Main Anthropogenic Sources of Greenhouse Gases Refrigerants

Similar documents
Chapter 2. Alternatives to HCFCs and their Characteristics

CH2351 Chemical Engineering Thermodynamics II Unit V Refrigeration. Dr. M. Subramanian

Thermodynamics I. Refrigeration and Heat Pump Cycles

CHAPTER 1 INTRODUCTION

The Problem of Counterfeit Refrigerants

Paper No. : 04 Paper Title : Unit Operations in Food processing Module 11 : Principles of Refrigeration

HFCs or the Old Refrigerants - what is the best Choice?

March 10, 2016 San Joaquin Valley RETA Meeting

Q. Which hydrocarbons can be used as a refrigerant? The following hydrocarbons can be used as a refrigerant in cooling & heating applications:

Chapter 10. Refrigeration and Heat Pump Systems

A Review Paper on Comparative Study of Household- Refrigerator with Alternative Low Global Warming Potential Refrigerants

A Comparison Between Refrigerants Used In Air Conditioning

Natural refrigerants - naturally efficient

Assessment of LPG as a possible alternative to R-12 in domestic refrigerators

we will examine only the vapour compression systems transfers to the Carnot cycle can serve as the initial model of the ideal refrigeration cycle.

Chapter 11 REFRIGERATION CYCLES

Chillers and Refrigerants. Purpose of Today s Presentation. Agenda. GLHN Architects & Engineers, Inc. APPA Institute Session 322 EU

Thermodynamics II Chapter 5 Refrigeration

Scroll Chillers Transition from HCFC-22 to HFCs

CHAPTER 1 INTRODUCTION

Ammonia. Background on ammonia as a refrigerant

Comparison of CFC-114 and HFC-236ea Performance in Shipboard Vapor Compression Systems

Low GWP alternative refrigerants to R404A

Current use of HFCs and HCFCs. Trends, alternatives and climate impact. YEREVAN, Armenia, May 18-19, International Institute of Refrigeration

The natural solution for domestic refrigeration

Chapter 11 REFRIGERATION CYCLES

Industry co-operation on Natural Refrigerant technology development Kenji Matsuda

R134a Refrigerant in Vapour Compression Cycle: A Review Paper

A STUDY ON REFRIGERANTS

Evaluation of Vapour Compression Refrigeration System Using Different Refrigerants

Requirements for Labelling: Labelling of Refrigerant Containers

Performance and Analytical Study of Cooler Cum Air Conditioner based on Vapour Compression Refrigeration System

ECO-FRIENDLY REFRIGERANTS. Dr Alka Bani Agrawal Professor,Mechanical Engg UIT,RGPV

Comparative assessment for drop in replacement of R134a in domestic refrigerator.

Refrigeration Cycles MOHAMMAD FAISAL HAIDER. Bangladesh University of Engineering and Technology

INDUSTRIAL REFRIGERATION. Position on refrigerant selection

Oct. Newly Developed Refrigerants for Refrigeration, meeting Global Warming Regulations. Hitomi ARIMOTO / Product R&D Department, Chemicals Division

Effect of capillary diameter on the power consumption of VCRS using different refrigerants

International Journal of Advance Engineering and Research Development

11/22/2014. (c) DR.A.M.SURENDRA KUMAR

REFRIGERATION CYCLE Principles of Mechanical Refrigeration Level 2: Cycle Analysis

Oyelami S., Bolaji B. O.

TECHNICAL NOTE. Use of R290 refrigerant recommendations. Use of R290 refrigerant gas in hermetic compressors and commercial refrigeration equipment

ASSESSMENT OF R430A REFRIGERANT AS A POSSIBLE SUBSTITUTE TO R134A REFRIGERANT IN LARGE CAPACITY FREEZER

Design of LPG Refrigeration System

Refrigerants for residential and commercial air conditioning applications

Assessment of Alternatives to Refrigerant R134a in Automotive Air Conditioning System

NATURAL REFRIGERANTS FOR HEAT PUMPS AND AIR-CONDITIONING SYSTEMS. Bernard Thonon Greth

THEORETICAL INVESTIGATION OF THE PERFORMANCE OF SOME ENVIRONMENT-FRIENDLY REFRIGERANTS IN A SUB-COOLING HEAT EXCHANGER REFRIGERATION SYSTEM

Refrigerants for commercial refrigeration applications

Making equipment decisions

Global Warming Impacts of Ozone-Safe Refrigerants and Refrigeration, Heating, and Air-conditioning Technologies. Steve Fischer Jim Sand Van Baxter

Due to its low temperature glide about 1.5 approx. (75% less than R-407C and R-427A), it is suitable for a wide range of applications.

Volume 4, Issue 1 (2016) ISSN International Journal of Advance Research and Innovation

INDIAN INSTITUTE OF TECHNOLOGY ROORKEE NPTEL NPTEL ONLINE CERTIFICATION COURSE. Refrigeration and Air-conditioning. Lecture-16 Refrigerants-1

Gary Parker Refrigerants Product Manager

Chapter 9. Refrigeration and Liquefaction

PERFORMANCE OF REFRIGERATOR USING R-600A AS REFRIGERANT

Role of Nano-technology for improving of thermal performances of vapour compression refrigeration system (VCRS): An Overview

Experimental Study on Performance Parameters for Refrigerants R22, R410a and R404a at Various Air Outlet Temperatures

DEVELOPMENT AND EVALUATION OF HIGH PERFORMANCE, LOW GWP REFRIGERANTS FOR STATIONARY AC AND REFRIGERATION

PERFORMANCE OF DEEP FREEZER BY USING HYDROCARBON BLENDS AS REFRIGERANTS

Effects of evaporator load on vapour compression refrigeration system using ecofriendly hydrocarbon refrigerants with sub cooling

Refrigerants for residential and commercial air conditioning applications

LPG Refrigerator. October 2017 IJIRT Volume 4 Issue 5 ISSN:

Thermodynamic study of R134a in Vapour Compression Refrigeration System in Summer Climate

EVALUATION OF REFRIGERANT R290 AS A REPLACEMENT TO R22

RS-70 is suitable as a direct replacement for R-22 in low, medium and high temperatures in a great number of applications:

PERFORMANCE OF A VERY LOW TEMPERATURE REFRIGERATION SYSTEM OPERATING WITH NATURAL FLUIDS

Performance Evaluation of Eco- Friendly Alternate Refrigerants for VCRS

Chapter 11 REFRIGERATION CYCLES. Department of Mechanical Engineering

R-404A Alternative with Low Compressor Discharge Temperature

Scroll Chillers: Conversion from HCFC-22 to HFC-410A and HFC-407C

Refrigerants Retrofit as Alternative for R12 and R134a in Household Refrigerators

η second law = Second law efficiency

A: RS-45 is a non ozone depleting Drop-in replacement for R22 in most applications. A: RS-45 is a blend of R143a, R125, R134a and isobutane.

Part load performance analysis of vapour compression refrigeration system with hydrocarbon refrigerants

Refrigerant trends especially focusing on CO 2

a. CFCs. b. HCFCs. c. Pressurized nitrogen. d. Compressed dry air. 17. The state of the refrigerant leaving the condenser of a refrigeration system

Figure 23-1 Pressure-temperature curve for water

Experimental study of Hydrocarbon Refrigerant Mixture R290/R600a as an alternative to Refrigerant R134a used in a Domestic Refrigerator

Flammability and New Refrigerant Options

Experimental analysis of r134a, r22, and r404 for an edibon taab: Air conditioning lab unit

DESIGN AND DEVELOPMENT OF ECO-FRIENDLY REFRIGERATION SYSTEM

Study of Behavior of Refrigerant Mixtures in Domestic Refrigerator- Practical Research

Navigating a changing refrigerants market

NUMERICAL SIMULATION OF VAPOUR COMPRESSION REFRIGERATION SYSTEM USING REFRIGERANT R152A, R404A AND R600A

Subscripts 1-4 States of the given system Comp Compressor Cond Condenser E Evaporator vol Volumetric G Gas L Liquid

EXPERIMENTAL INVESTIGATION OF A REFRIGERATOR BY USING ALTERNATIVE ECO FRIENDLY REFRIGERANTS (R600A & HC MIXTURE)

Chapter 10 Lyes KADEM [Thermodynamics II] 2007

IJISET - International Journal of Innovative Science, Engineering & Technology, Vol. 2 Issue 12, December

Refrigerant Dryers DRY with PDP Indicator

a. CFCs. b. HCFCs. c. Pressurized nitrogen. d. Compressed dry air. 17. The state of the refrigerant leaving the condenser of a refrigeration system

UEE11 Electrotechnology. Training Package. UEENEEJ108A Recover, pressure test, evacuate, charge and leak test refrigerants SAMPLE.

A Theoretical investigation on HC Mixtures as Possible Alternatives to R134a in Vapor Compression Refrigeration

Experimental Investigation of COP Using Hydro Carbon Refrigerant in a Domestic Refrigerator

ISSN: [Sachuthananthan * et al., 5(10): October, 2016] Impact Factor: 4.116

REPLACING HARMFUL CFC 12 BY ECO-FRIENDLY REFRIGERANT IN MILK CHILLER

Energy Saving & Eco-Friendly Refrigerant

Available online at ScienceDirect. Energy Procedia 109 (2017 ) 56 63

Transcription:

Main Anthropogenic Sources of Greenhouse Gases Refrigerants

Content Refrigerant definition Refrigerants Refrigerants as a source of GHG

Refrigerant Definition A refrigerant is a substance or mixture, usually a fluid, used in a heat pump and refrigeration cycle. In most cycles it undergoes phase transitions from a liquid to a gas and back again. Many working fluids have been used for such purposes. Fluorocarbons, especially chlorofluorocarbons, became commonplace in the 20th century, but they are being phased out because of their ozone depletion effects. Other common refrigerants used in various applications are ammonia, sulfur dioxide, and non halogenated hydrocarbons such as propane.

Refrigerants A chlorofluorocarbon (CFC) is an organic compound that contains only carbon, chlorine, and fluorine, produced as a volatile derivative of methane, ethane, and propane. They are also commonly known by the DuPont brand name Freon. The most common representative is dichlorodifluoromethane (R 12 or Freon 12). Many CFCs have been widely used as refrigerants, propellants (in aerosol applications), and solvents. Because CFCs contribute to ozone depletion in the upper atmosphere, the manufacture of such compounds has been phased out under the Montreal Protocol, and they are being replaced with other products such as HFCs (e.g., R 410A), hydrocarbons, and CO 2. However, these replacements are sometimes considered pollutants in their own right.

Refrigerants Work on alternatives for chlorofluorocarbons in refrigerants began in the late 1970s after the first warnings of damage to stratospheric ozone were published. The hydrochlorofluorocarbons (HCFCs) are less stable in the lower atmosphere, enabling them to break down before reaching the ozone layer. Nevertheless, a significant fraction of the HCFCs do break down in the stratosphere and they have contributed to more chlorine buildup there than originally predicted. Later alternatives lacking the chlorine, the hydrofluorocarbons (HFCs) have an even shorter lifetimes in the lower atmosphere. One of these compounds, HFC 134a, is now used in place of CFC 12 in automobile air conditioners. Hydrocarbon refrigerants (a propane/isobutane blend) are also used extensively in mobile air conditioning systems in Australia, the USA and many other countries, as they have excellent thermodynamic properties and perform particularly well in high ambient temperatures.

Refrigerants One of the natural refrigerants (along with ammonia and carbon dioxide), hydrocarbons have negligible environmental impacts and are also used worldwide in domestic and commercial refrigeration applications, and are becoming available in new split system air conditioners. Various other solvents and methods have replaced the use of CFCs in laboratory analytics.

Refrigerants

Refrigerants as a Source of GHG The inert nature of many halons, chlorofluorocarbons (CFC) and hydrochlorofluorocarbons (HCFC), with the benefits of their being nonflammable and nontoxic, made them good choices as refrigerants, but their stability in the atmosphere and their corresponding global warming potential and ozone depletion potential raised concerns about their usage. In order from the highest to the lowest potential of ozone depletion are Bromochlorofluorocarbon, CFC then HCFC. Though HFC and PFC are non ozone depleting, many have global warming potentials that are thousands of times greater than CO2. Some other refrigerants such as propane and ammonia are not inert, and are flammable or toxic if released. New refrigerants were developed in the early 21st century that are safer for the environment, but their application has been held up due to concerns over toxicity and flammability.

Refrigerants gases trends. http://en.wikipedia.org/wiki/ozone_depletion

http://en.wikipedia.org/wiki/greenhouse_gas

The Radiative Forcing bar chart: AR5 version Climate Change 2013: IPCC AR5 WG1 SPM, Fig. SPM 05 http://en.wikipedia.org/wiki/greenhouse_gas

https://en.wikipedia.org/wiki/air_conditioning

http://www.cibsejournal.com/cpd/2009 03/

Joule Thomson Coefficient When a fluid passes through a restriction such as a porous plug, a capillary tube, or an ordinary valve, its pressure decreases. The enthalpy of the fluid remains approximately constant during such a throttling process. The temperature of the fluid may remain unchanged, or it may even increase during a throttling process. The temperature behavior of a fluid during a throttling ( constant) process is described by the Joule Thomson coefficient, defined as

Joule Thomson Coefficient Thus the Joule Thomson coefficient is a measure of the change in temperature with pressure during a constant enthalpy process. Notice that if during a throttling process. Some constant enthalpy lines on the T P diagram pass through a point of zero slope or zero Joule Thomson coefficient. The line that passes through these points is called the inversion line, and the temperature at a point where a constant enthalpy line intersects the inversion line is called the inversion temperature.

Required Properties of Ideal Refrigerant 1) The refrigerant should have low boiling point and low freezing point. 2) It must have low specific heat and high latent heat. Because high specific heat decreases the refrigerating effect per kg of refrigerant and high latent heat at low temperature increases the refrigerating effect per kg of refrigerant. 3) The pressures required to be maintained in the evaporator and condenser should be low enough to reduce the material cost and must be positive to avoid leakage of air into the system. 4) It must have high critical pressure and temperature to avoid large power requirements. 5) It should have low specific volume to reduce the size of the compressor.

Required Properties of Ideal Refrigerant 6) It must have high thermal conductivity to reduce the area of heat transfer in evaporator and condenser. 7) It should be non flammable, non explosive, non toxic and non corrosive. 8) It should not have any bad effects on the stored material or food, when any leak develops in the system. 9) It must have high miscibility with lubricating oil and it should not have reacting properly with lubricating oil in the temperature range of the system. 10) It should give high COP in the working temperature range. This is necessary to reduce the running cost of the system. 11) It must be readily available and it must be cheap also.

Refrigerants Ammonia Has good heat transfer properties Not miscible with oil But Toxic Flammable Corrosive to copper pipes Carbon dioxide Non toxic Non flammable But Higher cost Halogens (freons) Non toxic Non flammable Have good heat transfer properties Lower cost But Miscible with oil Widely used despite miscibility

Main Anthropogenic Sources of Greenhouse Gases Refrigerants

2024 © homedocbox.com Privacy Policy | Terms of Service | Feedback