Its not cold...? LOL - It all depends on what the system is, but as a general rule of thumb if you asking HIGH as in over what is specified over normal reading for the system in question. It usually is SOOT buildup on the coils or inside walls of the heat exchanger.... Sounds funny but true.... the other is the AIR intake is not set correcly... but that you should be able to see by eyeballing it. The best is to find a reputable oil man ask if they can do a smoke CO and O2 test of the boiler. No one really out there spends the time to do this service right because till you test everything pump pressure, nozzle size, draft, flue, and other settings and then change the nozzle, it can be a pain. Most boilers should be used with the factory recommend nozzle and maybe one size lower. If you change a nozzle you also need to take into account pump pressure. I also could recommend the HEAT MANAGER 2.5 setup, I wish they would take that system to a even more modern one and add outside air temp sensor and a roll back of the boiler during he warmer days, its dumb to heat a boiler to 140+ temps on days that its over 40 or so... and for the price of 240 or so for the Heat Manager that's some heavy profit for sure.. can't see the thing being a few buck 50-100 with todays electronic prices... but I digress, heat and air in the house is one of the last things to get cheap... can you say everyone has them and I see people buy setups for 5k-7k are they nuts? Can you say VCR? DVD? How about KINETIC SYSTEM 2000 that's a nice setup, would like them to make it a little bit more moderm looking but they are getting there...
Were the hell is the talk of COMPUTER CONTROLLED stuff in this day and age with FAIL SAFE fallbacks for emergency usage??? I seen allot and well don't get it..??
A stack pointer is a register pointing to the top of a stack. It supports the fundamental stack manipulations (push and pop) in an efficient manner. Most micro processor hardware has build-in hardware support for stack pointers, typically both in form of dedicated stack pointer registers and in form of addressing modes which support the creation and maintenance of stacks through general-purpose pointer registers. In software, many programming languages feature constructs suited for implementation of stack pointers within the high-level language (such as post-increment and pre-decrement operators in C).
You should not stack anything higher than approximately ten feet high. There will be a risk of it falling over and injuring yourself and customers if higher.
In order for a high temperature boiler or steam engine to produce superheated water, or steam?
In the context of the HEF40106BP integrated circuit, "HEF" stands for "High-Speed CMOS," which indicates that it is part of the High-Speed family of CMOS logic devices. The "40106" refers to the specific type of IC, which is a hex Schmitt-trigger inverter. The "BP" suffix typically denotes the package type and temperature range, indicating it is in a plastic DIP package suitable for general applications.
Because high carbon steel has low fluidity & low carbon steel has high fluidity.
An electric burner on high typically reaches a temperature of around 450-550 degrees Fahrenheit.
The color of a Bunsen burner flame is related to its temperature. A blue flame indicates a hotter temperature, as it is burning more efficiently with complete combustion. A yellow flame indicates a cooler temperature, as it is not burning as efficiently and may have incomplete combustion.
It is similar to Bunsen burner. It is used for high temperature burning.
No, blue is the hottest color on a Bunsen burner flame. The blue color indicates that the gas is burning efficiently and at a high temperature. Yellow in a Bunsen burner flame suggests incomplete combustion and lower temperatures.
The blue flame on a Bunsen burner indicates complete combustion of the gas fuel, typically natural gas or propane. It has a higher temperature and is used for tasks requiring high heat, such as sterilization or heating solutions in a laboratory setting.
The most stable flame is a blue flame (produced when air valve is open)
A high efficiency furnace's main burner shuts off to maintain a consistent temperature in the home and prevent overheating.
A high efficiency furnace's main burner shuts off after ignition to maintain the desired temperature in the home and prevent overheating.
The electric stove burner may stay on high even when you try to adjust the temperature due to a faulty temperature control switch or a malfunctioning heating element. It is important to have a professional inspect and repair the stove to ensure safe and proper functioning.
The Bunsen burner can reach temperatures as high as 1,500 degrees Celsius (2,732 degrees Fahrenheit) depending on the fuel source and air supply.
The spike in amperage to 16 amps indicates a momentary increase in power consumption by the electric range burner, possibly due to a high demand for heat. The drop back to 8 amps suggests that the burner has stabilized its power consumption once the desired temperature has been reached. This variation in amperage is normal during the heating cycle of an electric burner.
The blue flame in a Bunsen burner is used for heating because it indicates complete combustion of the fuel, resulting in a high-temperature, clean, and efficient flame. This flame is ideal for heating as it produces a steady and controlled heat source for various laboratory applications.