Willkommen, schön sind Sie da!
Logo Ex Libris

Comparison of Performance of Two Waste Stabilization Ponds over Time

  • Kartonierter Einband
  • 92 Seiten
(0) Erste Bewertung abgeben
Bewertungen
(0)
(0)
(0)
(0)
(0)
Alle Bewertungen ansehen
To meet the goals and main purpose of conserving and protecting environment together with improving public health there is a need ... Weiterlesen
CHF 68.00
Auslieferung erfolgt in der Regel innert 2 bis 4 Werktagen.
Bestellung & Lieferung in eine Filiale möglich

Beschreibung

To meet the goals and main purpose of conserving and protecting environment together with improving public health there is a need of practicing wastewater treatment before disposing it to water bodies such as ocean, rivers, and lakes or sometimes to bare land. So the treatment of wastewater is often a great importance especially in developing country like Tanzania. There are different technologies adopted in treating such wastewater, each having advantages and disadvantages. Waste stabilization ponds (WSPs) are large, shallow basin in which raw sewage is treated entirely by natural process involving both algae and bacteria. They are used for sewage treatment in temperature and tropical climates, and represent one of the most cost effective, reliable and easily operated methods for treating domestic and industrial wastewater. This book will show all the readers the performance of Waste Stabilization over time.

Autorentext

Environmental Engineering practitioner with unique blend of expertise on implementation and deliver effective pro-poor Water, Sanitation and Health (WASH) services both in rural and urban by, designing, organizing, supervising and monitoring. Moreover,I am conversant with project planning, budgeting, implementation and carrying research.

Produktinformationen

Titel: Comparison of Performance of Two Waste Stabilization Ponds over Time
Autor:
EAN: 9783330017016
ISBN: 978-3-330-01701-6
Format: Kartonierter Einband
Herausgeber: LAP Lambert Academic Publishing
Genre: Elektrotechnik
Anzahl Seiten: 92
Gewicht: g
Größe: H220mm x B220mm x T150mm
Jahr: 2016