Surface Condenser Working | Types of Condensers | Down Flow | Central Flow | Evaporation Condenser скачать в хорошем качестве

Surface Condenser Working | Types of Condensers | Down Flow | Central Flow | Evaporation Condenser

Surface Condenser Working | Types of Condensers | Down Flow | Central Flow | Evaporation Condenser Hi This is Upendra Kumar Malla. Welcome to my channel .I wanted to provide some basic information about Mechanical engineering and Industrial safety . Watch 1000+ latest videos in playlist (    / @upendrakumarmalla   ) those videos may use full to you. Telegram group link 👇👇 https://t.me/joinchat/kBKPMSg2enQ1N2I1 App link -Google play store link https://clpdiy17.page.link/6eZ4 For Desktop / Web access - web link : https://web.classplusapp.com/login Org code: arfxv A surface condenser is a type of heat exchanger used in power plants and other industrial applications to condense steam into liquid water. It is commonly used in steam power plants to condense the exhaust steam from turbines back into water for reuse in the boiler. Here's how a surface condenser typically works: Steam Inlet: High-pressure, high-temperature steam from the turbine enters the surface condenser. Tube Bundle: The steam flows through a bundle of tubes within the condenser. These tubes are designed to provide a large surface area for heat transfer. Cooling Water Flow: Cooling water, typically obtained from a nearby water source, is circulated around the outside of the tubes. The water absorbs heat from the steam and undergoes a temperature rise. Heat Transfer: As the steam comes into contact with the cooler tube surfaces, it releases heat energy to the tubes. This causes the steam to condense into liquid water, known as condensate. Air Extraction: Any non-condensable gases, such as air and other impurities, are removed from the condenser to maintain a vacuum within the system. These gases are usually extracted by air extraction pumps or steam ejectors. Condensate Collection: The liquid condensate, formed by the condensation of steam, collects at the bottom of the condenser. Hotwell: The collected condensate, along with any cooling water that has become mixed with it, is directed to a storage tank called a hotwell. The hotwell serves as a reservoir for the condensate, which is later pumped back into the boiler for reuse. Cooling Water Discharge: The cooling water, which has absorbed the heat from the steam, exits the condenser and is typically discharged back into a nearby water source, such as a river or a cooling tower, where it can be cooled and reused. By condensing the steam into water, a surface condenser allows for the efficient recovery and reuse of water in the steam cycle, minimizing water consumption and improving the overall efficiency of the power plant or industrial process. It's worth noting that the specific design and configuration of surface condensers may vary depending on the application and the size of the system. #condenser #condenserworking #evaporativecooler #evaporativecondenser #condeserclassification #surfacecondenser #highlevejetcondenser #shellandtubecondeser #powerplant #refrigeration #condenserimportance