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TRICKS TO LIGHT THE FIREPLACE
If you have never lit a fireplace, you may be wondering what are the best ways to do it. You may think that it cannot be that complicated, although you have heard of different methods to do it. In this article we want to give you some tricks to light your fireplace safely, efficiently and with little effort. So you can enjoy the heat of your home in the shortest time and safely.
Today in the HotFireDoor post , fireplace doors , we talk about how to light a fireplace. All the tricks, steps to follow and materials to use. If you want to light a fireplace optimally, keep reading this post.
First steps to lighting a fireplace
In either case, the main thing is to place the firewood in the right way. To do this, make a kind of cabin by placing branches in such a way that there is free space underneath. So you can better light your fireplace.
Make sure the branches are neither too thin nor trunks. It is also important that they are well dry, since damp branches, in addition to not lighting well, produce a lot of smoke and it is very annoying.
What to use to light the fireplace
Lit with papers Form a ball of newspaper about the size of your fist. Don't over-tighten it, as it won't light up well. Set the ball on fire and place it inside the fireplace under the twigs that you have previously placed. The paper will quickly burn and cause the branches to ignite as well. When the fire starts to rise, carefully place a log on top, letting the fire begin to build in it. Add a few more logs as needed.
If for some reason you see that the branches do not ignite, blow lightly towards the fire to raise the flame.
Ignition pills The ignition pads are very practical. You only need to light one and throw it in the fireplace so that everything starts to burn, although it is better to light a couple of them and make sure they fall in the center. This way you will get the fire to feed earlier.
Corks with alcohol This homemade trick is very effective too. Store all the corks from the bottles you use in a bottle with burning alcohol. When you need to light the fire, you just have to take out one of the corks and light it. Be very careful because they catch on immediately and if you don't do it quickly you can burn your fingers.
With matches You can light the fireplace perfectly with a pair of matches. You just have to light them and throw them on the branches for the fire to ignite, although you may need to repeat the process a couple of times.
There are also matches that have the longest stick, specifically designed for this type of fire. They are lit and can be kept on the branches until the fire starts, so that it is not necessary to light more than one match to make the fire.
What firewood is better to light the fireplace?
Depending on the type of firewood, the fire will last more or less and you will have to do more cleaning of the fireplace . For example, pine firewood is the cheapest, but also the one that lasts the least and generates the most waste because it releases a lot of resin and does not burn. On the other hand, the harder olive and almond woods make the fire last longer.
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How to light a fireplace
Do you want to know how to light a wood burning fireplace? Although there is no single way to do it, here we tell you, step by step, a fast and effective method. Also, you have 5 practical tips. And if you want to light a barbecue, read these other tips.
How to light a fireplace. Cleaning first
Before starting the winter season with the fireplace lit, you have to think about cleanliness. This will allow the smoke to escape unobstructed to the outside instead of plastering in the room. In addition, your fireplace will work at full capacity and you will avoid possible fires in the tube. It is advisable to sweep the chimney every year at the end of winter.
Thinking of cleaning the fireplace yourself? Or do you want to know how professional chimney sweeps do it? In this other article we will tell you in detail.
How to light a fireplace step by step
Get everything you need first. The wood must be dry so that it ignites well and does not generate excess smoke. In addition, gather fine firewood, small branches, sticks or chips to start the fire. Have ignition pads on hand: it is the most practical, although you also have other options that we will tell you below. And, of course, a lighter or matches.
STEP 1 Open the shot Before starting to light the fire, open the draft wide. And keep it in this position for about 20 minutes. If your fireplace has them, open the vents as well. The objective is that the fire has the necessary supply of oxygen.
Have you just arrived at your country house and want to know how to light the fireplace for the first time in a long time? First you will have to warm it up a bit. Open the shot and wait an hour or so while you finish setting up.
STEP 2 Place the first pieces Here it is a question of choosing material that ignites easily to start the fire and then “infect” the thicker and slower-burning logs. The softwood, such as pine, is the turns faster. Always make sure that everything you put is dry and clean.
How to arrange the material? It depends on the size of the pieces:
Fine firewood . You can also cut thicker wood chips. At the base of the fireplace, put two or three pieces in the same direction. Then put the same amount on top, but in the opposite direction. Repeat the operation two more times. In total, you will have about six floors of interlocking pieces, which make up a “mountain” with a hole in the center.
Smaller twigs and / or chips (b). You can get a bag of chips selected just to start the fire: they are cut into pieces of about 10 cm so that they ignite more easily. In addition, they guarantee a maximum percentage of humidity (it is usually indicated on the packaging). Make a bed in the center of the fireplace. You can also add dried pinecones , but with caution: they contain a lot of resin and can cause large flames.
Also, if you have a log that is too bulky, you can add it at this time. Place it in the bottom of the fireplace. If you are going to start the fire with fine wood, support the branches on the trunk leaving a free space at the base below, like a small tunnel.
STEP 3 Add the logs There are several ways to organize firewood. The key is that there is enough air between the logs so as not to "smother" the fire. One of the most common methods is the pyramid : On top of fine firewood or small branches and chips, place thicker logs in a pyramid shape. That is, joining in the center and leaving a gap below. At this point it is convenient to have hardwood firewood, such as holm oak, oak, elm, beech ... This wood generally burns more slowly and its embers generate heat for a longer time. Although it also depends on its quality and degree of humidity. In addition, they contain less resin: less residue that can adhere to the outlet tube.
If you have chosen fine wood as a starting material (a) , you can alter the order of the steps. Light the fire first (step 4) and then add the logs, forming a pyramid on top of the “mountain” of fine wood.
STEP 4 Light the fire How to light a fireplace? One of the most practical and effective ways is to use ignition pills :
Light the pill with a lighter or match and place it on top of the twigs or small chips, under the logs. If you have opted for the “mountain” of fine wood, insert the lit tablet in the central hole. Next, add the logs. (step 3).
Be that as it may, the fire must start quickly. If it doesn't or too much smoke is generated, perhaps the wood is damp or you forgot to open the chimney flue.
How to make fire without pills?
If you have a sack of special ignition chips or good-sized dried pineapples, you can probably do without the pill. Simply try to bring a lit match closer.
Consider getting long matches or special lighters for lighting. They will make your work easier and you will avoid accidentally burning your fingers.
How to make fire without conventional pills
Traditional ignition pads are made from solvents and petroleum products. They give off poisons when they burn and some (not all) produce odors. Therefore, for your fireplace you should choose healthier and more ecological solutions, such as:
Forest wool with natural waxes. They are pressed wood filaments bathed in natural waxes. Pills or discs made with pressed wood . There are even those that light like a match.
How to light a fireplace safely
Keep these tips in mind:
Beware of paper and cardboard. It is quite common to include crumpled paper or cardboard to get the fire started or stoked. However, it has its drawbacks, such as contributing to the accumulation of soot. In addition, as it is a lightweight material, it can float while it is on and cause a fire in the chimney tube when it comes into contact with substances adhering to its surface. Or, fly into the room, with the consequent danger. Completely discard printed papers or cardboard: when the ink burns, it generates polluting gases in the room.
Don't burn wood products. Painted or treated wood can release toxic gases when burned.
Use only dry firewood. If it is wet it gives off a lot of smoke, contributes to soot, does not ignite well and sizzles.
Get hold of fireplace utensils. They allow you to move logs safely and keep your fireplace ash-free. The usual ones are: clamp, hook, brush and shovel. To stoke the fire, nothing better than a bellows.
Read the manufacturer's recommendations if you have purchased a fireplace with an insert or a metal fireplace.
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Kinetic energy: creating electricity with our movement
Beyond wristwatches, there are a few devices that use only kinetic energy to operate. Storing kinetic energy is not the most efficient way to generate electricity, but it is the most appropriate way to take advantage of all the energy we generate to recharge the devices we use daily: mobile phone, laptop, desktop computer, electronic equipment, household appliances, etc. .
Ever since I read an article a few years ago on experimental devices powered by energy that is generated with movement, I have believed that kinetic energy is wasted by the technology industry, which has strived in recent years to increase the life and reliability of batteries conventional, whose latest lithium ion models equip computing and electronic devices, and even electric cars.
Why the kinetic energy I generate dissipates as heat
I live near the Barcelona seafront and I take advantage of every morning to go jogging for half an hour, along an urban route of just over 5 kilometers. I don't ride the bike as much as I'd like to, but Kirsten does it more consistently, at least until our second daughter was born.
Living in a very dense urban area where pedestrian areas and local establishments predominate, we rarely use public transport to get around, but we move on foot. All these movements produce energy, which is dissipated, especially in the form of heat . No system is used to transform it, store it and use it at another time.
Our youngest daughter, Ximena, who is six months old, usually enjoys going for walks and errands inside a baby carrier , looking out to satisfy her curiosity.
Baby carriers are usually comfortable and reinforce the bond between a child and his parents, by resembling in a way not only the bales traditionally used in many parts of the world, but also, in nature, the pouch used by kangaroos and the remaining marsupials to protect their young while they nurse them during their first stage of development. Both the baby carrier and its carrier generate energy with their movement, but it dissipates without being used. Another opportunity to create wasted useful energy. Agnes , our oldest daughter, turns 3 in February and alternates walking with the cart. In the coming months, Ximena will go by car, to the relief of her parents' lower back, and Inés is now ready to stand on the wheeled platform that attaches to the back of any car. All the energy created by the movement of the car is also wasted. Again, a missed opportunity to convert all this energy into electricity.
Why does the kinetic energy that I generate dissipate as heat? Perhaps the computer and electronics industries are to blame, which have so far failed to successfully market devices that are recharged (or that are always recharged and do not even require conventional batteries) thanks to the conversion of our movement or movement generated by our shares in electricity.
Our movement is energy ... untapped
As I was running the other day, I was thinking about wearing energy-storing trainers with every step, plus a T-shirt and leggings capable of doing the same. This energy could be used to recharge the music player I carry while I run, or it could even be stored in an equally compact device that is light enough to be effortlessly carried in a bracelet or pocket.
Set to dream, this same device could then extend the autonomy of my mobile or laptop, for example. Unfortunately, this everyday application of stored kinetic energy converted to electricity is a vision for the future.
There are several forms of energy, such as chemical, generated by heat, electromagnetic radiation, nuclear energy, gravitational energy, electrical energy, elastic energy, etc. All these forms can be grouped around two groups, potential energy (the ability of some bodies to generate work) and kinetic energy (from the Greek "kinesis", movement), which appears with movement. When potential and kinetic energy are joined in a moving body, mechanical energy is born, which we can store and reuse.
Although health studies in recent years show an increase in sedentary lifestyle , especially among the youngest, we continue to make daily efforts that we do not pay attention to.
One kinetic battery per child?
One way to take advantage of all the energy generated during any activity, most of which is dissipated as heat and is never used, would be to use kinetic energy chargers, or devices that function as perpetual-running clocks, using our physical activity as a method of recharging.
But this vision still has significant pitfalls to resolve. One Laptop Per Child ( OLPC ), responsible for the development and commercialization of the computer for children in poor countries, the XO-1, is one of the organizations that has shown the most interest in developing a battery powered by children's kinetic energy.
According to OLPC , although kinetic technology is well known, a battery of this type would not be small enough to be integrated into future models of the computer they develop.
Another challenge would be to convert an inconsistent and changing motion into electricity. A child playing or going to school can walk, stand, run, jump, crawl; different intensities of kinetic energy.
The OLPC wiki mentions the intensive research carried out by DARPA , a technology agency under the US Department of Defense, in the field of small devices that create electricity from simple movement, such as that generated by a hand or by walking.
According to OLPC, the charging device used for Faraday mechanical lanterns produces electricity through a simple wiggle, and is technologically as simple as it is cheap. It could be modified to generate electricity with any noticeable movement, especially walking.
Mechanical flashlights were already used in World War II, when the recharging of handheld equipment was intermittent and unreliable, if not unfeasible.
Already then, different methods were developed to generate the necessary power to maintain constant lighting: squeezing a handle, moving a crank or shaking the device. Despite the knowledge of these techniques for decades, their commercial application has always been a minority.
Generate energy while walking
In the same category of devices, there are small backpacks that capture the vertical movement generated while walking or running and convert it into electricity. IBM published abundant documentation on this family of devices a decade ago , in which it is concluded that the movement generated by the legs is the most suitable for capturing energy. These studies have attracted little commercial interest thus far.
TIME magazine included in its article on the best inventions of 2008 , in position 33, a " harvester of biomechanical energy ", an invention of Max Donelan , a specialist in kinetics at Simon Fraser University. The device ties around the knee and “recovers” up to 5 watts with the sheer power of leg braking while walking.
Shake Before Use: Personal Power Generator
At the January 2009 edition of the CES computer and electronics fair, the startup Tremont Electric presented a device that stores kinetic energy generated while a person walks or shakes the device. The nPower PEG (“Personal Power Generator”) transfers energy, converted into electricity , to the battery of the connected portable electronic device.
The nPower PEG, which has the appearance of a small cylindrical bar that houses another slightly longer bar inside and has been designed for easy portability, can recharge 80% of the battery of a mobile or a netbook in 1 hour, according to Tremont Electric. The recharging process can be done with body movement or by shaking the nPower PEG vertically.
The inventor of the device and driver for Tremont Electric, Aaron LeMiex, came up with the idea of developing the device for recharging devices with kinetic energy while walking, 10 years ago now, some 2,500 kilometers of rural routes in the Appalachians, United States. Aaron LeMieux then often found himself in the dilemma of having to deviate his path and move to urban centers in order to recharge his electronic devices.
The 22.8 (9-inch) by 3.8-centimeter (1.5-inch) nPower Personal Electric Generator weighs 255 grams (9 ounces) and is made from recycled materials. However, this small generator does not include a battery, so that users cannot store the generated kinetic energy for later use, but instead the transaction must be done instantly, limiting its potential use in any situation.
The device, which includes a USB 2.0 port, is compatible with 90% of portable electronic devices, such as multimedia players, GPS, cameras, mobile phones, portable game consoles, camcorders and small computers, or netbooks.
It is not necessary to continuously shake the nPower PEG to guarantee its operability, since it has been designed to transmit electricity inside a backpack or suitcase. Likewise, it also works while the user is sitting on the subway, train, or bus, or while riding a bicycle.
Devices like the nPower PEG serve as pioneers in the field of electric generators starting from our movement.
Kinetic mobile phones
It is not surprising that companies and research centers work on dozens of experimental prototypes of everyday devices that never reach the market; however, many of them are used as a previous model for later commercial versions.
And, if several companies experiment with mobile phones that incorporate batteries that hardly need to be recharged, others go further and directly dispense with any need for external recharging, employing the same kinetic principle used in the watch industry for decades.
It is precisely a watchmaker, the Swiss Ulysse Nardin, who claims to have created the first mechanical mobile phone with the help of the firm SCI Innovations. The mobile uses kinetic energy for its operation, although it has additional energy from a battery if necessary.
Kyocera also intends to commercialize mechanical telephones in the future, which would only operate on accumulated energy from the user's daily movement. This Japanese company has created a flexible mobile phone prototype that uses tiny piezoelectric generators to capture and convert even the tiniest movement or vibration into energy.
The head of the concept mobile, Susan McKinney, has created a flexible device that folds up to make calls and essential functions, while it can be unfolded to take advantage of its high resolution screen with content that requires it. The device feeds on the energy that we provide when we interact with it, not only from movement or slight vibrations, so that its energy reserve would increase with more intensive use.
Both Ulysse Nardin's Swiss mobile and Susan McKineey's model are, for the moment, mere conceptual objects, but they respond to the desire to create electronic and computing devices capable of sustaining all their activity without the need for conventional electrical power, a relief from the growing impact of these devices on the environment.
A floor that converts our steps into energy
In addition to personal electric generators that, like Tremont Electric's nPower, recharge any powered device with simple movement, it is also possible to install a kinetic mechanism on a busy surface and thus convert the footsteps of people (or livestock) walking on your surface in electrical energy.
Already in 2006, a group of British engineers decided to collect the vibrations of the street with a prototype that was installed at the same level as the surface. The mechanism devised is capable of converting the vibrations generated by people's footsteps into electricity , which is later used to supply the nearest street lighting. The initiative was dubbed the Pacesetters Project and promoted by the British firm The Facility Architects, which continues to work on what it calls " energy harvesting ".
Now, the also British Pavegen has achieved a certain impact with the installation of a slab in East London that collects kinetic energy from pedestrians . Pavegen ensures that each small station can generate up to 2.1 watts per hour with the clueless and random of the anonymous pedestrian.
By installing 5 units of these kinetic energy collector slabs on a busy street, the startup Pavegen ensures that enough energy is generated to illuminate a bus stop for an entire night.
Take advantage of the pavement in car parks to generate energy
A Sainsbury's supermarket in Gloucester, also in the United Kingdom, has proposed that part of the energy required by the establishment and the lighting be generated by the buyers' cars , which actuate piezoelectric lights installed at the entrance to the car park, capable of converting kinetic energy into electricity.
According to the Daily Mail, the more than 30 kW generated by the speed bump installed on the parking lot is enough for all the cash registers to work . A small change in the parking lot that visitors do not even perceive that, however, supplies a substantial part of the establishment's electricity consumption. In the future, similar mechanisms could cope with the energy needs of particularly crowded places.
The idea put into practice by Sainsbury's seems to have been liked on the other side of the Atlantic: an establishment belonging to a fast food chain located in Hillside, New Jersey, intends to install a similar speed bump in the car ordering area. The device for capturing and transforming kinetic energy into electricity has been developed by the American company New Energy Technologies.
We, a wasted energy source
The kinetic energy generated by any moving body could be collected and converted into electricity using known techniques. Until now, research centers around the world have focused more on improving increasingly smaller and longer-lasting batteries, to the detriment of technologies that would avoid the dependence of the devices themselves on an external power source.
However, a greater awareness of users and the improvement of equipment related to adventure sports lead an increasingly noticeable change in which kinetic devices and chargers stand out, in addition to solar ones. Meanwhile, I still have a dream: to turn every one of my actions, no matter how small, into electricity.
I'd be comforted to know that a morning run is enough to keep the laptop I use for work next to work for hours.
Generate electrical energy
There is no natural source of electricity that is practical to use, so it is necessary to resort to other energy sources that allow it to be generated. Various systems have been designed to convert other types of energy into electricity.
Electric generators and thermal machines
When any type of energy, be it mechanical, thermal or other, is converted into electricity, we speak of electricity generation. The most common process is to convert the initial energy into mechanical energy and then this into electricity by a machine called an electric generator. The initial energy can come from different natural sources such as water and wind, which are capable of producing movement to generate electricity.
Electric generators convert the mechanical energy of a rotating shaft into electrical energy. If a conductor, for example a copper wire, is in a variable magnetic field, a potential difference (voltage) is generated; This is also called electromagnetic induction. The variable magnetic field is produced by the rotation of the central part of the generator, called the rotor; the fixed part is called the stator.
The voltage or electrical potential indicates an energy level; electrons always move from a point with high potential to one with low potential.
It is also common to convert the original source of energy into heat (thermal energy) and then this into mechanical energy, a process that is carried out by a heat engine. This is the case, for example, of chemical energy from fuels and nuclear. There are also other more direct processes, such as photovoltaic cells, which convert solar energy into electricity, and fuel cells, which convert chemical energy into electricity.
The steam engine is the first heat engine, and probably the most successful. They became commercial thanks to Thomas Newcomen, an inventor who around 1712 began using them in the coal mines of England. However, today the steam engine has been almost completely displaced by others much more efficient and economical.
Thermal machines convert heat into mechanical energy, and the latter into electricity using a generator. Various systems are used for this operation:
Steam turbine, also called Rankine cycle. This turbine is only part of a more complex system, so it is preferable to call it a generation plant or cycle. It is made up of a large number of blades (blades) attached to a shaft. The steam enters at high speed, collides with the blades and makes them rotate. The turbine shaft drives a generator that produces electrical energy. The steam that comes out goes to the condenser, where it is transformed into liquid water.
Gas turbine or Brayton cycle, it is similar to the steam turbine because both have blades attached to the shaft. However, the gas one has an additional component, the compressor, also made up of blades that are attached to the same turbine shaft; in this the ambient air is sucked and compressed. It is then heated in the combustion chamber by burning a fuel, to finally pass through the turbine itself. The hot gases drive the turbine, which turns the compressor and the electric generator.
Diesel engine. This type of engine is widely used in land transportation, not only in older vehicles but also in automobiles. It is widely used in medium power thermoelectric plants.
Diesel engines use a four-stroke system: intake, compression, injection and ignition and exhaust. In the first time, the air enters, then it is compressed with the push of the piston plunger upwards, which raises the temperature of the air. In the third stage the fuel is injected, which with the high temperature and pressure of the air produces the combustion; The fuel mixed with the air burns rapidly, whereupon the gas expands and pushes the piston downward, causing movement. Finally, the gases escape and a new cycle begins.
Combined cycle electric generator. It consists of a gas turbine linked to a steam turbine. Natural gas ignites as it enters and turns the blades of the gas turbine, generating great energy. The hot gases leaving the gas turbine pass through a recovery boiler, where high pressure steam is generated, which expands in the steam turbine. Both turbines generate electricity. The steam turbine has a condenser such as in the Rankine cycle. The efficiency of this cycle is higher than that of each separate cycle.
Fuel cells They directly convert the chemical energy of a fuel into electricity. Its first applications were in space programs. Currently the most common type of cell uses hydrogen as fuel, generating electrical energy with efficiencies of the order of 50%, without producing any pollutant; the only product they discharge is pure water. Many scientists and technicians think that the fuel of the future is hydrogen and that the best way to use it is in this type of cell.
Hydrogen can be obtained from water, abundant and cheap, using electricity generated by non-polluting renewable sources, such as hydropower, wind or solar energy; the great drawback of fuel cells is that their cost is still high.
Steam machine
It was key in the development of rail transport. Although they were very inefficient, they were until the 19th century the only ones that could move the heavy train carriages.
In Chile, the first steam engine that was used on the railroad between Copiapó and Caldera is still preserved as a historical memory, thanks to the boom of the Chañarcillo silver mines. It was inaugurated in 1851; It was the first railway in Chile and one of the first in America.
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How to convert mechanical energy into electrical energy?
Mechanical energy is produced when an energy source is expended to create the physical motion of an object. In the case of a human being, the body burns nutrients from food, which are used to do jobs like pedaling a bicycle. In this case, the chemicals in the nutrients are converted into the physical and mechanical force to propel the bike. Mechanical energy can be converted into electrical energy through some type of generator where magnets and coils convert motion into Electro Motive Force (EMF), which is generally measured in volts.
Mount the car's alternator on the piece of plywood so that the alternator is upright. Use the bolts to secure the alternator in place, then place the flat surface of the wood in the corner of a wall to prevent the unit from sliding.
Fill the serrated groove of the alternator pulley with black electrical tape, and also make sure to cover the sharp edges of the pulley (on both sides of the grooved area) with the tape. The entire pulley should look like a rubber wheel once you've applied the tape generously.
Position the bike so the rear tire is resting on the taped pulley and lift the rear wheel of the bike off the ground, lifting it into the air by placing one or two railroad ties under the frame of the bike. Make sure the wheel is pressing against the pulley as hard as possible.
Plug the car alternator wire harness into the alternator socket. Strip 1 inch (2.5 cm) of the insulation from the two wires coming out of the harness. There should be a black wire and a red wire. The black will connect to the negative terminal of the car battery and the red will connect to the positive terminal.
Install the battery terminals on the bare wire ends, fixing the terminals on the wires with an appropriately sized screwdriver or wrench, depending on the type of terminal you have. Connect the terminal of the black wire to the negative terminal of the car battery, and then connect the red wire to the positive terminal of the battery. Squeeze to lock them in place.
Sit on the bike and start pedaling slowly. Watch the rear wheel of the bike begin to turn the belt pulley on the alternator. Pedal as fast as you can for about 15 to 30 minutes, making sure the bike doesn't tip over while resting on the railroad ties. Balance the bike in the same way as if you were galloping. The alternator will convert the mechanical energy of the bicycle wheel into electrical energy that will be stored in the battery.
Remove the battery terminals and connect any 12 volt DC device to the battery posts and see if the battery has enough charge to run the device for 1 to 5 hours, depending on how much power the device draws battery to operate. When the battery runs out, recharge with the bike and alternator system.
Tips A more permanent system of bicycle-generated electricity can be designed with some mechanization work done on the rear of a bicycle and on the pulley of an alternator. The pulley on the alternator can be replaced by a bicycle sprocket, to which a chain is connected between the front sprocket of the bicycle and the alternator sprocket (the rear wheel is pulled out in such a device). A more stable and permanent mounting bike frame can also be realized, making the operation much simpler.
A generator of a certain type, consisting of internal coils and magnets, is always used to convert mechanical energy into electrical energy. The rotation of the magnets is carried out by the chain or belt interconnection between the mechanical movement (pedaling bicycle, automobile engine, water turbine) and the generator or transmission alternator.
Warnings The electricity stored in the battery, no matter how it is produced, is very real. Never put the battery posts together because they can cause sparks and electric shock.
MECHANICAL ENERGY - EXAMPLES, ADVANTAGES AND DISADVANTAGES
Did you know that any form of energy is required to perform different jobs in our day to day? Many times without realizing it, we are converting energy from one way to another, that is why in this post; We want to tell you all about mechanical energy, which is, what are the types of mechanical energy and some examples where this energy is stored. Energy cannot be created or destroyed, it can only be converted from one form to another.
WHAT IS MECHANICAL ENERGY?
Mechanical energy can be due many times because of the position of the system or an object and is also known as potential energy. While kinetic energy is the energy that a system, or a body, possesses due to its relative motion. The total energy of the system is the sum of its potential and kinetic energy. This is known as the mechanical energy of the system.
We can then say that the formula for total mechanical energy of a system is the sum of the kinetic mechanical energy of the system and its potential mechanical energy.
TYPES OF MECHANICAL ENERGY
The types of mechanical energy are as follows
1. HYDRAULIC POWER Hydropower, also called hydropower, or hydropower; It is used to generate electrical energy , taking advantage of the potential energy that falls from the water.
2. WIND ENERGY This renewable energy, today is considered one of the most exploited energies, this energy is obtained through the wind . Spain is the third largest exporting country in the world in this type of energy.
3. TIDAL ENERGY This type of tidal energy is obtained by taking advantage of the tides, this is also a type of renewable energy
EXAMPLES OF MECHANICAL ENERGY There are several ways to generate energy, here are some examples of the transformation of mechanical energy and in what ways potential energy is often used.
1. HYDROELECTRIC PLANT A hydroelectric plant is a clear example of conversion of mechanical energy to electrical energy . The mechanical energy of the water that falls from a waterfall is used to rotate the turbines that are present at the bottom of the waterfall and the rotation of these turbines is used to generate electricity.
2. STEAM MACHINES The engines of steam-powered machines basically use thermal energy. This thermal energy is converted into mechanical energy that is used to run the locomotives; This is an example of converting thermal energy to mechanical energy.
3. INTERNAL COMBUSTION ENGINE In an internal combustion engine, chemical energy is subsequently converted into mechanical energy. This conversion is achieved as the fuel burns. In this case the mechanical energy is used mainly to put the vehicle in motion.
4. WINDMILLS Windmills are used in the generation of electricity. The kinetic energy of the winds causes the blades to rotate automatically. Windmills convert this kinetic energy from the winds into electrical energy.
5. A GAME OF BILLIARDS When playing billiards, the mechanical energy of the cue is transferred to the billiard ball. This causes the ball on the table to move and cover a certain distance before it comes to a stop.
6. ELECTRIC MOTOR An electric motor is used for the conversion of electrical energy into a usable form of mechanical energy. This process is the exact opposite of a generator. These electric motors are used for example in fans.
7. L OCOMOTIVE Electrical energy is used in locomotive engines where it is subsequently converted into mechanical energy. This mechanical energy comes in the form of the kinetic energy of a moving locomotive or vehicle.
8. BULLET A bullet in motion has kinetic energy. A part of this kinetic energy is converted into thermal energy.
9. A DART GUN A dart gun can store mechanical energy in the form of elastic energy. The dart gun has a spring that can store elastic energy when in a compressed position. This energy, when the spring relaxes, causes the dart to move. In this way, the elastic energy of the spring is converted into kinetic energy of the moving dart.
10. BALL ON A TABLE When a ball is placed on a table and is at rest; it is at that moment that it has potential energy due to the height of the ball from ground level. Now if the ball falls off the table, the potential energy will start to convert to kinetic energy. Their sum, however, will remain constant and will be the total mechanical energy of the system. Just before the ball hits the bottom floor, the total potential energy of the system will drop to zero and it will only have kinetic energy.
In the examples where mechanical energy is stored, it is also stored as potential energy. There are also cases where a body has both types of energies simultaneously. Like an orbiting satellite, the Earth will have potential energy due to its position from the Earth's surface, as well as kinetic energy due to its relative motion relative to the planet.
ADVANTAGES AND DISADVANTAGES OF MECHANICAL ENERGY
- ADVANTAGES OF MECHANICAL ENERGY
Among the advantages of this type of energy we have above all, we see that it is one of the cheapest energies to generate, easy to obtain and is autonomous because it does not depend on any other energy to be able to generate power, it is much more efficient than a manual work and it is quite safe.
- DISADVANTAGES OF MECHANICAL ENERGY
One of the biggest disadvantages is above all the high cost, requiring constant maintenance, the machinery can become quite heavy, and many times over time they must be replaced, because they remain as obsolete machinery, accelerated thermal wear , there is a significant cost in the repair or replacement of the machine and it is necessary to train or specialize the personnel who will be in charge of said machine
At Aura Energía, we are committed to the environment, we are a light marketer that offers 100% renewable electricity.
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Use of mechanical force to generate electricity
Summary The need for energy is a confirmation from the beginning of life itself. An organism to grow and reproduce requires energy, the movement of any animal involves an energy expenditure, and even the very fact of the respiration of plants and animals implies an energy action. In everything related to individual or social life, energy is present. Obtaining light and heat is linked to the production and consumption of energy. Both terms are essential for the survival of the earth and consequently of plant, animal and human life. The human being from his first steps on earth, and throughout history, has been a seeker of ways to generate that necessary energy and facilitator of a more pleasant life. Thanks to the use and knowledge of the forms of energy, he has been able to cover basic needs: light, heat, movement, strength, and reach higher levels of comfort to have a more comfortable and healthy life.
Abstract The need for energy is a realization from the very beginning of life itself. An organism to grow and reproduce requires energy, the movement of any animal is an energy expenditure, and even the fact of the breathing of plants and animals implies an energetic action. In everything related to individual or social life energy is present. Obtaining light and heat is linked to the production and consumption of energy. Both terms are essential for the survival of the earth and consequently of plant, animal and human life. The human being from his first steps on earth, and throughout history, has been a searcher for ways to generate that necessary energy and facilitator of a more pleasant life. Thanks to the use and knowledge of the forms of energy has been able to cover basic needs: light, heat, movement, strength, and reach higher levels of comfort to have a more comfortable and healthy life.
THEORETICAL FRAMEWORK Concept of energy: Energy is the ability to produce some type of work or put something in motion.
Different forms of energy:
The mechanical energy is used to move to another body. This in turn is divided into two energies: potential energy (it is the one that bodies have due to the position in which they are, that is, a body in height has more potential energy than a body on the ground surface) and kinetic energy (is what bodies have due to their speed).
The hydraulic potential energy is obtained from water falling from a height at a lower level which causes the movement of hydraulic or turbine wheels.
Caloric or thermal energy : it is the one that is transmitted between two bodies that are at different temperatures. One of the purposes for which heat energy is used is to cause movement of various machines.
The chemical energy is generated by the food and fuel, or more precisely, the contained chemical molecules and which develops in a chemical reaction. We know the result of food in our body: we develop energy to do different jobs. Energy from burning coal, wood, oil, and gas powers engines and provides heating.
The radiant energy or light is one that most often see as light and we can see things around us.
Electrical energy (or electricity) : is that produced by the movement of electrons through a conductor. It is divided in turn into magnetic energy (energy from magnets), static and electric current.
The nuclear or atomic energy is coming from the core of the atom, the most powerful known so far.
Wind energy is that obtained through the wind, thanks to the kinetic energy generated by the draft effect. Wind energy is characterized by being an abundant, renewable and clean energy.
The solar energy is obtained from the use of electromagnetic radiation from the sun, solar radiation reaching the planet can also be exploited by means of sensors that using different technologies (photovoltaic cells, heliostats, thermal collectors) can be transformed into thermal energy or electricity and is also one of those classified as clean or renewable energy.
The geothermal energy corresponds to the energy that can be obtained based on the use of the internal heat of the earth
Tidal energy : It is the result of the use of the tides, it is due to the difference in the average height of the seas according to the relative position of the Earth and the Moon and that as a result gives the gravitational attraction of the latter and the sun on the oceans .
Energy transformations
1- Chemical energy is transformed into electrical energy using a battery. During this process, when the battery is heated, we say that there are heat losses.
2- Chemical energy is transformed into thermal energy through combustion boilers, even when we burn firewood.
3- Electric energy can be transformed into mechanical energy by heating the motor, in this case heat losses also occur.
4- Electric energy is transformed into heat , an everyday example is heat plates or heat pumps.
5- Mechanical energy to electrical energy .
6- From hydraulic and wind energy we obtain mechanical energy .
7- Thanks to solar energy we obtain electrical energy .
8 - Nuclear energy is transformed in nuclear power plants into thermal energy .
9- The hydraulic energy of a river changes to mechanical energy , through mechanisms that activate stone mills to grind grain.
10 - The potential energy contained in a soda bottle (gas and compressed liquid) is released, transforming into kinetic energy that drips the liquid with force.
11- The thermal energy of fossil fuels is transformed into kinetic energy through its combustion in an engine to move a vehicle.
12- Tidal energy (use of the tides), is converted into electrical energy through dynamos.
13- Kinetic energy to potential
13.- Potential to kinetic energy
How is electrical energy generated through mechanical energy?
Sustainable energy is that which, unlike traditional energy (expensive, polluting and at some point exhaustible), can be obtained from "renewable" sources such as the sun, air or rainwater. There are other methods of generating energy, such as: a pulley.
A pulley is a simple machine , a mechanical traction device, used to transmit a force , to move or lift heavy things. It consists of a suspended wheel, which rotates around an axis, with a channel or throat on its edge through which a rope or chain is passed.
The belt pulley is very useful for coupling electric motors to other machines (compressors, drills, fans, electric generators, saws ...) since it allows a rotary movement to be transferred from one axis to another. With this type of pulleys mechanisms such as the speed multiplier , the gearbox and the pulley train are built .
In my case, I used it to connect it to an electric motor, transmitting force and generating energy.
Physical law that allows converting mechanical energy into electrical energy:
Energy Conservation Law: "Energy cannot be created or destroyed, it can only be changed from one form to another, but the total amount of energy never changes."
TARGET Demonstrate the production of electrical energy making use of the knowledge acquired in the field of mechanics, put into practice the construction of a pulley that connected to an electric motor and using force can light two LED bulbs, this with the intention of demonstrate energy transformations and know the alternatives that can be put into practice to satisfy human needs without negatively impacting the environment.
MATERIALS
Quantity Description 1 Electric motor two Color LED spotlight 1 Cable two CD 1 Cardboard circle. Radius cm 1 Band 1 2 inch screw 1 2 inch galvanized nail 3 Nuts 4 Washers 1 Clamp 1 Wood base 1 Silicone stick 1 Silicone gun Insulating tape
PROJECT DEVELOPMENT
Get two CDs and cut a cardboard circle 5mm smaller than its circumference, then stick one side of the cardboard to a CD and do the same with the back (use a lot of hot silicone so that it does not come off).
In the center of the cardboard circle, make a hole the size of a 2-inch screw and with the same screw check that the disc turns without complications.
With the help of a drill make a hole in the wooden base; In this hole insert a 2-inch screw with a nut already in place, and when it is inside, place another nut but on the opposite side, after which insert a washer so that it is well fixed.
Make a hole in the plastic plate of the CDs to be able to place a nail, you will again need help from the drill.
Then put the center of the Disc in the screw that was already attached to the wooden base, reinforce it with another screw and a washer, this will give it support and will not allow it to move improperly.
To connect the motor: it is necessary to leave the cables without plastic only in the part of the tips, making the wire free.
Tie each wire to the motor connectors
Attach the LED bulbs to the cables but on the opposite side.
Hold the motor 5 cm from the CD on the base
As a next step, place the elastic band between the CDs so that it is in the space of the cardboard and next step, join it with the motor
Begin to turn the pulley so that the LEDs light up.
ANALYSIS AND CONCLUSIONS The generator that I propose here can also be used for other purposes, apart from turning on an LED spotlight. For example; a clock, a small radio, etc. can be operated.
This experiment generates clean energy since it uses force, that is, mechanical energy to generate electrical energy.
Depending on the speed with which you rotate the system, you will obtain a certain current and voltage, the faster it rotates, the higher the voltage.
If we rotate the electric motor in one direction to the current it generates, it will have a polarity (positive pole and negative pole, always). Whereas if the sense is reversed, said polarity will be reversed as well.
Any electric motor that has permanent magnets can produce electricity in the same way that a common generator produces energy, turning one of these motors causes the internal coils to rotate beyond the magnets, this induces an electric current.
It is very common that throughout our lives we have to move residence, the causes can be many: change of job, a cheaper rent, a bigger house, better opportunities in another city or country. But beyond the causes, for those of us who love gardening, the fact of moving adds an extra problem: How to move the plants to our new home? Having to leave years of work in our garden behind can give us a lot of sadness and nostalgia and we cannot resist taking at least part of it to our new home. Luckily, if we do it correctly, we have a great chance of success moving plants to a new location, there are times better than others, but beyond that, I am going to give you some basic tips that you should know and take to the practice if you want to move the plants along with the rest of your belongings. Maybe you can't take everything with you, but something is something ... If you are in Spain, the national removals page in Barcelona can help and advise you on the matter
Checklist for moving plants
Before deciding to move your plants, you should ask yourself the following questions and consider the efforts that this task will entail from start to finish.
How big is the plant in question?
If it is a specimen of more than one meter wide or high, consider that it will be very heavy both to handle and to transport it, also find out the cost of transport.
Is it a special variety or can I buy a new one?
Perhaps all the work and risk of the transplant is not justified.
Will it adapt well to my new climate?
Especially if you change cities, remember that there may be a totally different climate, as long as you are within the same hardiness zone there should be no problems. But consider the frosts, rains, and summer heat that the place you move to has.
Will I be able to take care of the plant during its adaptation?
That is, I will be able to plant it quickly and take care of it or I will have too many chores with the rest of the things in the house. It is a point that sometimes we do not consider and we end up killing the plant for not being able to do things in the appropriate time.
Do I have enough space in my new home or garden for these plants?
If you have reviewed all these considerations and you still want to move the plants to your new home, take note of the following recommendations for cheap moves in Mataró so that success is certain.
Ideal time to move plants
There is an ideal time to move perennials from one home to another, and it is spring or fall. During these seasons, the temperatures are not excessively hot and the plants suffer much less. If you have the choice, try not to move the plants during the summer, as these climatic conditions make the plants stress very quickly when we transplant them. If we talk about trees and shrubs, the ideal time is winter.
Of course, many times we cannot choose in which season of the year to move, therefore, I am going to give you other information that can help you to make the move as optimal and successful as possible.
Something else, if you have all your plants in pots, obviously you will have less inconvenience, but anyway, the advice for transporting them can be very useful.
Taking the plants out of our old garden
The first thing you should try when you dig up your plants is to try to remove them with as many roots and soil as you can and trying to hurt it as little as possible. The soil will help protect the plants during the move. Once you've dug it up, place it in a large pot and make sure to moisten the substrate as much as possible and that it remains moist. In the case of very large plants, such as small trees or shrubs, you should wrap their roots in burlap cloth to protect them even more.
How to transport our plants in a move
If we must move the plants during the summer or spring, it is very important to keep them away from the sun and the wind. The root ball must be kept moist during transport and we should replant them in their new location as soon as possible. The less time it takes to relocate our plants, the better, as there will be less stress. If the move is in autumn or winter, the time that the transport takes is not so critical, however, the sooner we do it, the better. An important consideration would be to try to move the plants in a closed vehicle or transport, such as a truck, in order to avoid any damage that may be caused by the wind. If the distance is long, such as a move to another city, we should check the humidity of the substrate every time we stop.
Finally, we are in our new home!
Once we reach our destination, we have to check and see if our plants have suffered any damage. We can trim the broken leaves or branches and will try to re-plant them as soon as possible.
If we are looking for an ideal time, this would be a cloudy day and in the morning, especially if they are spring or summer months.
A plant that has been transplanted is going to need all our love and intensive care. Make sure to keep the soil moist with waterings as, especially in hot weather, plants can easily wilt. Something that can help retain moisture is adding a 5-10 cm layer of mulch.
It would also be convenient to protect them from the intense sun during the adaptation period that must inevitably occur when the plants are moved.
Remember that the safest thing is that your plants need several weeks until they finally adapt to their new location, so pamper them a lot and do not neglect them.
Anyone who has indoor plants, on some occasion, has been able to ask whether in spring or summer it is appropriate to take out to terraces or balconies the specimens that are kept at home during the rest of the year. Sometimes, with certain specimens, moving them at random works well and in other cases the plants perish after a few weeks. To know how to act properly and avoid losing more plants, it can be said that usually the transfer of the plant during the hottest months of the year is beneficial, but it is convenient to carry it out progressively.
In the first place it is advisable to study the needs of each plant and if inside the house a specimen usually requires being in places with partial shade, of course this circumstance will not have to be varied when it is located outside, so it will be advisable to place it in a shady place.
When its new location is decided, it is advisable that the change is not drastic, it is necessary to go little by little allowing the plant to acclimate to those conditions, in such a way that the first day the specimen will be left in its new location for an hour , the next day longer and so on until ensuring that the plant has perfectly adapted to its new environment.
The air currents and the sun
On the other hand, in the first weeks of spring, when the plants found inside the house begin to resume their maximum vegetative activity, there is a tendency to favor the entry of air from outside by keeping the windows open for most of the day. . This air renewal is necessary for both people and plants, but care must be taken because if the air intake is continuous, the currents can significantly affect the development of indoor specimens. To avoid damage to the plants, it is advisable to avoid drafts inside the home, apart from not prolonging the time spent ventilating the house excessively.
Also the direct and permanent incidence of sun rays more intense than those of the winter season can significantly damage the foliage of the plants, especially if they have been sprayed with water. In this case, it is advisable to screen the light that comes from outside with a curtain and it is also advisable not to wet the leaves when the plant is exposed to the sun's rays.
Relocation of plants
When it comes to redecorating the home, it must be borne in mind that the location of the indoor plants is also changing, whose environment is also changing, which can be a fatal event for the specimen. The most common when determining the location of a plant inside a home focuses on assessing the needs for light, humidity and temperature, ensuring that these are the most consistent with your needs. But when a reorganization of the space is carried out, the previous aspects are put aside in favor of aesthetics, forgetting that, no matter how minimal, the change in brightness or humidity that the plant is going to undergo, will significantly alter its growth, reaching the point that it could not outgrow it and die. For this reason it is recommended to avoid alterations in the location of indoor plants, so that they can maintain the balance necessary to grow vigorously.
Spotless indoor plants
In some cases, there are people who have the habit of removing dust from indoor plants as if they were cleaning the dust on any object of home decoration. The vast majority are unaware that the product they use for such cleaning can be harmful to the plant, instead of benefiting it. That is why it is advisable to avoid applying the same cleaning product to the house furniture on the floors, apart from the fact that it is also advisable to use different rags for each task. If what you want is to improve the presence of the plants and eliminate dust and dirt, the most successful method is to move them outside when it rains, once the first minutes have passed and the atmosphere has been cleaned. This solution is ideal when it rains in the summer, spring and autumn, but on winter days it is advisable to discard the idea of taking them outside and replace with a warm shower that the plants will also appreciate. Another option to take into account is to use a polish to achieve the desired appearance in all plants, but this product should not be abused. The measure is advisable to be placed at most 3 or 4 times a year. On the other hand, it is convenient to pay special attention when the plants are in bloom, since the flowers are very delicate and it is not advisable to get them wet, much less apply cleaning products, no matter how ecological they are.
How to move your marijuana plants indoors to outdoors
Marijuana can be grown both indoors and outdoors. But is it possible to move indoor plants outdoors? Read on for a detailed guide on how to move your indoor plants outside, permanently or temporarily.
Although it may seem illogical, many marijuana growers start their plants indoors and later move them outside . In this article, we show you exactly how to move your indoor plants outdoors, be it permanently or temporarily.
Why move indoor marijuana plants outside?
To get the crop early: If you live in an area with a short growing season, starting your plants indoors is a great way to give them more time for the vegetative phase.
To induce flowering: Some people prefer to grow plants indoors during the vegetative phase with an 18/6 light cycle, and then move them outside to force flowering.
For more space: If your grow tent is cluttered, you may want to move your plants outside so they can grow freely.
To combat pests: If you are fighting pests, you may want to move your plants outside to treat and disinfect the grow room.
To improve lighting: There is no grow light that outshines natural sunlight. If your grow light isn't enough, you can move the plants outside to keep them growing in the sun.
To fix technical glitches: If one of your grow equipment breaks midway through, you can move your plants outside while you fix or replace the fixture.
There are many other scenarios in which you might consider moving plants from your grow room or tent to the outside, or vice versa. For example, if you want to prevent your outdoor plants from attracting attention, you can minimize the time they are outside by keeping them indoors under grow lights during flowering.
If you plan to move your indoor plants outdoors, follow these tips to avoid stressing them.
