Description Modern Potable Rainwater Harvesting 2nd Edition is a major expansion and rewrite of the first edition by the same title.
Dan also serves as an ordained presbyter in a local Presbyterian church, which he helped plant..
But most of all, he enjoys teaching others what he has learned in life, which is why he writes books.
He is a true do-it-yourself (DIY) person and enjoys hobbies of home construction, electrical wiring, plumbing, machining, electronic circuit Design and fabrication, computer programming, and micro-controlled hardware.
He has worked in the field of optics and acoustics since the late 1970\'s.
Dickey.
He has written numerous technical papers on optical Design and is a contributing author to the book, Laser Beam Shaping, edited by Fred M. patents.
He holds graduate degrees in physics and computer science and is an inventor on ten U.
S.
By occupation, Dan is an optical engineer and lens designer and owns his own consulting business.
Other conventional sources of water proved to be inadequate or unavailable.
About the Author Dan Brown was thrust into Rainwater technology out of a need to provide water for his family\'s new home, which he designed and built in a remote area on the side of a mountain.
Although primarily geared toward the self-taught DIY person, this book can be used in the classroom to teach Potable water professionals.
This book contains a vast amount of technical details on Rainwater Harvesting not found in any other book.
Mathematical equations are necessarily provided for systems design, but a reader comfortable with algebra and trigonometry, or first-year calculus should have no trouble with the math.
Python source code for a GUI interface running on a Raspberry Pi is provided.
Wireless control of the Rainwater System is discussed, using a Raspberry Pi computer interfaced with the Arduino microcontroller through Xbee transceivers.
C-code Arduino sketches are provided.
Three essential electronics controls are discussed including; a transfer pump controller, an Arduino-based pressure pump runtime monitor, and an Arduino-based first flush valve controller.
Temperature compensation of the variation of dielectric constant with temperature or speed of sound in air is discussed, using both hardware and software.
Three different types of common capacitive gauges are discussed.
The section on TBR gauges shows how to build a constant drip rate calibrator for TBR gauges with common plumbing hardware.
Various types of digital rain gauges are discussed, including tipping bucket rain gauges (TBR), capacitive sensor gauges, and acoustic resonance gauges.
Instructions are provided for building capacitive tank level sensors.
This valve is controlled by an Arduino microcontroller that receives inputs from a digital rain gauge, water level sensors, and user selection of first flush amount.
How to build a low-cost high flow rate prefilter and motor-driven first-flush valve is taught.
How to survive droughts is discussed.
System sizing using a spreadsheet and local average rainfall data found on the Internet is discussed.
This book discusses advanced oxidation processes (AOP), disinfection, biofilm control, filtration, plumbing and pumps, electronic controls, water testing, and System management using a spreadsheet.
Rather than trying to purify polluted water at high mass flow rates demanded of entire cities, a Rainwater harvester maintains distilled water purity with low continuous flow through inexpensive filters and disinfection systems.
This water is orders of magnitude cleaner than typical public water supply or well water simply due to the fact that source water is distilled water from the sky rather than ground water polluted with all kinds of toxins.
This book shows how to design, build, and maintain a Rainwater System that consistently and reliably provides clean drinkable water to your whole house.
Description Modern Potable Rainwater Harvesting 2nd Edition is a major expansion and rewrite of the first edition by the same title
