piping
As a company that's been around for many years in the landscape and pool trades, we knew as we expanded our offerings to include fountain restoration, design and installation that experience and contacts would eventually lead to referrals. What's been unexpected given our past work with mainly residential clients is that fact that our fountain referrals have come in bunches as we work with developers and architects and get involved in
It's the nature of the game: One of the great sources of pride for any good watershaping business has to do with its ability to find solutions to difficult challenges - a new way to achieve something familiar when the established or conventional approach won't work, for example, or dealing with site constraints that repeatedly send you back to the drawing board. That's the sort of pride we had coming out of our work on the Arthur J. Will Memorial Fountain and its accompanying splash pad at Grand Park in Los Angeles, and it was intensified by the fact that this was the restoration of a 60-year-old fountain that had originally been built with an entirely different approach from anything we'd consider today - but whose physical constraints we couldn't
I'd hazard the guess that most experienced pool designers and builders have run into this scenario: The clients want a pool, and they also want a spa - but not just any spa will do. Through the years, these clients have been in the attached spas of friends' inground concrete pools, but this is not what they want. That's because they've also experienced portable spas and prefer their performance: superior jet action, diverse seating arrays and options, more features and
Of all the concepts of hydraulic-system design, there are few that have more importance than the correlation between water flow (that is, capacity expressed as gallons per minute) and line velocity (the speed at which the water travels). As water travels through a pipe, its increase in speed (that is, its line velocity) results in an increase in resistance (expressed as feet of head) and in a reduction of end pressure, which is measured in pounds per square inch (psi). In other words, an increase in friction losses and a drop in pressure is the result of increased water velocity at a given flow. If that makes sense to you without further explanation, then you know much of what you need to know when it comes to
