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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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        <path d="M5.255 0h4.75c-.572 4.53-1.077 8.972-1.297 13.941H0C.792 9.104 2.44 4.53 5.255 0Zm11.061 0H21c-.506 4.53-1.077 8.972-1.297 13.941h-8.686c.902-4.837 2.485-9.411 5.3-13.941Z"/>
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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>
</aside>
<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

Butterflies harness electrostatic forces for pollination purposes

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Have you ever found yourself sitting in your favorite overstuffed armchair and finding your coffee just out of reach? In situations like this, a Jedi could easily deflect a blaster bolt or recover a lost lightsaber. I often wish I could use the “Force”, a mythical energy field used to bring back . In the real world, humans cannot use telekinesis to manipulate objects. But some animals do It uses natural electric fields to attract and repel objects.

The lowercase f “force” exerted by the animal kingdom is caused by friction between two objects, causing one object to lose electrons and the other to gain electrons. static electricity. Since electrons are negatively charged, objects that have lost electrons accumulate a positive charge, and objects that have gained electrons accumulate a negative charge. of electrostatic force Charged objects repel those with the same charge and attract those with the opposite charge. When you rub a balloon against your head, the friction causes the balloon to become negatively charged and your hair to become positively charged, causing your hair to stand on end.

like the force star wars The universe and animals use electrostatic force for both good and evil. In “Light Side” bee, bumblebeeand hummingbird Static electricity builds up as the wing moves through the air. These pollinators use electrostatic forces to transport pollen to and from flowers, supporting plant reproduction and biodiversity. On the “dark side” (at least from the prey's point of view!), predators like orb spiders use electrostatic forces to trap prey in a nestparasites such as mites and mites use it to connect to host.

Scientists suspect that other winged animals use “light-side” electrostatic forces to aid pollination, but it is unclear how widespread this phenomenon is in nature. Not yet. Two biologists from the University of Bristol investigated whether butterflies and moths are members of the order Lepidoptera I did electrostatic pollination. Scientists believe that moths wide range of pollinatorsHowever, opinions are divided as to whether butterflies pollinate plants.

The researchers collected wild butterflies and moths from across the UK and Germany, or purchased captive-bred versions. butterflies of the world. They were kept in climate-controlled mesh enclosures that mimicked their natural habitat and fed artificial flowers and pineapple slices filled with a sugar solution.

The researchers hypothesized that because lepidopterans have relatively small wings and flap slowly, they may be less electrically charged than other pollinating insects. To test this, they measured the static electricity of 72 adult peacock butterflies in free flight. They transferred each butterfly to an acrylic box lined with leaves native to its habitat to ensure that the charge the butterflies carried was as close to natural as possible.

Next, the ring-shaped electrode was attached to a device called “Electric Signal” that detects extremely weak currents. picoammeter. They placed a ring electrode next to the box's exit hole and used a picoammeter to record the charge on each butterfly as it flew out of the hole and passed through the electrode. They found that peacock butterflies have an average charge of about +50 picocoulombs. This is actually more than any other pollinating insect.

The researchers then tested whether the insects' habitat and ecology influenced their static electricity. They used similar techniques to measure charges in four additional species of butterflies and six species of moths across five continents, different climates, and feeding behaviors. They found that all 197 individuals tested carried enough electrical charge to displace pollen grains from several millimeters away. However, the strength and polarity (whether it was positive or negative) depended on the insect's habitat and ecological niche. For example, tropical species are more likely to be negatively charged than temperate species, and nocturnal foragers are more likely to be negatively charged than daytime foragers.

The researchers concluded that butterflies are actually good at pollination. The researchers speculated that the high charge may improve the insect's “light side” ability to attract pollen and sense electric fields around nectar-containing flowers. However, carrying a high charge also has its drawbacks, as highly charged insects are more vulnerable to “dark side” predators and parasites. They suggested that tropical and nocturnal Lepidoptera may be negatively charged. detect predatorsare more active in warm weather and at night. May the electrostatic forces be with them!


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Source: sciworthy.com

Harness Genetic Technology Now to Prevent Upcoming Food Crisis

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There are two major problems with the global food system. First, hundreds of millions of people cannot afford enough nutritious food to stay healthy. Second, it’s incredibly destructive. We’re still destroying rainforests to make way for ranches, both conventional and organic farms produce all kinds of pollutants, and our food system produces more than a third of greenhouse gases. I’m letting you do it.

Things could get even worse if global temperatures rise above 1.5 °C (see 2024 expected to be first year to surpass 1.5 °C warming threshold). But there’s a lot we can do, from eating less meat to reducing food waste (see “Is the climate food crisis even worse than we imagined?”). The amazing advances in genetic technology in recent years have greatly expanded the scope for improving the plants and animals that feed us. We can make them more nutritious and healthier, better able to cope with changing conditions and less susceptible to the diseases that will become more prevalent as the world warms. It should also be possible to produce plants that require less fertilizer and capture more of the sun’s energy.

It is surprising that most countries do not invest significantly in crop improvement.

The benefits from all this will be immense. We get more food from less land, lower prices, reduce greenhouse gas emissions and make it less likely that viruses such as H5N1 bird flu will cause new pandemics.

It is therefore surprising that most countries do not invest heavily in crop improvement. While there is some private investment, these companies are unlikely to make their technology freely available and adoption has been slow.

Opposition to genetically modified (GM) crops also binds us to the idea that more “natural” agricultural methods are better, as approval is difficult and expensive.

This situation is starting to change, with many countries making it easier to bring gene-edited crops and animals to market, but we need more action, and faster action.

The idea that organic food is good for the planet and genetically modified food is bad for the planet is a false narrative that hides a much more unpleasant reality. This means that continuing as is will only lead to more destruction and more hunger.

topic:

Source: www.newscientist.com

Scientists harness bottled ‘lightning’ to generate essential ingredients for life

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Nitrogen is an essential element for life and is an integral part of DNA and proteins. Most of the nitrogen on Earth exists in the atmosphere as gaseous nitrogen, denoted as N.2 However, most organisms cannot directly use nitrogen. In modern ecosystems, some microorganisms have specialized enzymes that convert nitrogen into nitrogen.2 It converts gases into a form that other living things can use. Fixed nitrogen These microorganisms Nitrogen fixing bacteria.

But 3 to 4 billion years ago, during a period in Earth's history called the Archean Era, life had not yet evolved and no nitrogen-fixing organisms existed, so scientists studying the origin of life are faced with a classic chicken-and-egg problem: life needed nitrogen to evolve, but before life evolved, there were no microorganisms to convert nitrogen into nitrogen.2 Let's turn gas into something we can use! So where did life get its nitrogen from before there were nitrogen-fixing organisms?

Researchers recently hypothesized that early life on Earth may have obtained fixed nitrogen from lightning. They propose that the high energy of a lightning spark could react with oxygen and N.2 Fixing atmospheric nitrogen2 The gas is converted into other usable forms of nitrogen. Nitrogen oxides.

Geologists have studied the sedimentary rock record to understand nitrogen throughout Earth's history, but they had no way to distinguish lightning-derived nitrogen in rocks from other ancient sources of nitrogen. To explore whether lightning provided fixed nitrogen to early life, researchers led by Dr. Patrick Barth created “lightning” in a jar and tested whether it would react with nitrogen.2 It emitted gases and produced nitrogen oxides that had an identifiable signal.

To simulate lightning, the researchers used electrodes in glass flasks filled with different gas mixtures: To mimic modern-day Earth, Barth and his colleagues used a flask with a composition similar to our current atmosphere, containing 85 percent nitrogen.2 They also used flasks containing an atmosphere similar to that of Archean Earth, which scientists believe was about 83% nitrogen.20% oxygen, 16% carbon dioxide.

The researchers added 50 milliliters (about a quarter cup) of water to the bottom of each flask to allow any nitrogen oxides and other compounds produced during the reaction to dissolve in the water. They discharged each experimental flask to about 50 kilovolts for 15 to 60 minutes — nearly 10 times the voltage of an electric car battery.

The research team developed a device called Quadrupole Gas AnalyzerThey measured the nitrogen compounds in the gases coming out of each flask before and after they were ignited. They found that in the modern experiment, more fixed nitrogen was dissolved in the water than in the gas. But in the Archean experiment, the fixed nitrogen was split almost equally between the water and the gas.

After each reaction, the researchers placed the flask of water into an apparatus that measured the weight of the nitrogen atoms. Gas Source Mass SpectrometerThey explained that nitrogen atoms exist in two main forms with different masses, called isotopes. 14The N isotope is lighter and more abundant in nature, 15The N isotope is heavier and less common. The researchers used mass spectrometer data to calculate the ratios of nitrogen isotopes in the lightning-fixed nitrogen samples. They compared these nitrogen isotope ratios to those in rocks that are 3.1 to 3.8 billion years old to see if there was a match.

The researchers found that the nitrogen isotope ratio of the lightning-produced nitrogen was about 0.1% to 1% lighter than that of the rocks, and suggested that this difference in nitrogen isotopes indicates that most of the nitrogen in the Archean rocks was not produced by lightning.

The researchers also used the lightning flash rate on modern Earth to predict the amount of nitrogen oxides that lightning would produce per year. They estimated that the annual lightning flash rate alone could not have provided enough nitrogen to support ecosystems on early Earth. They explain that there was even less lightning in the Archean than there is today, so even less nitrogen was available to support early life.

The researchers concluded that lightning was not the main source of available nitrogen for early life. Because nitrogen-fixing organisms must have evolved very early in Earth's history, life did not need to rely solely on lightning, they suggested. However, one of the 3.7-billion-year-old rock samples showed nitrogen isotope ratios similar to lightning-fixed nitrogen, leading the researchers to speculate that small amounts of fixed nitrogen from lightning may have supported early life. Furthermore, the researchers suggested that the lightning-fixed nitrogen isotope ratios obtained in this study could be used to investigate how nitrogen is fixed on other planets in the solar system.


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Source: sciworthy.com