Post on 28-Mar-2015
transcript
Joint SA-SEAP Ozone Officers Network MeetingPattaya, Thailand
15-18 October 2012
CHALLENGES FOR HCFC PHASE-OUT IN AIR CONDITIONING
2
BACKGROUND
HCFC phase-out in developing countries has started. Short/medium term targets: Freeze in 2013, 10% reductions from 2015, 35% reductions from 2020.
HCFC-22 is the predominant refrigerant used in air- conditioners in developing countries
Consumption of HCFC-22 in manufacturing and servicing of air-conditioners in major developing countries is significant (typically >70% of total HCFC consumption) and growing rapidly
3
MARKET FOR AIR-CONDITIONERS
Market for air-conditioners growing rapidly in developing countries – low baseline market penetration
Estimated HCFC-22 based room air-conditioner sales (2011) in key developing countries in Asia-Pacific:
Country 2011 Sales
China ~36 million
India 3.30 million
Indonesia 1.40 million
Malaysia 1.00 million
Philippines 0.75 million
Thailand 1.25 million
Vietnam 0.50 million
4
MARKET FOR AIR CONDITIONERS (CONT’D)
By 2020, market for air-conditioners in Asia-Pacific could reach >100 million units and sales >US$ 20 billion
By 2025, ~1 billion city dwellers will “enter the global consuming class”: an air-conditioner would be their first purchase*
Most booming cities are in tropical climates
Refrigerant charge volumes for new air-conditioners sold in Asia-Pacific (developing countries in 2011) estimated at ~50,000 metric tonnes annually(!)
____________________________
* McKinsey Global Initiative
5
ENERGY USE
Electricity use for air conditioning in some cities with tropical weather:
o Bangkok, Thailand – 60%o Delhi, India – 55%o Miami, USA – 40%o Mumbai, India – 50%o And the list goes on …….
Electricity use for air conditioning at the national level can range from <5% (temperate zones) to over 80% (some tropical/equatorial island states)
6
DIRECT AND INDIRECT EMISSIONS
Global air-conditioner population is estimated at about 500 million to 1 billion (and growing)!!
Use HCFCs or HFCs as refrigerants, both high GWP gases
Each air-conditioner contains average 1-1.5 kg of refrigerant and has 1.5 to 4 kw connected electrical load
Annual direct and indirect CO2 emissions from air conditioners globally, could be between 1 to 4 gt (1 to 4 billion CO2-eq tonnes)!!!
7
BACKGROUND (CONT’D)
8
BACKGROUND (CONT’D)
9
BACKGROUND (CONT’D)
10
BACKGROUND (CONT’D)
11
12
TECHNOLOGY
Need for lifecycle management approach in technology selection
Manufacturing
Use
End of Life
13
TECHNOLOGY
MOP Decision XIX/6 urges maximizing climate benefits when phasing out HCFCs
Lifecycle CO2 emissions from air-conditioners are 60-95% indirect and 5-40% direct. In developing countries direct emissions are higher due to local conditions
Both energy use and refrigerant GWP are critical considerations to maximize climate benefits
Currently there is no perfect alternative for HCFC-22. HFC and HC candidates involve compromises and trade-offs
14
TECHNOLOGY (CONT’D)
R-410A (GWP = 2,088*) has been the preferred alternative in developed country markets since ~2000.
Population of air-conditioners with R-410A is already about 200 million (Dec 2010), mostly in developed countries: about 200,000 metric tonnes of R-410A in banks and increasing!
R-410A energy-efficiency performance in general and in high-ambient conditions in particular
Is R-410A a sustainable alternative for minimizing adverse climate impacts?
____________________________* IPCC 4th Assessment Report
15
KEY ISSUES AND CONCERNS
Reducing HCFC-22 consumption in developing countries without clear technology and policy signals, will result in unintended and adverse climate impacts
For example, if developing countries prohibit HCFC-22 based air-conditioners (manufacturing and imports), automatic technology choice is likely to be R-410A.
Major developed-country technology providers showing preference for R-410A (e.g. R&D focus on optimizing R-410 systems and components, new products based on R-410A etc.)
16
KEY ISSUES AND CONCERNS
Significant expansion of HFC production facilities
Extensive introduction of high-GWP technologies will lead to rapid increase in population of air-conditioners in developing countries, based on these technologies
Considering prospective developing country markets by 2020, the net climate impact of HCFC phase-out with high-GWP technology, is most likely to be negative!
A better, more forward-looking and climate-conscious approach to alternatives is needed!
17
WAY FORWARD
What can industry do?
Introduce and promote low-GWP, energy-efficient alternatives (R-32, R-290, others) on priority
Support sustained R&D for new, better and safer molecules for substituting HCFC-22, as well as optimized components (e.g. compressors).
Cooperate with MP panels and implementing agencies for sharing and disseminating latest technologies (e.g. demonstration projects, technology workshops)
18
WAY FORWARD
What can developing country governments do?
Support incentives for better alternatives
Support policies that ensure level playing field for the industry players
‘
Involve industry in formulation of policies and regulations
Support targeted and clear regulations that take into account GWP and energy efficiency
19
MLFFUNDING
GEF/BILATERAL/PRIVATE-SECTORFUNDING
Montreal Protocol Measures (HCFC
Phase-out)
Direct Emission Reductions (low-GWP alternatives)
Indirect Emission Reductions (EE improvements) M
axim
um
cli
mat
e im
pac
t
WHAT WE ARE DOING
Design interventions with dual objectives of ozone and climate protection
20
THANK YOU!
Comments, suggestions and questions welcome
http://www.undp.org/chemicals/montrealprotocol.htm
nandan.chirmulay@undp.org