Explosively Driven Pulsed Power
Explosively Driven Pulsed Power

Author: Andreas A. Neuber

Publisher: Springer Science & Business Media

Published: 2005-11-04

Total Pages: 282

ISBN-13: 354028673X

DOWNLOAD EBOOK

While the basic operating principles of Helical Magnetic Flux Compression Generators are easy to understand, the details of their construction and performance limits have been described only in government reports, many of them classified. Conferences in the field of flux compression are also dominated by contributions from government (US and foreign) laboratories. And the government-sponsored research has usually been concerned with very large generators with explosive charges that require elaborate facilities and safety arrangements. This book emphasizes research into small generators (less than 500 grams of high explosives) and explains in detail the physical fundamentals, construction details, and parameter-variation effects related to them.

Design, Testing and Modeling of a High-gain Magnetic Flux-compression Generator
Design, Testing and Modeling of a High-gain Magnetic Flux-compression Generator

Author:

Publisher:

Published: 1986

Total Pages:

ISBN-13:

DOWNLOAD EBOOK

Using a simultaneously initiated cylindrical explosive, a coaxial magnetic flux-compression generator (FCG) was designed to test high-current-gain limitations. A coaxial design with a lossless gain of approx. 100:1 was chosen for its efficiency, relative simplicity, and calculability. Theoretical design included modeling as well as 1-D and 2-D hydrodynamic and MHD calculations. A 69.3-cm cylinder of PBX-9501 high explosive, 20.3 cm in diameter, was used to drive the Al armature into a Cu stator. The initial current supplied by a capacitor bank was approx. 3 MA which produced a final current approx. 75 MA. Details of the experiment and a comparison with calculations are presented.

Survey of Recent Work on Explosive-driven Magnetic Flux Compression Generators
Survey of Recent Work on Explosive-driven Magnetic Flux Compression Generators

Author:

Publisher:

Published: 1978

Total Pages:

ISBN-13:

DOWNLOAD EBOOK

There are five widely-used classes of explosive-driven flux compression generators. They are the spiral, coaxial, strip, plate and cylindrical implosion systems. The configurations are described and the characteristics of the various types are compared. There are a number of techniques for sharpening or impedance-matching the output pulse of the generators. The use of switching, fuses and transformers are discussed. Some of the areas of application of the generators are outlined briefly. Much of the recent work at Los Alamos has been directed toward the development of the plate generator. This type consists essentially of a transmission line with explosive slabs on the flat surfaces. These plates may be parallel or at an angle with respect to each other. A plane detonation front in the explosive allows a large area of conductor to be driven simultaneously. As a result, the power and current outputs are very high - many megamperes at the terawatt level. This generator is particularly well suited to driving low impedance plasma devices. The results of the plate generator tests are discussed.

High Voltage Flux Compression Generators
High Voltage Flux Compression Generators

Author:

Publisher:

Published: 2008

Total Pages: 50

ISBN-13:

DOWNLOAD EBOOK

Helical magnetic flux compression generators (HFCGs) have been in use for about five decades. There remain limitations to their performance. Recently and for the first time, calculations of high accuracy of HFCG output have been made. The calculated results assume that there are no electrical breakdowns in the generator resulting in a decrease of flux delivered. It has been very difficult to build high performance generators within desired size constraints as a result. The goal of the Phase I effort is to be able to design and build HFCGs that can operate at higher voltages than are presently achieved. Reaching this goal has required the development of advanced computational tools that allow the calculation of all the vector components of both the electrostatic and inductive internal electric fields within the generators, and identification and understanding of the primary reason, or reasons, for field-induced breakdown. Using the two existing 2D codes, FlexPDE and CALE, calculations were completed on the constant pitch region of a HFCG and the results incorporated into CAGEN. We have achieved our goals: the complete inclusion in the model code CAGEN for predicting the electric fields within an explosively powered helical flux compression generator. We accomplished this task by using purely two-dimensional physics equation solutions from the trademarked code FlexPDE.

Modeling and Design of Magnetic Flux Compression Generators
Modeling and Design of Magnetic Flux Compression Generators

Author: Nicholas Edward Klugman

Publisher:

Published: 2020

Total Pages: 111

ISBN-13:

DOWNLOAD EBOOK

The explosively-pumped magnetic flux compression generator (FCG) is a pulsed-power current amplifier powered by an explosion. This thesis surveys FCGs, demonstrating their general operation; develops a new magnetic-field-strength-based model for FCGs in the form of a generalized cylinder that more accurately captures losses to magnetic diffusion than commonly employed circuit models, but maintains simplicity in the form of a low order DAE; develops a simplified means of calculating the inductance of FCGs, providing a bridge between the field-based and circuit models; presents a design of a full loop FCG system (a topology underserved by existing literature) and an experimental setup to verify the designed loop generator; and proposes a class of non-explosive magnetic flux compression generators. The designs and models herein provide new tools and jumping-off points for further research into FCGs, particularly in the miniaturized systems gaining popularity and in the potential for reusable flux compression power sources.

Renewed Experimentation with Ranchero Flux Compression Genereators
Renewed Experimentation with Ranchero Flux Compression Genereators

Author:

Publisher:

Published: 2010

Total Pages:

ISBN-13:

DOWNLOAD EBOOK

In the late 1990s, Los Alamos pursued a coaxial flux compression generator (FCG) concept that was described in several publications under the name 'Ranchero.' These FCGs were designed to be cost effective high current generators, and a variety of configurations were tested. The Ranchero armature is a 152 mm diameter aluminum cylinder with a 6 mm thick wall. The high explosive (HE) is detonated simultaneously on axis, and as the armature expands a factor of two, the wall thins to H" mm. At the final 300 mm diameter, the circumference is over 900 mm, and this should allow currents to be generated in the 90 MA range. No tests significantly over 50 MA have been performed but an experiment is planned. We have recently begun using Ranchero devices for a new application and we continue to improve the design. In this paper we describe recent tests of Ranchero and its subsystems. The load for our new application is an imploding aluminum liner that would deform due to the magnetic pressure applied during the initial flux loading. It will, however, implode properly when powered only during the H"9?s Ranchero flux compression time. This gives rise to a new system with explOSively formed fuse (EFF) opening switches and an integral closing switch that isolates the load. A capacitor bank delivers 2.8 MA to the Ranchero circuit in H"5?s. During this time, four parallel 63.5 mm wide EFFs, external to the coaxial system, complete the circuit. After armature motion begins, insulation which initially isolates the load is severed, connecting the load to the FCG in parallel with the EFFs. External HE charges are initiated on each of the EFFs to produce a resistance rise timed to not precede closure of the load isolation switch. The EFFs achieve significant resistance, and the flux remaining in the 191 nH generator and 3 nH transmission line is compressed to generate 30.85 MA in a H"2.5 nH static load. On three tests, the EFF system has operated flawlessly, and only H"00kA is driven back into the EFFs during peak voltage of the generator output. A test incorporating a 19.5 nH dual liner dynamic load has also been completed, and these results are also presented. Ranchero generators have been operated with armatures from 43 cm to 1.4 m long, corresponding to initial inductances from 56 to 191 nH. MHD code modeling gives better agreement with experiments using modules 43 cm long than the 1.4 m modules, and these results will also be presented.

Index to IEEE Publications
Index to IEEE Publications

Author: Institute of Electrical and Electronics Engineers

Publisher:

Published: 1997

Total Pages: 1462

ISBN-13:

DOWNLOAD EBOOK

Issues for 1973- cover the entire IEEE technical literature.