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Existing Replacements for CFC

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Title: DuPont Product/Presentation Title Author: Dr. Frank Rinne Last modified by: rinnefr Created Date: 10/26/2004 5:19:59 PM Document presentation format – PowerPoint PPT presentation

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Title: Existing Replacements for CFC


1
Existing Replacements for CFC HCFC Refrigerants
and Future Low GWP Alternatives
  • Dr. Frank Rinne
  • Technical Programmes Manager
  • DuPont Fluoroproducts

2
Agenda
  • Introduction
  • Role of HFCs in tackling these environmental
    concerns
  • Retrofit Refrigerants for CFCs and HCFCs in
    existing Systems
  • Low GWP Refrigerants for new Systems
  • Conclusions
  • Questions and discussion

3
An Industry in Transition
Thousands of tonnes
HFCs
HFOs
HCFCs
CFCs
Refrigerants
Other
Refrigerants
Solvents
Fire Extinguishants
Foam Expansion
Propellants
4
Climate ChangeHFCs A Small but Very Visible
Part of Global Warming
  • Globally HFCs are responsible for only a few
    percent of the total contribution to global
    warming (2-3 )
  • But there are several factors that make them a
    target
  • Nationally, HFCs can represent several percent of
    total contribution to global warming
  • The CFC legacy regulate and industry will
    innovate
  • Refrigerant emissions can be reduced
  • HFCs are included in the basket of gases under
    the Kyoto Protocol
  • HFCs are considered high GWP gases with
    perceived low reduction costs
  • Energy efficiency is considered a separate issue
  • Bottom line HFCs are a target for global
    warming regulations

5
Ozone DepletionDuPont Position on HCFC
Phase-out Acceleration
  • Despite remarkable success, the ozone layer
    still requires action.
  • DuPont supports the accelerated phase-out
    schedules for HCFCs
  • as an encouraging sign that developed and
    developing nations can
  • reach consensus on actions to protect the global
    climate system
  • The new schedule will allow for an orderly
    transition to alternative products and
    technologies through
  • Good conservation practices to reduce emissions
    of refrigerants to the environment
  • Adoption of alternative non-ozone depleting
    products and technologies.

6
ISCEON Refrigerants to replace CFCs and HCFCs
  • Benefits
  • provides easy, quick, cost-effective retrofit
  • non-ozone-depleting HFC
  • in most cases no change of lubricant type during
    retrofit is required -- compatible with
    traditional and new lubricants
  • avoids expensive engineering changes to existing
    equipment
  • enables cost-effective continued use of existing
    equipment
  • can be topped off during service without removing
    the entire refrigerant charge
  • Performance
  • provides required cooling capacity and comparable
    energy efficiency vs. R-12 and R-22
  • similar discharge temperature and pressure vs.
    R-12 and R22

7
CFC Replacement Application Summary
ISCEON Product Replaces Application
ISCEON 39TC R-12 High Temperature Centrifugal Chillers
ISCEON MO49Plus R-12 / HCFC Blends Automotive ACDX stationary AC DX medium/low temperature Refrigeration
ISCEON MO89 R-13B1 Very low temperature Refrigeration
8
ISCEON 39TC - Sulzer unit at
ISCEON 49Plus Rhodia Paulinia, Brazil / 2002
Average water flow 180,000 kg/h Average cooling
capacity 880,000 kCal/h (60 load)
9
HCFC Replacement Application Summary
Original Refrigerant Application Replaced by
R22 Small AC (lt15 kW) (not recommended in water chillers) ISCEON MO59
R22 Low medium temperature refrigeration and larger AC ISCEON MO29
R22 Refrigeration where extra capacity is required ISCEON MO79 (Change of TEV required)
R402A/B, R403B, R408A, R411B Refrigeration ISCEON MO79
Lower pressure and compressor power than R22
may be an advantage in some specific cases.
Change of expansion valve, condenser capacity
assessment and pressure rating check required.
Multipurpose replacement for R22 in DX equipment
10
Typical Applications for ISCEON MO29
Supermarket Air
Contioning Chillers
11
EU F-Gas Revision in 2011
  • Will focus on reduction of GWP , direct
    emissions of refrigerants
  • Will continue to regulate leak rates and systems
    checks, as well as trade / consumption / disposal
    / reclaim of refrigerants
  • It is proposed to add a market driven
    mechanism based on GWP of the refrigerants .
  • The idea is to take all sales of refrigerants in
    a reference year and convert them in CO2
    equivalents , based on the GWP of the individual
    refrigerants. Then , total CO2 equivalent
    refrigerant sales in next period would have to
    decrease YOY ( regardless of the tonnage , only
    CO2 equivalent matters )
  • The benefit is that no technology is phased out
    nor mandated . This means that the industry as a
    whole has freedom to operate to meeting set upon
    goals in an economically sound manner
  • This draft proposal from the EU Commission is
    supported by EFCTC and EPEE
  • A similar approach is being put in place in the
    US convergence

12
Low GWP Solutions based on HFO-1234yf Technology
HFO-1234yfA Low GWP Refrigerant For MAC
13
HFO-1234yf Leading Low GWP Option to Replace
R-134a
  • Jointly Developed by DuPont and Honeywell
  • Excellent environmental properties
  • Very low GWP of 4, Zero ODP, Favorable LCCP
  • Atmospheric chemistry determined and published
  • Low toxicity
  • Low acute and chronic toxicity
  • System performance very similar to R-134a
  • Excellent COP and Capacity, no glide
  • From both internal tests and auto OEM tests
  • Thermally stable and compatible with R-134a
    components
  • Potential for direct substitution of R-134a
  • Mild flammability ( manageable in MAC systems )
  • Flammability properties significantly better than
    152a (MIE, burning velocity, etc)
  • Potential for A2L ISO 817 classification versus
    A2 for 152a based on AIST data
  • Minimal modifications for safety

14
1234yf Flammability Properties
1234yf gt 5000 mJ !
Ignition Source
Flames. Chemical sources. Propagating brushes.
IncreasingFlammability Risk
Personnel spark limit
Minimum Ignition Energy, mJ
Iso-Butane
Mechanical sparks. Stray current
sparks. Ungrounded con- ductors.
Methane
Propane
152a
A glowing cigarette Will not ignite methane (A.D.
Little)
Gasoline
Static discharge from clothing
Acetylene
Lower Flame Limit, vol.
15
HFO-1234yf Status for Mobile AC
  • Automakers representing 70 of EU and 70 of
    global vehicle production have publicly
    expressed preference for HFO-1234yf
  • Registrations (JCSCL, REACH, SNAP, ASHRAE, etc)
    on schedule
  • DuPont will make commercial decision on
    investment in HFO-1234yf plant based on OEM
    commitments
  • The EU F-Gas GWP directive for MAC is still
    expected to go into effect 1 January, 2011

16
Development of Blends for other Applications
  • Start with the Fundamentals!
  • Understand the Physical and Chemical Factors
    Impacting mixture properties of Fluorocarbons
  • Various Blends offering different trade offs
    between Flammability, Capacity and GWP
  • Dupont established already Research Projects
    with Industry to identify the best options
  • Account for Non Ideal Behaviors e.g.
    Azeotropes
  • Assumptions of Thermodynamic Ideality can lead to
    errors
  • Measurements of Binary Pair Properties
  • Validate Modeled Performance in Instrumented
    Laboratory Systems

17
Flammable Refrigerant Regulations In Commercial
Stationary Refrigeration and A/C
  • Europe
  • Stationary A/C - IEC 60335-2-40, pr EN
    378-1-2007, ISO 5149-2006 - Maximum charge size
    based on LFL, room size, equipment location
  • Stationary Refrigeration IEC 60335-2-89 limit
    of 150 gram unrestricted. Above 150 gram refer
    to EN 378 or ISO 5149 for charge size limits
  • ISO 817 in progress HFO-1234yf will be
    classified A2L
  • USA
  • Stationary A/C and Refrigeration -
  • ASHRAE Std 15 - greater than 3 kg requires a
    machine room. May work to revise for mild
    flammables (e.g. A2L)
  • UL has a procedure for requesting addition of
    refrigerants to their standards and sets specific
    charge limits based on flammable properties (UL
    1995, UL 471)
  • Japan
  • No specific regulations, but must follow High
    Pressure Gas Law as done for R134a

18
Conclusions
  • I) A sector in permanent transition, mainly
    driven by regulations
  • II) Role of HFCs in this changing regulatory
    framework
  • HFC as an immediate solution in response to the
    first environmental issue addressed by an
    International Agreement ozone layer
  • In replacing HCFCs, HFCs substantially and
    quickly contribute to reinforce the Ozone layer
    while limiting the impact on climate change
  • III) HFO-1234yf has been shown to be a safe,
    effective refrigerant for environmentally
    sustainable solutions for MAC applications
  • Excellent Potential R-134a replacement for
    HVACR applications
  • It is possible to develop reduced GWP blends
    with good capacity and COP
  • There may be trade-offs of GWP, Flammability,
    Performance
  • Flammability issues must be assessed for safety
    codes in residential and commercial buildings

19
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