During the energy crisis, we observed changes in behavior where people started to prioritize heating individuals rather than entire homes,” says project development coordinator Sophie Barr. <a href="https://www.nea.org.uk/get-help/resources/" data-link-name="in body link">National Energy Action</a>. “Our findings indicate that it's more cost-effective to provide heat to the entire area by adjusting radiators in unused rooms to setting 2, thus providing sufficient warmth to deter mold spores that can lead to serious respiratory health issues.”</p>

<h2 id="get-reflectors" class="dcr-n4qeq9"><strong>Install Reflectors</strong></h2>
<p class="dcr-130mj7b">The <a href="https://britishgasenergytrust.org.uk/" data-link-name="in body link">British Gas Energy Trust</a> suggests placing foil behind radiators to reflect heat back into the room. Since approximately 35% of indoor heat escapes through the walls, these reflectors ensure that heat is redirected into the room rather than absorbed by exterior walls, making them particularly effective on uninsulated external walls.</p>
<p class="dcr-130mj7b">Though there may be a small initial expense, they are reasonably priced, simple to install, and durable. They can be purchased in rolls and cut to fit your radiators. They are easy to apply with included adhesive or double-sided tape—first ensuring the radiator is turned off and cool. Screwfix offers rolls of 1.88 square meters for <a href="https://www.screwfix.com/p/essentials-470mm-x-4m-radiator-heat-reflector-foil/88629?tc=JS7" data-link-name="in body link">£7.51</a>, while B&Q has a 5 square meter roll for <a href="https://www.diy.com/departments/diall-radiator-reflector-5m-/1906873_BQ.prd?storeId=1037" data-link-name="in body link">£14.97</a>, and Amazon sells a 15 square meter roll for <a href="https://www.amazon.co.uk/dp/B0CYM442P1?tag=track-ect-uk-2181897-21&amp;linkCode=osi&amp;th=1&amp;ascsubtag=ecSEPr67xojmhks6sn7" data-link-name="in body link">£27.99</a>.</p>
<p class="dcr-130mj7b">To enhance efficiency, bleed your radiators every few months. Ensure the radiator is switched off and cool before inserting the key (<a href="https://www.diy.com/departments/rothenberger-radiator-key-pack-of-2/191173_BQ.prd" data-link-name="in body link">£3.50</a> for a B&Q 2-pack) or a flat-head screwdriver into the bleed valve (often located in the top corner) and turn it counterclockwise. Listen for a hissing sound as air escapes; wait for it to stop, showing a steady flow of water (you can catch it with a cloth), then turn the valve clockwise to close it again.</p>
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        <span class="dcr-1qvd3m6">Regular boiler servicing enhances efficiency.</span> Photo: Joe Giddens/Pennsylvania
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<p class="dcr-130mj7b">Avoid obstructing radiators with furniture or curtains, especially beneath windows, to distribute heat more evenly throughout the space.</p>

<h2 id="keep-your-boiler-serviced" class="dcr-n4qeq9"><strong>Regular Boiler Maintenance</strong></h2>
<p class="dcr-130mj7b">Routine boiler service enhances efficiency and extends lifespan by addressing minor issues. According to Octopus Energy, neglecting boiler maintenance can lead to up to 10% more energy usage compared to those serviced annually. “Failure to regularly maintain your boiler can significantly affect fuel efficiency and health,” warns Barr.</p>
<p class="dcr-130mj7b">As per Which?, the average cost for a boiler service ranges from £70 to £110.</p>
<p class="dcr-130mj7b">Some energy providers include this service in their annual coverage plans, such as British Gas, which features it in their <a href="https://www.britishgas.co.uk/cover/boiler-and-heating.html" data-link-name="in body link">home care</a> options starting at £19 per month. However, a boiler care plan might not be suitable for every consumer. Which? recommends considering if your monthly contributions may exceed the costs of the annual service or repairs. Ensure you have savings to cover the full service fee as needed.</p>
<p class="dcr-130mj7b">For renters, it is the landlord’s obligation to arrange for annual boiler inspections and certifications. “Annual maintenance is mandatory for all rental properties,” says Barr. "For homes with gas boilers, only a gas safety engineer should perform this work, and an Oftec certified engineer should handle oil boilers. Annual boiler maintenance guarantees that your system operates efficiently and prevents carbon monoxide leaks in your home."</p>

Source: www.theguardian.com

AI ‘Takes Risks’ but Can Aid in Combating Global Heating, Says UN Climate Director

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Leveraging artificial intelligence can aid the global fight against the climate crisis, but it’s essential for governments to implement regulations on this technology, stated the UN’s director of climate affairs.

AI enhances the efficiency of energy systems and creates tools to lower carbon emissions in industrial practices. The United Nations employs AI to support climate diplomacy efforts as well.

However, Simon Stiel, the executive director of the United Nations Framework Convention on Climate Change, expressed that the significant energy demands of large data centers raise concerns that necessitate governmental action.


“AI isn’t a one-size-fits-all solution; it carries risks. Yet, it has the potential to be transformative. We need to mitigate those risks while amplifying its catalytic power,” he remarked. “As we manage significant AI platforms, we will innovate ways to run them using renewable energy and encourage energy efficiency.”

He continued, “AI doesn’t replace human effort; it enhances our abilities. Most crucially, it is a force that drives tangible results, aiding in microgrid management, climate risk assessment, and resilient planning.”

Stiel offered an optimistic perspective on global climate actions, asserting that the world is “aligned with the Paris Agreement,” anticipating a surge in renewable energy and new governmental commitments to cut carbon emissions.

Confronted with strong opposition from Donald Trump’s administration, he staunchly defended climate diplomacy while observing the United Nations General Assembly in New York, where world leaders convened amidst significant geopolitical and economic challenges.

“If we look beyond the distractions, the evidence indicates a world that aligns with the Paris Agreement,” he stated. “Investment in renewable energy has soared tenfold over the past decade, with the clean energy transition flourishing across almost all major economies, reaching $2 trillion last year alone.”

While China is at the forefront of the global clean energy surge, nations such as the EU, India, several African countries, and Latin America are also widely adopting clean alternatives. However, investments face hurdles due to the obstacles posed by Trump’s dismantling of federal climate initiatives, even as many state governments and companies uphold their commitments.

Though businesses are recognizing the economic potential of transitioning to a low-carbon future, they still require more investment. A recent study revealed that out of over 700 low-carbon industrial facilities planned worldwide, only 15 secured the necessary funding for full production, representing a remarkable $1.6 trillion (£1.2 trillion) opportunity for investors.

Referring to this research, Stiel emphasized, “We’re not waiting for a miracle. The economics are favorable. Over 90% of newly installed renewables are cheaper than the least expensive new fossil fuel options. The technology and solutions are already available.”

However, he noted that despite companies acknowledging the shift, the tangible benefits of transitioning to a low-carbon economy have yet to be felt in households. “This boom is uneven. Its substantial benefits aren’t equitably distributed,” Stiel remarked.

He further noted that the impacts of the climate crisis are accelerating, necessitating quicker progress. Governments are obliged to develop a new national plan, known as the NDC, for controlling greenhouse gases in accordance with the Paris Agreement. While these were expected to be ready by February, Stiel has extended the deadline ahead of the Crunch COP30 Climate Summit in Brazil this November.

Numerous major economies, including the EU, China, India, Russia, and Saudi Arabia, have yet to officially submit their national plans, while Trump has withdrawn the United States from the Paris Agreement.

In a recent interview with The Guardian, Stiel, who emphasizes the positive economic prospects arising during the climate crisis, stated, “Every challenge has its skeptics.”

“We are now reinforcing and transmitting a stronger, unmistakable message: the world remains firmly committed to the Paris Agreement and is fully engaged in climate collaboration.

Source: www.theguardian.com

Ultra-Cold Atoms Defy Entropy and Resist Heating Up

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Some atoms simply refuse to follow entropy

Shutterstock / Mendin

Repeated energization of vast collections of atoms should result in the disruption of their established structures, yet quantum effects appear to resist these changes.

The expected outcome for a physical system is “thermalization,” where everything becomes hot and eventually turns into a puddle of water. Intuitively, one might think that continuously throwing rocks at a sculpture would accelerate this process. Hanns-Christoph Negerl and his team at the University of Innsbruck in Germany conducted experiments that mimic this notion using some of the coldest atoms on Earth, but they observed no heating.

“We anticipated witnessing the opposite,” Negerl shares. The researchers utilized roughly 100,000 cesium atoms, cooling them down to billionths of absolute zero through laser and electromagnetic pulses. At this chilling temperature, atomic behavior becomes entirely quantum. They arranged the atoms in numerous single-layer tubes and employed additional laser pulses to “kick” them repeatedly.

These kicks were intended to provide the atoms with extra energy, which should have resulted in heating and varying speeds. However, team member Yanliang Guo reported that they observed no such changes, regardless of the kick intensity or the adjustments made to the interactions between atoms. The atoms continued to display remarkably similar speeds, behaving as if they were “frozen” within a singular quantum state.

The concept of quantum particles generating heat isn’t new, tracing back to the 1950s. The timing of such occurrences has long been a topic of debate among physicists. Team member Manuele Landini noted that while previous experiments revealed mechanisms for heating atoms, this current investigation may have unveiled novel physics by exploring an alternate range of parameters.

The mathematical framework explaining these phenomena is complex and often contradictory. Adam Ranson from the University of Lille in France commented that calculating whether interacting atoms will heat up is quite challenging, often resulting in researchers simplifying equations to two or three atoms. There exists a theory suggesting that the quantum states of highly interactive atoms can align in a manner that prevents energy absorption, but Ranson believes this picture remains incomplete.

Experiments like those conducted recently act as quantum simulators capable of deeper insights, although Rançon emphasized that further exploration of kick strengths and interactions is still needed.

Robert Connick at Brookhaven National Laboratory in New York has been developing mathematical models relevant to such experiments that project the unusual behavior of atoms. He posits that discovering systems resistant to energy absorption could inspire new developments in quantum technologies, offering a stable quantum state for long-term reliable detection or data storage. “Thermalization poses a significant threat to maintaining quantum effects,” he explains.

Researchers are already planning follow-up experiments to align atoms in thicker tubes, manipulate different tubes, and investigate the possibility of “freezing” their speeds.

topic:

Source: www.newscientist.com

Planetary scientists suggest ‘Nanoparticle heating’ could raise temperatures on Mars

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One-third of Mars’ surface has shallow groundwater, but it is currently too cold for life to harness it. Proposals to use greenhouse gases to heat Mars require large amounts of raw materials that are scarce on the Martian surface. But a new study shows that artificial aerosols made from materials readily available on Mars (such as conductive nanorods about 9 micrometers long) could heat Mars more than 5,000 times more effectively than the best gases.

This artist’s impression shows what Mars looked like about 4 billion years ago. Image credit: M. Kornmesser / ESO.

Mars geoengineering is a concept that frequently appears in science fiction.

But real-world researchers are also investigating techniques that could melt and release frozen groundwater, potentially making the Martian environment more hospitable to life.

Many of these strategies involve warming through greenhouse gases, but the Earth lacks the ingredients needed to produce them.

“A once habitable Martian surface is crossed by dry river valleys, but the current icy soil is too cold for Earth-derived life,” said Dr Samaneh Ansari of Northwestern University and his colleagues.

“Rivers may have flowed as far back as 600,000 years ago, suggesting the beginnings of a habitable planet.”

“Many methods have been proposed to heat the Martian surface by closing the spectral window centered on wavelengths of 22 and 10 micrometers, through which the surface would be cooled by thermal infrared radiation rising into space.”

“Modern Mars has a thin carbon dioxide atmosphere that provides a greenhouse effect of only 5 Kelvin through absorption in the 15 micrometer wavelength range, and Mars clearly lacks sufficient condensed or mineralized carbon dioxide to restore a temperate climate,” the researchers said.

“It is possible to close the spectral window using man-made greenhouse gases (e.g. chlorofluorocarbons), but this would require volatilizing about 100,000 megatons of fluorine, which is only present in trace amounts on the Martian surface.”

“An alternative approach is suggested by natural Martian dust aerosols, which are, after all, the result of the slow breakdown of iron-rich minerals on the Martian surface.”

“Due to its small size (effective radius of 1.5 micrometers), Martian dust rises to high altitudes (at an altitude of 15-25 km, where the dust mass mixing ratio peaks) and is consistently visible in the Martian sky, present at altitudes of up to 60 km or more.”

“Natural Martian dust aerosols reduce daytime surface temperatures because the composition and shape properties of man-made dust can be modified. For example, nanorods, which are about half the wavelength of upwelling thermal infrared light, should interact strongly with that infrared light.”

In the new paper, Dr Ansari and his co-authors propose an alternative strategy for heating Mars: aerosolizing 9-micrometre-long nanorods made from iron and aluminium, which are available on Mars.

The bars are about the same size as natural Martian dust — essentially a bit smaller than glitter — and should fly up into the air when dispersed.

However, other properties of the rod-shaped material mean it should settle 10 times slower than natural dust.

The researchers evaluated their proposal using a version of the MarsWRF global climate model and another complementary 1D model.

The study found that these bars amplify the amount of sunlight reaching the Martian surface and prevent heat from escaping.

In fact, a sustained release of 30 liters of nanorods per second could warm the entire planet by more than 30 Kelvin above baseline temperature, enough to melt the ice.

After a few months, atmospheric pressure will rise by 20%, creating conditions to initiate a feedforward loop involving the volatilization of carbon dioxide.

It’s worth noting that the nanorod process will still take centuries, and Mars certainly won’t be a suitable place for human habitation.

“The increase in Martian temperature alone will not be sufficient to make the Martian surface habitable for oxygenic photosynthetic organisms,” the scientists said.

“On the other hand, establishing a photosynthetic biosphere on the Martian surface, possibly with the help of synthetic biology, might increase the chances of human thriving in the solar system.”

Team work Published in today’s journal Scientific advances.

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Samaneh Ansari others2024. Nanoparticles could keep Mars warm. Scientific advances 10(32);doi: 10.1126/sciadv.adn4650

Source: www.sci.news