What is Desuperheater Water heater and its Applications?

Slides:



Advertisements
Similar presentations
An Introduction To Marine Steam Propulsion Plant [Source: US Navy]
Advertisements

Refrigeration & Air Conditioning
Antero Punttila Analyzing most typical energy saving measures Energy Efficiency of Steam and Condensate Systems Antero Punttila, Motiva Oy.
REFRIGERATION Refrigeration may be defined as the process of removing heat from a substance under controlled conditions and reducing and maintaining the.
Thermostats, Pressure Switches, and Other Electric Control Devices
Basic Refrigeration Cycle
Energy Efficient Steam Systems. Steam Systems Steam systems most widely used type of process heating Advantages of steam: –Heat carrying capacity of steam.
Superheaters.
Section 16.3 Using Heat.
COMMERCIAL REFRIGERATION
Richard Simmons Drilling Company, Inc. 60 Drill Rig Drive, Buchanan, Virginia Telephone (540) Geothermal Heating & Cooling How it Works.
Lesson 7 Steam Power Plant.
STEAM HEATING.
Spring 2006  Harvard Science, A 52 FHA+MBM Lecture 18, 1 Science A 52 Lecture 18; April 17, 2006 Refrigeration a)Technical background b)Visit to the Chilled.
Air-Source Heat Pumps I North Seattle Community College HVAC Program Instructor – Mark T. Weber, M.Ed. Airsource Heat Pump 1.
Hawke’s Bay Refrigeration
Heat Transfer Equations For “thin walled” tubes, A i = A o.
Heat and Work.  Thermodynamics looks at how changes in energy, work and the flow of heat influence each other.
Heat Transfer Equations For “thin walled” tubes, A i = A o.
Presentation on Steam Power Plants R.C.Chaturvedi
Refrigeration Systems
TITLE OF THE PROJECT:- AUTOMOBILE AIR CONDITIONING AIM OF THE PROJECT:- TO STUDY ABOUT AIR CONDITIONING SYSTEM OF AN AUTOMOBILE PRESENTED BY: INAMUL.
REFRIGERATION SYSTEMS Er. Gagandeep kaur Associate Prof., Electrical Engg. PTU Giani Zail Singh Campus, Bathinda. Id:
By:- Aliza Ibrahim RRIMT,Lko.. Low-temperature Solar Heat is Ideal for Many Industrial Processes. American Solar’s heating designs meet America’s largest.
Content: Introduction A Simple Gas Turbine Plant & It’s Working Plant Layout Types according to Cycle 1. Open Cycle Gas Turbine Plants 2. Close Cycle.
Lesson 7 Steam Power Plant.
Refrigeration.
. Level 3 Air Conditioning Inspections for Buildings
Review Questions Chapter 5
Refrigeration & air conditioning
DESIGN AND DEVELOPEMENT OF AIR CONDITIONING CUM WATER COOLER
R1 Fundamentals of Refrigeration
Thermodynamics Cycles.
Introduction to Food Engineering
HVAC EQUIPMENT: COOLING SOURCES (see Chapter 16)
High Temperature Reservoir Low Temperature Reservoir
Change of Phase Chapter 23.
What is Desuperheater water heater?
Heat Pipe | Heat Exchanger Manufactured by Manor
Desuperheater Water Heater, Heat Pipe Heat Exchangers, ECONET | Leading Manufacturer | Manor
Top Quality Desuperheater Manufactured by Maniks
Heat Pipe | Heat Pipe Exchanger Top Manufacturer | Maniks
Top Quality Heat Pipes Manufactured By Maniks
What is a Desuperheater?
HEAT EXCHANGER.
POWER PLANT THERMAL POWER STATION.
What is a Desuperheater? How It Works?
Top Quality Heat Pipe Heat Pipe Exchanger Launched by Maniks
Manik’s Ammonia Desuperheater Used in Refrigeration
Desuperheater Heat Transfer Device Manufactured by Maniks
Maniks high efficiency Desuperheater for efficient heat transfer
Maniks Desuperheater for Refrigeration application
“Desuperheater” High Efficient Energy conservation Device for Refrigeration Use
Desuperheater High Quality Energy saving gadget by Maniks
Maniks Desuperheater a High Performance Energy Saving Product
Desuperheater Best Heat Transfer Device Used In Various Industries
Produced by - Maniks. INDEX Sr. No Content 3Introduction 4Types of Desuperheater 5Definition of Desuperheater 6Superheated Steam/Gas? 7Desuperheating.
What is Desuperheater?
Maniks Desuperheater & Its Operation for Refrigeration Applications.
Student CD for Commercial Refrigeration for A/C Technicians Chapter 10 Supermarket Refrigeration.
ICE 101 REFRIGERATION BASICS
Water in the Atmosphere
9 CHAPTER Vapor and Combined Power Cycles.
R1 Fundamentals of Refrigeration
By: JAGDEEP SANGWAN Refrigeration Basics 101.
Refrigeration and Air Conditioning
Refrigeration and Air Conditioning
Objectives Solve one more example related to the psychometrics in AHU and building systems Learn about the psychometrics related to the cooling towers.
Refrigeration & Air conditioning
Presentation transcript:

Manufactured by Maniks

 Introduction:  What is Desuperheater?  Maniks Desuperheater.  Basic Desuperheating Theory.  Desuperheater Installation.  Types of refrigerants.  Ammonia Desuperheater.  Desuperheater Applications.  Power generation.  Process controllability.  VERY IMPORTANT.

 Maniks Desuperheater Water Heater :

 What is Desuperheater?  The primary function of the desuperheater is to lower the temperature of superheated refrigerant or other vapors in process. This temperature reduction of gas is accomplished as a result of the refrigerant being brought into direct contact with other liquid called water. The sprayed water is then evaporated.desuperheater

 Basic Desuperheating Theory:  Superheated refrigerant is gas that is at a temperature that is higher than the normal temperature, at the superheated level. This extra heat is wasted in atmosphere which: Is higher than saturation temperature. Contains more energy. Has a greater specific volume than saturated gas.  If the gas is too hot, it will cause equipment (condenser) to damage and hence the condenser efficiency is decreased.

 Desuperheater Insatallation:  The Desuperheater Water Heater is installed before the condenser and the oil separator. The refrigerant gas goes through a number of tubes in the Desuperheater water heater before entering the condenser section. Normally the Desuperheater Water heater is designed especially for the hot water requirement. When requirements of the hot water & refrigeration cycle are not parallel, a "Recirculation" type mechanism is provided in which hot water is generated, stored and maintained without leak in an insulated tank. This hot water then can be utilised as and when required.

 There are two types of refrigerants on which desuperheaters operate: 1) Freon Desuperheater. 2) Ammonia Desuperheater.  1) Freon Desuperheater: Maniks desuperheater works on freon refrigerant gas to extract the superheated refrigerant and use it for other purposes. Therefore this heat if used for boiling water in hotels, restaurants etc users can get free of cost water. Maniks

 2) Ammonia Desuperheater:  Ammonia is the oldest one of all the refrigerants and it is still widely used in the refrigeration and air conditioning applications. It is also the only refrigerant outside the halocarbons group, still being used to a great extent.  Ammonia is less expensive and used as refrigerant largely in the many refrigeration systems of food industry like ice creams plants, dairies, cold storage warehouses, frozen food and production plants, processors of poultry, fish and meat and many other applications. Maniks desuperheater works on ammonia refrigerant gas to extract the superheated refrigerant and use it for other purposes. Therefore this heat if used for boiling water in hotels, restaurants etc users can get free of cost water.

 Desuperheater Applications:  The Desuperheater can be found in different types of applications, including:  Power generation  Process controllability  Thinner pipe and lighter flanges  Preventing lubricant degradation  Protecting downstream equipment  Gas desuperheaters

 Power generation: Boilers running at minimum loads or with high power, produce variable temperature gas. Desuperheaters are used to stabilize superheat over wide range of flows. Surface condensers work most effectively when supplied with saturated gas. This reduces the need to add tubes for cooling the superheated gas, and prevents burden caused by thermal expansion whenever the hot, dry refrigerant gas enters the condenser.

 Process controllability: Desuperheaters also help to control a variety of processes. If working refrigerant temperature is not constant, a process becomes uncontrollable, especially when gas flow or pressure changes continuously. This impacts product quality and cost, force unscheduled error, creates personnel safety problems, and cost a greatly in repairs and replacements.

 VERY IMPORTANT: Even if you have installed a water heater such as solar system in your Hotel for Hot water generation, the manufacturer of Solar System provides you with “Back up” electric heaters installed in the Hot water tank. These electric heaters gets automatically switched ON when the temperature of water falls below 40 ° C. Typically most of the hot water that is produced by the solar water heater system gets consumed by 11 PM, when your Guests takes bath on return to your Hotel.

 To meet the Hot water requirements for the "Morning peak hours from 6 am to 10 am, electrical water heaters have to be switched ON at 4 AM and kept ON till at least 10AM".  This adds up to your Electricity Bills, "Without you releasing it". HENCE EVEN IF YOU HAVE THE SOLAR SYSTEM FOR HEATING WATER INSTALLED AT YOUR HOTEL, DESUPERHEATER WATER HEATER WILL CONSIDERABLY REDUCES YOUR ELECTRICITY BILLS.  For more