Neah Power Systems Releases Technology Brief

BOTHELL, Wash., Aug. 27, 2009 (GLOBE NEWSWIRE) -- Neah Power Systems, Inc.
('NEAH') (OTCBB:NPWZ) www.neahpower.com, the Company developing fuel cell based
renewable energy solutions, announced that it has released a technology report
describing Neah's unique anaerobic solution, and the energy density benefit of
using methanol as a fuel. The White Paper is available on Neah's website.

     Technology Brief: Neah Power Systems provides energy solution
      for long duration applications in limited air environments
By Tsali Cross Ph.D., Vice President of Engineering, Neah Power Systems

A new and unique approach to direct methanol fuel cell (DMFC) design has been
developed by Neah Power Systems that uses a porous silicon, catalyst-supporting
electrode structure and circulating liquid fuel, electrolyte and oxidant.

We believe that there are currently no other commercially available DMFC's able
to operate in non-air breathing environments with such unique capabilities. Neah
Power's anaerobic fuel cell represents a major break-through in portable power
for long-duration missions operating in environments without air. Neah plans to
leverage this advantage by initially targeting this market, as illustrated by
the previously announced EKO Vehicles and Hobie Cat engagements.

Neah Power's silicon-based architecture and use of liquid electrolyte creates a
three dimensional reaction zone that is able to generate industry leading power
densities of greater than 180mW/cm2 and allows for air availability limited
operations.

Using Methanol as a fuel provides distinct advantages over traditional power
sources such as lead-acid or Li-Ion based power sources including energy
density, weight and volume for long-duration and low-power (0-200W) electronic
applications based on the theoretical densities as shown (1) (2) (3).

 --------------- -------------------- ---------------
      Power           Gravimetric         Vol.
     Source             Energy           Energy
                       Density           Density
                      (W-hr/kg)         (W-hr/L)
 --------------- -------------------- ---------------
 Methanol fuel          6,050             4,780
 --------------- -------------------- ---------------
     Li-Ion              130               300
 --------------- -------------------- ---------------
   Lead acid            30-40             60-75
 --------------- -------------------- ---------------

 Table 1.  Advantages of Methanol over Lead acid 
 and Li-Ion  based power.
Most fuel cells for such portable applications are based on a proton exchange
membrane (PEM), which uses oxygen from air as the oxidant. These systems are
limited by the availability of air or extended periods of time, such as in a
smoke-filled building, a soldier's pack, or in pressure challenged environments
(i.e. high altitude or underwater). An example of one recent design for an
unmanned underwater vehicle (UUV) application where air is limited is shown in
Figure 1.

Figure 1 is available at http://media.primezone.com/cache/11338/file/7277.pdf

Neah Power has recently developed a portable, DMFC prototype from their
ground-breaking porous silicon based technology. The versatility of the
architecture has been demonstrated by operating the fuel cell with liquid
oxidant (versus air as in traditional PEM based fuel cells), methanol as the
fuel, and liquid electrolyte. This silicon-based design can be manufactured
using standard semiconductor processing techniques and has the potential to
deliver low-cost, portable power systems exhibiting high energy density and
reliable operation in a broad range of environmental conditions. Power solutions
may be custom engineered for specific end-user applications, due to the high
degree of flexibility in Neah Power's design, development and manufacturing of
fuel cell systems.

 (1) H.A. Kiehne, Battery Technology Handbook, 2nd Ed., Marcel
     Dekker, New York, NY, 2003.
 (2) www.wikipedia.com, accessed 8/26/09.
 (3) www.nexergy.com, accessed 8/26/09.
About Neah Power

Neah Power Systems, Inc. (NPWZ) is developing long-lasting, efficient and safe
power solutions for the military and for portable electronic devices. Neah uses
a unique, patented, silicon-based design for its micro fuel cells that enable
higher power densities, lower cost and compact form-factors. The company's micro
fuel cell system can run in aerobic and anaerobic modes, and is developing
energy storage solutions based on its proprietary porous silicon technology.
Further company information can be found at www.neahpower.com.

Forward-Looking Statements

Certain of the statements contained herein may be, within the meaning of the
federal securities laws, "forward-looking statements," which are subject to
risks and uncertainties that could cause actual results to differ materially
from those described in the forward-looking statements. Such forward-looking
statements involve known and unknown risks, uncertainties and other factors that
may cause the actual results, performance or achievements of the company to be
materially different from any future results, performance or achievements
expressed or implied by such forward-looking statements. See Neah Power System's
Form 10-KSB for the fiscal year ended September 30, 2008 for a discussion of
such risks, uncertainties and other factors. These forward-looking statements
are based on management's expectations as of the date hereof, and the company
does not undertake any responsibility to update any of these statements in the
future.

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CONTACT: Public Communications Co.
         Michael Selsman
         310-553-5732
         ms@publiccommunications.biz