Frost & Sullivan, Nov 2010, Pages: 90
networks, which indirectly promotes demand for leadacidbatteries for telecom stationary applications.”
While there is evidently a huge market for lead-acidbattery, participants should be prepared
Frost & Sullivan, Aug 2011, Pages: 79
This study covers the state of the Worldstationaryleadacid (SLA) battery market, examining drivers and restraints for growth, distribution, and technology and demand trends. In addition
Global Industry Analysts, Inc., Oct 2010, Pages: 350
, Current & Future Analysis for
LeadAcidBatteries (Automotive) by Geographic Region - US,
Canada, Japan, Europe, Asia-Pacific (excluding Japan), Latin
America and Rest of World
Frost & Sullivan, April 2010, Pages: 78
of approximately 6 to 8 hours, during which the battery is fully charged for the deep cycle application. This world motive leadacidbattery market generated more than $2 billion during 2009, and is likely to grow
Global Industry Analysts, Inc., Aug 2011, Pages: 661
corresponding
Graph/Chart) 26
Table 7: Leading Players in the World Consumer Lithium-ion
Battery Market (2009): Percentage Breakdown of Value Sales
for Panasonic/Sanyo, Samsung SDI, Sony, BYD Company, LG
Global Industry Analysts, Inc., April 2011, Pages: 208
Market (2010): Percentage Breakdown
of Revenues by Battery Type - Lithium Ion, SLI, Alkaline,
StationaryLeadAcid, Carbon Zinc, Motive LeadAcid, Nickel
Metal Hydride, Primary Lithium, Nickel Cadmium, Zinc
Frost & Sullivan, May 2006
emerging battery chemistries, including emerging variations to existing technologies such as lithium, nickel, leadacid, or alkaline. A lot of research and development (R&D) is taking place in the battery
IDTechEx, Nov 2011, Pages: 219
of construction, manufacturer and power output
8.2. Traction battery technologies in 2012, number percentage leadacid, NiMH and lithium
8.3. Traction battery technologies in 2022 number percentage leadacid, Ni
Frost & Sullivan, June 2004
Market Forecast
8 LEAD-ACIDBATTERIES
Technology Overview
Technologies of Lead-AcidBatteries
Technology Advantages and Challenges
Key Developments- North America
Advanced Lead-AcidBattery Consortium Funds R
GlobalData, June 2009, Pages: 20
to replace leadacidbatteries with a non-toxic-substance-based storage solution drives fuel cells uptake in developed markets such as the US and Japan, the demand for low-maintenance long back-up storage
WinterGreen Research, Inc., Sep 2006, Pages: 710
to generate hydrogen from its excess capacity. The reactors in the world used for nuclear electricity generation in 2005 created 2,626 billion kilowatts of energy.
Stationary fuel cells are being implemented
Business Review, Nov 2010, Pages: 22
. The company along with its subsidiaries serves original equipment manufacturers and replacement markets primarily in Japan. It also exports products like motorcycle & automotive batteries, leadacidstationary
Datamonitor, Jan 2008, Pages: 45
Exide Technologies (Exide), with operations in more than 80 countries, is one of the worlds largest producers and recyclers of lead-acidbatteries. The companys objective is to become
Global Markets Direct, Jan 2010, Pages: 78
Concerns Are Driving the Fuel Cells Market
Fuel cells are an emission free power sources used for vehicles, potable devices, and residential, commercial, and industrial purposes. Lead-acidbatteries
WinterGreen Research, Inc., Dec 2008, Pages: 416
Cells In Use All Over The World 5-118
5.25.9 Electric Automotive Vehicle Smart Fuel
Cell Battery Charger 5-119
5.26 Solvay 5-121
5.26.2 Solvay Financials 5-122
5.27 Tatung System Technologies 5-123
5
WinterGreen Research, Inc., Dec 2008, Pages: 381
cells are poised to achieve significant growth as units become smaller and fuels less expensive.
According to Susan Eustis, lead author of the study, “Economies of scale do not entirely solve
Knowledge Press, Aug 2008, Pages: 3104
Systems
Roger A. Dougal, PhD, Professor of Electrical Engineering, VTB Project Director, University of South Carolina
Design of fuel cell and battery hybrid systems entails integration of strongly