The 20-knot human powered watercraft
Gespeichert in:
| Deutscher übersetzter Titel: | Ein 20-Knoten schnelles, von Menschen angetriebenes Rennboot |
|---|---|
| Autor: | Brooks, Alec N. |
| Herausgeber: | Wilson, David Gordon; Abbott, Allan V. |
| Erschienen in: | Human-powered vehicles |
| Veröffentlicht: | Champaign: Human Kinetics (Verlag), 1995, 1995. S. 79-92, Lit., Lit. |
| Format: | Literatur (SPOLIT) |
| Publikationstyp: | Sammelwerksbeitrag |
| Medienart: | Gedruckte Ressource |
| Sprache: | Englisch |
| ISBN: | 0873228278 |
| Schlagworte: | |
| Online Zugang: | |
| Erfassungsnummer: | PU199910402246 |
| Quelle: | BISp |
| id |
PU199910402246 |
|---|---|
| bisp-collection |
db |
| format |
Literatur |
| last_indexed |
2002-06-28T08:51:21Z |
| first_indexed |
2001-07-24T13:50:04Z |
| publication_source |
BISp |
| subformat |
Sammelwerksbeitrag |
| hierarchy_top_id |
PU199910402240 |
| hierarchy_parent_id |
PU199910402240 |
| hierarchy_top_title |
Human-powered vehicles |
| hierarchy_parent_title |
Human-powered vehicles |
| is_hierarchy_id |
PU199910402246 |
| is_hierarchy_title |
The 20-knot human powered watercraft |
| hierarchy_sequence |
1 |
| recordtype |
bispincollection |
| publishDate |
1995 |
| publishDate_facet |
1995 |
| language |
eng |
| title |
The 20-knot human powered watercraft |
| spellingShingle |
The 20-knot human powered watercraft Abfluggeschwindigkeit Boot Design Fahrzeug Geschwindigkeit, maximale Konstruktion Luftwiderstand Materialeigenschaft Modell, mathematisches Modell, physikalisches Muskelkraft Vortrieb Wassersport Wasserwiderstand |
| title_sort |
the 20knot human powered watercraft |
| title_short |
The 20-knot human powered watercraft |
| title_alt |
Ein 20-Knoten schnelles, von Menschen angetriebenes Rennboot |
| title_alt_lang |
deu |
| media_type |
Gedruckte Ressource |
| city |
Champaign |
| abstract |
The International Human Powered Vehicle Association (IHPVA) was founded to foster innovation in the design of human-powered vehicles. As a result of the IHPVA, land vehicle performance has taken a quantum leap in the last decade. A similar revolution is underway in human-powered water vehicles. With the motivation provided by Du Pont Watercraft Speed Prize, a new wave of watercraft has toppled records held by oared shells, with relative speed improvements at least as great as those seen for land vehicles. Many of the new high-speed craft are hydrofoils. By literally flying through the water, hydrofoils eliminate the water drag of a hull. The required wing area for fast hydrofoil is quite small - on the order of 0.5 ft2 or less. This chapter discusses the design of human-powered hydrofoils, concentrating on wing sizing based on power available, minimum flight power, takeoff speed, and structural considerations. Many hydrofoil configurations are suitable for human-powered applications. This chapter considers the Flying Fish configuration, a single fully submerged main wing under the center of gravity and a small forward stabilizer wing that carries little or no load. The main wing is supported at its center by a single strut that houses the drive mechanism to the propeller. Other more complex configurations (ladder foils, biplanes, multiple support struts, etc.) may prove to be better for really fast designs. The analysis ideas presented here can be readily extended to these cases. Verf.-Referat |
| abstract_lang |
eng |
| abstract_type |
author |
| author2 |
Brooks, Alec N. Wilson, David Gordon Abbott, Allan V. |
| author_facet |
Brooks, Alec N. Wilson, David Gordon Abbott, Allan V. |
| author2-role |
Autor Hrsg. Hrsg. |
| author2-authorityid |
|
| author_author_facet |
Brooks, Alec N. |
| author2-synonym |
|
| author2_hierarchy_facet |
0/Autor/ 1/Autor/Brooks, Alec N./ 0/Hrsg./ 1/Hrsg./Wilson, David Gordon/ 0/Hrsg./ 1/Hrsg./Abbott, Allan V./ |
| editor_author_facet |
Wilson, David Gordon Abbott, Allan V. |
| isbn |
0873228278 |
| spelling |
0873228278 Abfluggeschwindigkeit Boot Design Fahrzeug Geschwindigkeit, maximale Konstruktion Luftwiderstand Materialeigenschaft Modell, mathematisches Modell, physikalisches Muskelkraft Vortrieb Wassersport Wasserwiderstand air resistance aquatic sport boat construction design material, property of mathematical model maximal velocity muscle strength physical model propulsion take-off velocity vehicle water resistance Automobil Kraft Bootstyp Rennboot Schwertboot Sportboot Faltboot Bootsart Wassersportler Wassersportunfall Bau Trieb Vortriebskräfte Vortriebskraft Maximalgeschwindigkeit Beschaffenheit Eigenschaft muscle force aquatics hydrodynamic drag drag force maximal speed take-off speed velocity of take-off speed of take-off initial velocity initial speed The 20-knot human powered watercraft PU199910402246 199910402246 |
| publisher |
Human Kinetics |
| publisher-role |
Verlag |
| publisher-address |
Champaign |
| publisher-synonym |
|
| publisher-authorityid |
|
| publisher_publisher_facet |
Human Kinetics |
| publisher_hierarchy_facet |
0/Verlag/ 1/Verlag/Human Kinetics/ |
| location_hierarchy_facet |
0/USA/ 1/USA/Illinois/ |
| topic |
Abfluggeschwindigkeit Boot Design Fahrzeug Geschwindigkeit, maximale Konstruktion Luftwiderstand Materialeigenschaft Modell, mathematisches Modell, physikalisches Muskelkraft Vortrieb Wassersport Wasserwiderstand |
| topic_facet |
Abfluggeschwindigkeit Boot Design Fahrzeug Geschwindigkeit, maximale Konstruktion Luftwiderstand Materialeigenschaft Modell, mathematisches Modell, physikalisches Muskelkraft Vortrieb Wassersport Wasserwiderstand |
| topic_en |
air resistance aquatic sport boat construction design material, property of mathematical model maximal velocity muscle strength physical model propulsion take-off velocity vehicle water resistance |
| topic_en_facet |
air resistance aquatic sport boat construction design material, property of mathematical model maximal velocity muscle strength physical model propulsion take-off velocity vehicle water resistance |
| synonym |
Automobil Kraft Bootstyp Rennboot Schwertboot Sportboot Faltboot Bootsart Wassersportler Wassersportunfall Bau Trieb Vortriebskräfte Vortriebskraft Maximalgeschwindigkeit Beschaffenheit Eigenschaft |
| synonym_en |
muscle force aquatics hydrodynamic drag drag force maximal speed take-off speed velocity of take-off speed of take-off initial velocity initial speed |
| container_title |
Human-powered vehicles |
| container_start_page |
1995. S. 79-92, Lit. |
| container_isbn |
0873228278 |
| has_references |
1 |
| institution |
BISp |
| _version_ |
1791516330590994432 |
| score |
13,546439 |