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19 juin 2022 à 12:24 : FranciscoDarke (discussion | contributions) a déclenché le filtre antiabus 4, en effectuant l’action « edit » sur What Is The Purpose Of The Busbar Temperature Rise Calculator. Actions entreprises : Interdire la modification ; Description du filtre : Empêcher la création de pages de pub utilisateur (examiner)

Changements faits lors de la modification

 
+
<br>One of the most important factors in designing a copper or stainless steel busbar heat exchanger is to take note of the temperature rise or change in the bar temperature. A simple way to calculate this is by using a bar heat exchanger that has the ability to alter the temperature of one or more copper bus bars. The change in temperature may be drastic and cause damage to the brazing or the material used in the making of the heat exchanger. To minimize this possibility, it is important for you to know the factors that affect the temperature rise and the ways to counteract them.<br><br><br>This part of the material is referred to as 'residual heat'. This means that once the area cools down, it does not take much time before the area starts to warm up again.  If you loved this article and you would such as to get additional facts concerning [https://www.rhibusbar.com/ simply click the next website page] kindly check out the page. This process is referred to as convective heat transfer. It is one reason why you can have warm coffee when you sit at your desk without heating your hands first. This is also one of the reasons why you cannot keep a coffee pot hot when brewing it at the stove top.<br><br><br>It is possible to predict the rise in temperature but this is usually done using laboratory equipment. Using the same example, you can calculate the rise in temperature but you need someone who is an expert in this field to do so. It is therefore, advisable that you rely on experienced engineers and professionals. They know exactly which elements are important in their designs. They also have the expertise to find the right materials that will help reduce or prevent the changes in temperature.<br><br><br>You should know that there are three major factors that influence the busbar temperature rise calculation. These factors are variations in the external temperature, the pressure and the humidity present inside the enclosure. When you look at the enclosure, you would realize that these three factors work hand in hand with each other. This explains why they tend to change as the temperatures outside increase. The pressure and the temperature variation in the air to help form a wave pattern in the busbar.<br><br><br>This wave pattern is what causes the change in pressure. Because of the increase in the pressure, the air inside would expand while the decrease in the pressure would cause the air to contract. This expansion and contraction would cause an increase in the temperature. When the enclosure is cold, this air will not expand because the cold air would not rise to the top unlike the hot air that is rising to the top.<br><br><br>Since the surface area of the busbars is small, air that has little temperature will tend to condense. It will form tiny ice crystals, which will increase the temperature of the remaining air in the busbar. This means that more ice crystals and more heat will be generated inside the enclosure thereby increasing the temperature of the busbar.<br><br><br>Busbars do not always stay at a constant temperature. Most of the time they will warm up when it is cold outside and then reduce the temperature. This is because of the expansion and the contraction that take place inside the busbar. The larger the busbar, the greater amount of variation there would be in temperature. Therefore the larger the busbar, the larger its temperature range will be and consequently the larger the variations in temperature could be.<br><br><br>Therefore, the bigger the size of the busbar, the bigger its variations could be. So the bigger the size of the enclosure, the more the variations in temperature could occur. This also leads to the need for a bigger enclosure. And the bigger the busbar temperature rise calculation will be, the bigger the enclosure size will be and the more there will be variations in temperature.<br>

Paramètres de l'action

VariableValeur
Si la modification est marquée comme mineure ou non (minor_edit)
Nom du compte d’utilisateur (user_name)
FranciscoDarke
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* user autoconfirmed
Si un utilisateur est ou non en cours de modification via l’interface mobile (user_mobile)
Numéro de la page (article_articleid)
0
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0
Titre de la page (sans l'espace de noms) (article_text)
What Is The Purpose Of The Busbar Temperature Rise Calculator
Titre complet de la page (article_prefixedtext)
What Is The Purpose Of The Busbar Temperature Rise Calculator
Action (action)
edit
Résumé/motif de la modification (summary)
Ancien modèle de contenu (old_content_model)
Nouveau modèle de contenu (new_content_model)
wikitext
Ancien texte de la page, avant la modification (old_wikitext)
Nouveau texte de la page, après la modification (new_wikitext)
<br>One of the most important factors in designing a copper or stainless steel busbar heat exchanger is to take note of the temperature rise or change in the bar temperature. A simple way to calculate this is by using a bar heat exchanger that has the ability to alter the temperature of one or more copper bus bars. The change in temperature may be drastic and cause damage to the brazing or the material used in the making of the heat exchanger. To minimize this possibility, it is important for you to know the factors that affect the temperature rise and the ways to counteract them.<br><br><br>This part of the material is referred to as 'residual heat'. This means that once the area cools down, it does not take much time before the area starts to warm up again. If you loved this article and you would such as to get additional facts concerning [https://www.rhibusbar.com/ simply click the next website page] kindly check out the page. This process is referred to as convective heat transfer. It is one reason why you can have warm coffee when you sit at your desk without heating your hands first. This is also one of the reasons why you cannot keep a coffee pot hot when brewing it at the stove top.<br><br><br>It is possible to predict the rise in temperature but this is usually done using laboratory equipment. Using the same example, you can calculate the rise in temperature but you need someone who is an expert in this field to do so. It is therefore, advisable that you rely on experienced engineers and professionals. They know exactly which elements are important in their designs. They also have the expertise to find the right materials that will help reduce or prevent the changes in temperature.<br><br><br>You should know that there are three major factors that influence the busbar temperature rise calculation. These factors are variations in the external temperature, the pressure and the humidity present inside the enclosure. When you look at the enclosure, you would realize that these three factors work hand in hand with each other. This explains why they tend to change as the temperatures outside increase. The pressure and the temperature variation in the air to help form a wave pattern in the busbar.<br><br><br>This wave pattern is what causes the change in pressure. Because of the increase in the pressure, the air inside would expand while the decrease in the pressure would cause the air to contract. This expansion and contraction would cause an increase in the temperature. When the enclosure is cold, this air will not expand because the cold air would not rise to the top unlike the hot air that is rising to the top.<br><br><br>Since the surface area of the busbars is small, air that has little temperature will tend to condense. It will form tiny ice crystals, which will increase the temperature of the remaining air in the busbar. This means that more ice crystals and more heat will be generated inside the enclosure thereby increasing the temperature of the busbar.<br><br><br>Busbars do not always stay at a constant temperature. Most of the time they will warm up when it is cold outside and then reduce the temperature. This is because of the expansion and the contraction that take place inside the busbar. The larger the busbar, the greater amount of variation there would be in temperature. Therefore the larger the busbar, the larger its temperature range will be and consequently the larger the variations in temperature could be.<br><br><br>Therefore, the bigger the size of the busbar, the bigger its variations could be. So the bigger the size of the enclosure, the more the variations in temperature could occur. This also leads to the need for a bigger enclosure. And the bigger the busbar temperature rise calculation will be, the bigger the enclosure size will be and the more there will be variations in temperature.<br>
Diff unifié des changements faits lors de la modification (edit_diff)
@@ -1,1 +1,1 @@ - +<br>One of the most important factors in designing a copper or stainless steel busbar heat exchanger is to take note of the temperature rise or change in the bar temperature. A simple way to calculate this is by using a bar heat exchanger that has the ability to alter the temperature of one or more copper bus bars. The change in temperature may be drastic and cause damage to the brazing or the material used in the making of the heat exchanger. To minimize this possibility, it is important for you to know the factors that affect the temperature rise and the ways to counteract them.<br><br><br>This part of the material is referred to as 'residual heat'. This means that once the area cools down, it does not take much time before the area starts to warm up again. If you loved this article and you would such as to get additional facts concerning [https://www.rhibusbar.com/ simply click the next website page] kindly check out the page. This process is referred to as convective heat transfer. It is one reason why you can have warm coffee when you sit at your desk without heating your hands first. This is also one of the reasons why you cannot keep a coffee pot hot when brewing it at the stove top.<br><br><br>It is possible to predict the rise in temperature but this is usually done using laboratory equipment. Using the same example, you can calculate the rise in temperature but you need someone who is an expert in this field to do so. It is therefore, advisable that you rely on experienced engineers and professionals. They know exactly which elements are important in their designs. They also have the expertise to find the right materials that will help reduce or prevent the changes in temperature.<br><br><br>You should know that there are three major factors that influence the busbar temperature rise calculation. These factors are variations in the external temperature, the pressure and the humidity present inside the enclosure. When you look at the enclosure, you would realize that these three factors work hand in hand with each other. This explains why they tend to change as the temperatures outside increase. The pressure and the temperature variation in the air to help form a wave pattern in the busbar.<br><br><br>This wave pattern is what causes the change in pressure. Because of the increase in the pressure, the air inside would expand while the decrease in the pressure would cause the air to contract. This expansion and contraction would cause an increase in the temperature. When the enclosure is cold, this air will not expand because the cold air would not rise to the top unlike the hot air that is rising to the top.<br><br><br>Since the surface area of the busbars is small, air that has little temperature will tend to condense. It will form tiny ice crystals, which will increase the temperature of the remaining air in the busbar. This means that more ice crystals and more heat will be generated inside the enclosure thereby increasing the temperature of the busbar.<br><br><br>Busbars do not always stay at a constant temperature. Most of the time they will warm up when it is cold outside and then reduce the temperature. This is because of the expansion and the contraction that take place inside the busbar. The larger the busbar, the greater amount of variation there would be in temperature. Therefore the larger the busbar, the larger its temperature range will be and consequently the larger the variations in temperature could be.<br><br><br>Therefore, the bigger the size of the busbar, the bigger its variations could be. So the bigger the size of the enclosure, the more the variations in temperature could occur. This also leads to the need for a bigger enclosure. And the bigger the busbar temperature rise calculation will be, the bigger the enclosure size will be and the more there will be variations in temperature.<br>
Lignes ajoutées lors de la modification (added_lines)
<br>One of the most important factors in designing a copper or stainless steel busbar heat exchanger is to take note of the temperature rise or change in the bar temperature. A simple way to calculate this is by using a bar heat exchanger that has the ability to alter the temperature of one or more copper bus bars. The change in temperature may be drastic and cause damage to the brazing or the material used in the making of the heat exchanger. To minimize this possibility, it is important for you to know the factors that affect the temperature rise and the ways to counteract them.<br><br><br>This part of the material is referred to as 'residual heat'. This means that once the area cools down, it does not take much time before the area starts to warm up again. If you loved this article and you would such as to get additional facts concerning [https://www.rhibusbar.com/ simply click the next website page] kindly check out the page. This process is referred to as convective heat transfer. It is one reason why you can have warm coffee when you sit at your desk without heating your hands first. This is also one of the reasons why you cannot keep a coffee pot hot when brewing it at the stove top.<br><br><br>It is possible to predict the rise in temperature but this is usually done using laboratory equipment. Using the same example, you can calculate the rise in temperature but you need someone who is an expert in this field to do so. It is therefore, advisable that you rely on experienced engineers and professionals. They know exactly which elements are important in their designs. They also have the expertise to find the right materials that will help reduce or prevent the changes in temperature.<br><br><br>You should know that there are three major factors that influence the busbar temperature rise calculation. These factors are variations in the external temperature, the pressure and the humidity present inside the enclosure. When you look at the enclosure, you would realize that these three factors work hand in hand with each other. This explains why they tend to change as the temperatures outside increase. The pressure and the temperature variation in the air to help form a wave pattern in the busbar.<br><br><br>This wave pattern is what causes the change in pressure. Because of the increase in the pressure, the air inside would expand while the decrease in the pressure would cause the air to contract. This expansion and contraction would cause an increase in the temperature. When the enclosure is cold, this air will not expand because the cold air would not rise to the top unlike the hot air that is rising to the top.<br><br><br>Since the surface area of the busbars is small, air that has little temperature will tend to condense. It will form tiny ice crystals, which will increase the temperature of the remaining air in the busbar. This means that more ice crystals and more heat will be generated inside the enclosure thereby increasing the temperature of the busbar.<br><br><br>Busbars do not always stay at a constant temperature. Most of the time they will warm up when it is cold outside and then reduce the temperature. This is because of the expansion and the contraction that take place inside the busbar. The larger the busbar, the greater amount of variation there would be in temperature. Therefore the larger the busbar, the larger its temperature range will be and consequently the larger the variations in temperature could be.<br><br><br>Therefore, the bigger the size of the busbar, the bigger its variations could be. So the bigger the size of the enclosure, the more the variations in temperature could occur. This also leads to the need for a bigger enclosure. And the bigger the busbar temperature rise calculation will be, the bigger the enclosure size will be and the more there will be variations in temperature.<br>
Horodatage Unix de la modification (timestamp)
1655637898