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1 �l i] 15 1 ground. The only thing that would be above ground that you 2 Mould see as a home owner would be the electrical disconnect 3 switches, of course, which are there for safety, and then 4 also the electric meter. And that I think is a key 5 consideration for this. 6 "T. SrrTRLC('K: ?'on, why eon't you maybe give a 7 little hit of background on why this particular design, the 8 existing situation. It wasn't like if we were beginning ? from scratch that we wotj ld go to this particular concept. Could you fill in the audience a little bit on why we choose �. this approach. '• h`R. MTTYVSCAARP,: When you are talking about sewer design, there's what they call the conventional system, which probably most of you are all aware of, which are gravity sewers. Basically you're running out of your homes and down through a gravity drain into a central system that's, say, located out in the street or in the backyard easements. It falls down to probably a depth of around 14, 15 feet usually in South Florida due to the high ground water table. About at that point, it becomes not cost effective to continue with a gravity type slope and you put in some type of lift station. Either you lift it up and you start the process all over again or you Qo into a force main system where, under pressure, you Pump it all the way to a treatment plant. We'll call that the typical system that is ZAM13A.TARO & A SSCC TATF_:S A Computer Assisted Transcript (305)569-0910 11 1' ' 1 1; ' l: i] 15 1 ground. The only thing that would be above ground that you 2 Mould see as a home owner would be the electrical disconnect 3 switches, of course, which are there for safety, and then 4 also the electric meter. And that I think is a key 5 consideration for this. 6 "T. SrrTRLC('K: ?'on, why eon't you maybe give a 7 little hit of background on why this particular design, the 8 existing situation. It wasn't like if we were beginning ? from scratch that we wotj ld go to this particular concept. Could you fill in the audience a little bit on why we choose �. this approach. '• h`R. MTTYVSCAARP,: When you are talking about sewer design, there's what they call the conventional system, which probably most of you are all aware of, which are gravity sewers. Basically you're running out of your homes and down through a gravity drain into a central system that's, say, located out in the street or in the backyard easements. It falls down to probably a depth of around 14, 15 feet usually in South Florida due to the high ground water table. About at that point, it becomes not cost effective to continue with a gravity type slope and you put in some type of lift station. Either you lift it up and you start the process all over again or you Qo into a force main system where, under pressure, you Pump it all the way to a treatment plant. We'll call that the typical system that is ZAM13A.TARO & A SSCC TATF_:S A Computer Assisted Transcript (305)569-0910 11 1� ' lE 17 ' 23 is i] 15 1 ground. The only thing that would be above ground that you 2 Mould see as a home owner would be the electrical disconnect 3 switches, of course, which are there for safety, and then 4 also the electric meter. And that I think is a key 5 consideration for this. 6 "T. SrrTRLC('K: ?'on, why eon't you maybe give a 7 little hit of background on why this particular design, the 8 existing situation. It wasn't like if we were beginning ? from scratch that we wotj ld go to this particular concept. Could you fill in the audience a little bit on why we choose �. this approach. '• h`R. MTTYVSCAARP,: When you are talking about sewer design, there's what they call the conventional system, which probably most of you are all aware of, which are gravity sewers. Basically you're running out of your homes and down through a gravity drain into a central system that's, say, located out in the street or in the backyard easements. It falls down to probably a depth of around 14, 15 feet usually in South Florida due to the high ground water table. About at that point, it becomes not cost effective to continue with a gravity type slope and you put in some type of lift station. Either you lift it up and you start the process all over again or you Qo into a force main system where, under pressure, you Pump it all the way to a treatment plant. We'll call that the typical system that is ZAM13A.TARO & A SSCC TATF_:S A Computer Assisted Transcript (305)569-0910 19 20 ' 21 22 ' 23 24 25 i] 15 1 ground. The only thing that would be above ground that you 2 Mould see as a home owner would be the electrical disconnect 3 switches, of course, which are there for safety, and then 4 also the electric meter. And that I think is a key 5 consideration for this. 6 "T. SrrTRLC('K: ?'on, why eon't you maybe give a 7 little hit of background on why this particular design, the 8 existing situation. It wasn't like if we were beginning ? from scratch that we wotj ld go to this particular concept. Could you fill in the audience a little bit on why we choose �. this approach. '• h`R. MTTYVSCAARP,: When you are talking about sewer design, there's what they call the conventional system, which probably most of you are all aware of, which are gravity sewers. Basically you're running out of your homes and down through a gravity drain into a central system that's, say, located out in the street or in the backyard easements. It falls down to probably a depth of around 14, 15 feet usually in South Florida due to the high ground water table. About at that point, it becomes not cost effective to continue with a gravity type slope and you put in some type of lift station. Either you lift it up and you start the process all over again or you Qo into a force main system where, under pressure, you Pump it all the way to a treatment plant. We'll call that the typical system that is ZAM13A.TARO & A SSCC TATF_:S A Computer Assisted Transcript (305)569-0910