Books by Frank R. (Spellman Environmental Consultants Spellman

The Science of Wind Power is designed to provide a fundamental understanding for wind technicians and students alike, essentially examining how to harness the wind to produce energy for transmission and use, while keeping environmental impacts in mind.

This book examines all types of waste and their impacts, and discusses the potential ways to mitigate them through recycling and reuse strategies.

'The Science of Environmental Pollution' focuses on pollution of the atmosphere, of surface and groundwater, and of soil - the three environmental mediums - and solving pollution problems by using real world methods.

Wastewater-based epidemiology is an emerging science that has proven to be a cost- and time-effective biomonitoring tool. This book provides a roadmap to detecting wastewater-borne pathogenic contaminants such as viruses, bacteria, fungi and others.

Hailed on its first publication as a masterly account detailing a roadmap for compliance with workplace standards, regulations, and rules, Surviving an OSHA Audit: A Management Guide, Second Edition, is specifically designed for managers and other professionals who seek to provide a safe work environment.

Fundamentals of Public Utilities Management provides practical information for constructing a roadmap for successful compliance with new and ever-changing regulatory frameworks, upgrading and maintenance, and general management of utilities operations.

A thorough revision of the previous "Environmental Engineer's Mathematics Handbook," this book offers readers an unusual approach to presenting environmental math concepts, emphasizing the relationship between the principles in natural processes and environmental processes.

A critical aspect of sustainability associated with water and wastewater systems is to maintain and manage infrastructure in the most efficient and economical manner while complying with environmental regulations and keeping rates at acceptable levels. Given the high cost of fuel, our growing population, and the associated increase in energy needs, it is important to address energy use and future energy availability for the treatment of the water we drink and the water we pollute. Water & Wastewater Infrastructure: Energy Efficiency and Sustainability addresses these issues, detailing the processes that can assist facilities to become more energy efficient and providing guidance to ensure their sustainability.The text begins with brief descriptions of the water and wastewater treatment industries. It then describes some of the basics of energy and discusses what planning for a sustainable energy future in water and wastewater treatment plants entails. The author explores energy-saving options and provides case studies to demonstrate how some facilities have used equipment, technology, and operating strategies to save money and reduce their impact. The energy-efficient technologies include combined heat and power (CHP), gas turbines, microturbines, reciprocating engines, steam turbines, and fuel cells. The author also addresses biomass power and biogas.The section on sustainability and renewable energy covers hydropower, solar power, and wind power as well as energy conservation measures for treating wastewater. Nine appendices provide individual case studies that present evaluations of energy conservation measures, results, payback analysis, and conclusions. This book addresses the challenges faced by water and wastewater treatment facilities by examining how they can operate in ways that provide economic and environmental benefits, save money, reduce environmental impact, and lead to sustainability.

This volume covers computations and applied math problems used in wastewater treatment operations. It explains calculations for flow, velocity, and pumping; preliminary and primary treatments; trickling filtration; rotating biological contactors; and chemical dosage. It also addresses various aspects of biosolids in wastewater. The text presents math operations that progressively advance to higher, more practical applications, including math operations knowledge expected of operators at the highest level of licensure. Readers working through the book systematically will acquire a definitive understanding of performing applied water calculations that are essential for a successful career in the water industry.

Part of the "Fundamentals for the Water and Wastewater Main Operator" series, this title covers the basics of piping and valves in water and wastewater plants, including details on fittings, strainers, traps and control systems. It also covers how pipes are developed into systems and subsystems and coordinated into a plant-wide functioning unit.

Maintenance operators that can understand and properly use blueprints and schematics have little difficulty in correctly interpreting and using plant unit process drawings. This guide covers basic principles of blueprint reading and deals with principles and applications of schematics and symbols.

Covers fundamental, intermediate, and advanced wastewater treatment operations in individual volumes. This title offers coverage of emerging contaminants and their associated treatment processes and additional coverage of wastewater reuse/ sustainability.