The Williams & Davis Series 2000D is a classic 2-pass, dry-back horizontal firetube boiler that offers high efficiency, flexibility, reliability, safety and ease of operation. The Dryback design provides full access to boiler tubes, tube sheet, and furnace for ease of maintenance and includes single rear tube sheet construction, which reduces tube sheet stresses. Series 2000D provides high flue gas velocities and low stack temperatures to maximize its performance. All units are factory fire tested and shipped as an integrated package, ready for quick connection to utilities.
Atomac valves provide bubble-tight shutoff, low maintenance, no-leak stem seals and the safety assurance of a blowout-proof stem assembly. LIned ball valves deliver high levels of corrosion resistance.
The Reel Power OG Remote Connector is specifically designed to lower operating costs and improve safety for the high demands of hydraulic fracturing applications. It is mainly used in Frac Tree BOP Connection, Fits Standard Tree & BOP connections.
Visit: https://www.reelpowerog.com/loc-torus-ii-remote-hydraulic-frac-connector.html
In the Spring of 2007 Harry Baum made a presentation at the annual North American Society for Trenchless Technology convention, which was held in San Diego, California. Harry originally contacted Steve Wentworth about his concept--a process/tool to strip failed polyethylene liners from the inside of buried pipes.Steve and Harry perfected that concept and filed for patent protection on the tool. Harry then hired Fishel Co. as a sub-contractor to assist with the work.
Learn more about Western Pipeway at http://www.westernpipeway.com
Join Phil Taylor of Hydro International, for an informative introduction to their stormwater treatment solutions offered through Armtec! The presentation will introduce a range of treatment products, how they work, their application and regulatory status. There will be a particular focus on Oil Grit Separators (OGS), detailing sizing and installation configuration options, and maintenance.
What You'll Learn
Stormwater treatment products and their application
Pollutants that are best addressed by each treatment system
Influence of sizing methods on separators
A greater understanding of the OGS (Oil Grit Separator) industry
Some stuff you did not know, you did not know…
V CONE FLOW METERS
V-Cone Flow Meter is an advanced differential pressure instrument, which is ideal for use with liquid, steam or gas media in rugged conditions where accuracy, low maintenance and cost are important. The V-Cone is designed for today’s most challenging oil / gas production, chemical, food & beverage, plastics, pharmaceuticals, district HVAC, textile, power and water & wastewater applications. It combines exceptional performance, low maintenance and long life for superior value.
FEATURES
Line Size Range: 0.5” to 120” or larger
Accuracy: +/- 0.5% Repeatability: +/- 0.1%
No moving parts
Patented Differential Pressure Flow Meter Technology
Does not require long lengthsof straight pipe before and after meter
Remote monitoring
International Manufacturing Standards
ATEX variants available
Useful in tight-fit and retrofit installations.
Applications
V cone meters have no moving parts and their unique design enables the meter to work perfectly even when the measuring media has particulates such as Sand and dust. The patented cone design gives the V cone the ability to work with short lengths of pipes in front and after meter.
Helium Custody transfer
Compressor monitoring
Replacing turbine meters in Alcohol/Spirits manufacturing
Flow measurement of Saturated Steam in a continuous process (Power/Chemical sector).
Natural Gas measurement
Maintenance free operation of Raw water wells.
Dosing pump for water treatment
As a senior sourcing expert on water treatment facilities and accessories, our procurement covers a comprehensive range of water treatment facilities and components, mainly including FRP water tanks, membrane housings, membrane elements, cartridges, security filters, metering pumps, etc. These products are widely used in drinking water, commercial water, municipal, medical, food and other fields.
We integrate upstream supply chain products of the water treatment industry. In addition, we work with renowned suppliers and manufacturers. As a result, we can continuously supply high-quality water treatment components and systems for customers across the world to meet the needs of a wide range of applications, thereby optimizing water resources and promoting the sustainable development of the global environment.
If you are looking for water treatment facilities and accessories. Please contact
E-mail: jon@membranehousing.org
Mobile: +86-15633187985 (WhatsApp, WeChat)
View our building pocket guide to gather more information on colours and sizes for our rainwater systems, soil & waste systems and underground systems.
Stop valve (SVA) is very efficient and cost effective product. are having comprehensive range of stop valves which is used in various applications from household to industrial purposes.
Rupture Disc Products For Industrial Process SafetyCTi Controltech
Built on years of research and development, the HPX® and SANITRX HPX® Rupture Discs (bursting discs) are high precision pressure relieving devices that protect personnel, equipment and the environment. The versatility of the HPX® product family offers pressure protection for a wide range of applications in many processing industries, including: chemical, oil and gas, food, beverage, pharmaceutical, biotech, pulp and paper, power and more.
Groth Corporation's Pressure/Vacuum Relief Valves, Pressure Relief Valves, Vacuum Relief Valves, Pilot Operated Valves, Flame and Detonation Arresters, Emergency Relief Valves, Waste Gas Burners, Pressure Regulators and more have been protecting refineries, chemical processing plants and facilities with atmospheric, fixed-roof storage tanks for more than 50 years.
The Williams & Davis Series 2000D is a classic 2-pass, dry-back horizontal firetube boiler that offers high efficiency, flexibility, reliability, safety and ease of operation. The Dryback design provides full access to boiler tubes, tube sheet, and furnace for ease of maintenance and includes single rear tube sheet construction, which reduces tube sheet stresses. Series 2000D provides high flue gas velocities and low stack temperatures to maximize its performance. All units are factory fire tested and shipped as an integrated package, ready for quick connection to utilities.
Atomac valves provide bubble-tight shutoff, low maintenance, no-leak stem seals and the safety assurance of a blowout-proof stem assembly. LIned ball valves deliver high levels of corrosion resistance.
The Reel Power OG Remote Connector is specifically designed to lower operating costs and improve safety for the high demands of hydraulic fracturing applications. It is mainly used in Frac Tree BOP Connection, Fits Standard Tree & BOP connections.
Visit: https://www.reelpowerog.com/loc-torus-ii-remote-hydraulic-frac-connector.html
In the Spring of 2007 Harry Baum made a presentation at the annual North American Society for Trenchless Technology convention, which was held in San Diego, California. Harry originally contacted Steve Wentworth about his concept--a process/tool to strip failed polyethylene liners from the inside of buried pipes.Steve and Harry perfected that concept and filed for patent protection on the tool. Harry then hired Fishel Co. as a sub-contractor to assist with the work.
Learn more about Western Pipeway at http://www.westernpipeway.com
Join Phil Taylor of Hydro International, for an informative introduction to their stormwater treatment solutions offered through Armtec! The presentation will introduce a range of treatment products, how they work, their application and regulatory status. There will be a particular focus on Oil Grit Separators (OGS), detailing sizing and installation configuration options, and maintenance.
What You'll Learn
Stormwater treatment products and their application
Pollutants that are best addressed by each treatment system
Influence of sizing methods on separators
A greater understanding of the OGS (Oil Grit Separator) industry
Some stuff you did not know, you did not know…
V CONE FLOW METERS
V-Cone Flow Meter is an advanced differential pressure instrument, which is ideal for use with liquid, steam or gas media in rugged conditions where accuracy, low maintenance and cost are important. The V-Cone is designed for today’s most challenging oil / gas production, chemical, food & beverage, plastics, pharmaceuticals, district HVAC, textile, power and water & wastewater applications. It combines exceptional performance, low maintenance and long life for superior value.
FEATURES
Line Size Range: 0.5” to 120” or larger
Accuracy: +/- 0.5% Repeatability: +/- 0.1%
No moving parts
Patented Differential Pressure Flow Meter Technology
Does not require long lengthsof straight pipe before and after meter
Remote monitoring
International Manufacturing Standards
ATEX variants available
Useful in tight-fit and retrofit installations.
Applications
V cone meters have no moving parts and their unique design enables the meter to work perfectly even when the measuring media has particulates such as Sand and dust. The patented cone design gives the V cone the ability to work with short lengths of pipes in front and after meter.
Helium Custody transfer
Compressor monitoring
Replacing turbine meters in Alcohol/Spirits manufacturing
Flow measurement of Saturated Steam in a continuous process (Power/Chemical sector).
Natural Gas measurement
Maintenance free operation of Raw water wells.
Dosing pump for water treatment
As a senior sourcing expert on water treatment facilities and accessories, our procurement covers a comprehensive range of water treatment facilities and components, mainly including FRP water tanks, membrane housings, membrane elements, cartridges, security filters, metering pumps, etc. These products are widely used in drinking water, commercial water, municipal, medical, food and other fields.
We integrate upstream supply chain products of the water treatment industry. In addition, we work with renowned suppliers and manufacturers. As a result, we can continuously supply high-quality water treatment components and systems for customers across the world to meet the needs of a wide range of applications, thereby optimizing water resources and promoting the sustainable development of the global environment.
If you are looking for water treatment facilities and accessories. Please contact
E-mail: jon@membranehousing.org
Mobile: +86-15633187985 (WhatsApp, WeChat)
View our building pocket guide to gather more information on colours and sizes for our rainwater systems, soil & waste systems and underground systems.
Stop valve (SVA) is very efficient and cost effective product. are having comprehensive range of stop valves which is used in various applications from household to industrial purposes.
Rupture Disc Products For Industrial Process SafetyCTi Controltech
Built on years of research and development, the HPX® and SANITRX HPX® Rupture Discs (bursting discs) are high precision pressure relieving devices that protect personnel, equipment and the environment. The versatility of the HPX® product family offers pressure protection for a wide range of applications in many processing industries, including: chemical, oil and gas, food, beverage, pharmaceutical, biotech, pulp and paper, power and more.
Groth Corporation's Pressure/Vacuum Relief Valves, Pressure Relief Valves, Vacuum Relief Valves, Pilot Operated Valves, Flame and Detonation Arresters, Emergency Relief Valves, Waste Gas Burners, Pressure Regulators and more have been protecting refineries, chemical processing plants and facilities with atmospheric, fixed-roof storage tanks for more than 50 years.
Ecosystem Service Benefits of Filtrexx Compost-Based Sustainable Management Practices (SMP's). A research summary of how the Living Wall systems of Filtrexx positively impact atmospheric carbon as they perform traditional structural functions.
The Trinity® LivingWall™ system allows for the stabilization of walls and slopes with variable inclinations between 45 degrees and 80 degrees using the Commercial System, and 70 degrees using the Landscape System. The system’s galvanized wire facing elements allow for mechanical connection and reinforcement while providing structure and containment of Filtrexx® GrowingMedia™. Through the use of our GroSoxx®, the Trinity LivingWall system provides superior soil retention and erosion protection while providing an optimum environment for vegetation establishment. View all of our information at http://www.filtrexx.com/livingwalls/
Part of our webinar series that offers a closer look at specific Living Wall Systems from Filtrexx International. This presentation dives into the GreenLoxx system in both its MSE and Non-MSE versions. Customers get the most cost efficient structure in the retaining wall industry, as well as the most environmental service from their structures and grade changes.
Designed for walls up to five feet high, EnviroBloxx is a radically unique, light-weight LivingWall system that brings a new level of ease and efficiency to DIY homeowners and professional landscapers. Cast from 100% recycled plastic, each unit covers one square foot and weighs only three pounds. This versatile system features:
Built in receptors for mechanical strap reinforcement
GardenSoxx® for quick, easy media placement
Optional side rail accessory for use with loose media
Drip irrigation is easily installed to ensure plant establishment
View Installation Guide
Vertical Living Walls & Fences The ELT EasyGreen LivingWall System and our Green Living Fence add unique, dramatic vertical greenery to your interior or exterior wall. Both systems utilize pre-grown panels for instant results! ELT EasyGreen and our Green Living Fences add unique, dramatic vertical greenery to your interior or exterior wall. Use it to enliven a small space, or use it on a massive scale. See all of our Filtrexx living wall systems at http://www.filtrexx.com/livingwalls/
You are a systems engineer assigned to a project that is developing .pdffasttracktreding
You are a systems engineer assigned to a project that is developing a valve control architecture
for a water treatment plant. Your group will integrate a software module into a feedback software
program that provides a rate per minute of treated (clean) water coming from the last filtration
step. Use this picture as a guide in Systems Engineering, such as Preliminary System Design,
Detailed Design, System Test, Evaluation and Validation, System Analysis and Design
Evaluation, Optimization,and any internet source to complete this assignment. Use can use any
of these above to analyze this system.
Solution
Automation of water treatment plants improves operation efficiency and effluent quality.
Supervisory Control And Data Acquisition (SCADA) is an automated system consisting of both
software and hardware, that source and control data from a remote site. It is an affordable tool,
which can be customised to place control and information technology within the reach of smaller
public and private facilities.
The operators of Oahu, a wastewater treatment plant in Hawaii, remotely monitor and control 65
wastewater-pumping stations and 12 wastewater treatment facilities spread over 600 square
miles. Functions being performed in this SCADA system include lead-lag pump control. The
automation process used consists of PC-based Human Machine Interface (HMI)/SCADA system.
This software technology implementation consists of three key steps:
In this article we discuss the software architecture used in automation of water treatment plants.
Software architecture
The software architecture of SCADA system software refers to the internal design of the system.
The utilisation of equipment-based architecture controls labour costs related to the software
system development, startup and maintenance. A user of equipment-based software connects
equipments to develop applications. An alternate equipment can operate a run/standby pump
system by configuring the equipment by naming parameters such as number of pumps in the
system and run time for each pump.
Based on the water level in water tower, valves or pumps are automatically operated using an
equipment -based on/off process controller. A Proportional-Integral-Derivative (PID) algorithm
provides loop-controlled operation of variable-speed chemical feed pumps. It uses an input value
and a set point value to automatically maintain process within set limits. Multiple objects are
interconnected to build up more complex applications.
Ethernet is a Local Area Network (LAN) protocol that uses a bus or star topology and supports
data transfer rates. Ethernet collects information and connects different hardware and software
sections, and can be used for treatment applications in water and wastewater plant. Ethernet-
based hardware is being used extensively since it is comparatively simple to integrate software,
which uses Transfer Control Protocol/Internet Protocol (TCP/IP)-based network. Ethernet shares
technology to reduce int.
Great tool provides insight into key considerations when determining whether sliplining or rehabilitating an existing culvert, bridge or storm sewer would be ideal.
Rain Soft Gold Series Water Treatment System Installation & Service Manual (w...miscott57
I have a Rain Soft Gold Series Water Softener that we bought approx. 2008. I contacted Rain Soft this year (2021) and told them that I needed a copy of the Gold Series ADVANCED SETTINGS instructions, because there are no longer any RainSoft technicians in my region of the US. This is what they sent me. For everyone wanting access to the Advanced Settings instructions for your RainSoft Gold Series Water Softener, they are contained within this RainSoft Technicians/Installers Service Manual. You can view, and download it here. I guess they decided it's no longer a company secret. Finally....
Sewer appurtenances are those structures and devices of a sewerage system which are constructed at suitable intervals along a sewer line to assist in the efficient operation and maintenance of the system. Following are the important sewer appurtenances: 1. Inlets 2. Catch Basins or Catch Pits 3. Clean-Outs 4.
sewer appurtenances ppt
sewer appurtenances and their details
types of appurtenances
appurtenances definition construction
appurtenances in construction
sewerage appurtenance
pipeline appurtenances definition
building appurtenances
sewerage appurtenance
sewer appurtenances and their details
appurtenances in construction
building appurtenances
appurtenances definition construction
types of appurtenances
pipeline appurtenances definition
An overview of the SmartSlope and EnviroBloxx Living Retaining Wall Systems of Filtrexx International. Both systems are block type wall systems for building structural walls that are designed to be planted within each facing block in order to completely grow over the finished wall with healthy plants for greening, reduction of urban heat island, LEED points, habitat creation, carbon sequestration and runoff water detention/treatment. View all of our information at http://www.filtrexx.com/livingwalls/
The "on paper" plant list and plant species location map for the Boschert Greenway Living Retaining Wall. A great example of the steps we take and how we deliver successful Living Walls. Visit our website for more information at http://www.thelivingwallco.com .
This slideshow details the early life of a SmartSlope Living Retaining Wall project in Baltimore, MD and its plant grow-in progress since initial planting. The planting plan on the first page shows the plant species, location and number. The remainder of the slideshow details the plant health and progress over a number of maintenance visits during its first season of growth. http://www.thelivingwallco.com
Dramatic "before and after" representation of a SmartSlope Living Retaining Wall in a residential application. This two shot comparison in the same wall at planting and again at 15 months of growth - wow! Why look at concrete blocks when you can create habitat and green-space with a SmartSlope System?
One page "before and after" project review of a residential landscape application, completed by Ciminelli Landscape Services utilizing SmartSlope Modules.
SmartSlope announces their first project in the St. Louis region with its participation on the construction of the new Boschert Greenway Bike and Pedestrian Trails.
A short presentation of the benefits of "living retaining walls" and the unique features of the Smartslope Living Retaining Wall System. http://www.thelivingwallco.com
The case for living retaining walls and their movement from niche to mainstreamGreenwall Ventures, LLC
A picture filled, very visual presentation of the difference between hardscape type retaining walls and plantable retaining walls. A new product offering in the plantable wall market, referred to as the Living Retaining Wall that has the potential to move the niche into the mainstream is demonstrated and explained.
The case for living retaining walls and their movement from niche to mainstream
SmartSlope Irrigation Description
1. Smart Slope Retaining Wall System
Drip Irrigation Tubing Installation Directive
In order to produce a healthy living wall ecosystem, Smart Slope is specifying a drip irrigation system
for its modular wall system. Below is a short description of the system and how it must be installed
to meet Smart Slope protocol. This is not meant to be an all-inclusive document. Smart Slope
installers shall refer to design details, project-specific plan set, and project specifications for
additional information.
Smart Slope installer shall be responsible for the installation of the drip tubing within the wall
structure. Because of the method of installation utilized for the Smart Slope modules, the drip tubing
shall be installed while each course of the wall is constructed.
As each course of the Smart Slope wall is set in place and has been backfilled, the installer shall lay
the drip tubing in the receptor that is engineered into each Smart Slope Module. The installer must
be careful that the tubing does not bow up or become dislodged from the receptor, as it can become
pinched when the next course of the wall is added. The installer shall not use any couplers on the
drip tubing within the wall structure. In the location where the drip irrigation header pipe is indicated
on the plan set, the wall installer shall leave an additional 12” of drip tubing stubbed out to the front or
side of the wall. Each stub shall be taped off to prohibit debris from entering the tubing. This
process shall repeat for every course of the wall.
Because of the limitations of the drip tubing length for its effective operation, each row of the drip
tubing cannot exceed 600 feet. This may result in longer walls having multiple header pipes to
account for their length. For example, a 1,200’ wall would have a PVC or PE header in the center on
the face of the wall feeding 600’ drip tubing runs in each direction. If the wall were 2,400’ in length, it
would need to be divided in half and two headers positioned on the wall face at 600’ from each end.
Refer to the Smart Slope drip irrigation design details for schematic layout.
In situations where the Smart Slope installer must ‘field engineer’ the quantity of drip tubing that can
be operated at one time, the flow rate for each linear foot of tubing will be 0.26 gallons per hour
(based on the specified tubing that has emitters spaced every 12” and a flow rate of 0.26 GPH per
emitter). Using this data, a 600 foot-long run of drip tubing would require a flow rate of 2.6 gallons
per minute. A 1,200 foot wall that is 12 courses of modules high would have a total flow rate of 62.4
GPM. Installers should consult with the irrigation installer to confirm design flow rate in order to
properly group drip tubing runs so as not to exceed irrigation system flow capacities.
Irrigation installer shall utilize an irrigation system master valve and flow sensor to protect property
from damage due to potential irrigation system leaks. The irrigation control system used on the
project shall allow the flow rate to be monitored at any given time, and have the ability to close the
master valve when the irrigation system is not active, and also in the event that the controller
recognizes a flow rate that is inconsistent with that which was assigned to the irrigation system
and/or specific zone. It is the responsibility of the owner’s representative and Smart Slope wall
installer to communicate this information with the irrigation installer. At the very minimum, Smart
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3430 2 Street, Suite 300 | Brooklyn, Maryland 21225 | Phone: (443) 874-7465 | Fax: (443) 874-7466 |
www.smartslope.com
2. Slope requires a master valve and flow sensor to monitor any control valves that service the wall
systems.
Winterization of drip tubing within Smart Slope wall structure shall be performed by irrigation
maintenance personnel at the close of the irrigating season, and prior to continued freezing
conditions (typically late October-November). Refer to manufacturer’s instructions for proper
winterization guidelines using a low pressure compressed air process typical of the irrigation
industry.
During spring start up, irrigation maintenance personnel shall follow manufacturer’s guidelines and
processes of slow recharge of drip tubing to reduce the possibility of damage to tubing, fittings, and
all other irrigation system components. The first start up and winterization shall be included in the
bid cost of the irrigation system. Wall installer shall be present at these events and make any
necessary repairs to the drip tubing within the wall structure.
Wall installer shall warranty the materials and installation of the drip tubing for a period of one (1)
year following approval of substantial (80% or greater) wall system completion. Wall installer shall
be responsible for any repairs of defective material and/or installation during this time period.
Below is the information for the drip tubing that is specified by Smart Slope for use in the living wall
module systems. Any deviation from this may void the warranty of the Smart Slope Living Wall
Module and could result in the compromise of the wall structure:
TECHLINE® CV CONTINUOUS SELF-CLEANING, PRESSURE COMPENSATING DRIPPERLINE
WITH BUILT-IN CHECK VALVE
Description
Techline® CV is low volume dripperline with integral and evenly spaced pressure compensating,
check valve drippers welded to the inside of the tubing at specified intervals. Techline CV is
available with drippers in four discharge rates (0.26, 0.4, 0.6, and 0.9 gallons per hour [GPH]) evenly
spaced at 12”, 18”, or 24” centers. Techline CV is available in 100’, 250’, and 1,000’ coils. Techline
CV Blank Tubing is available in 100’, 250’, and 1,000’ coils.
Construction
Techline CV shall consist of 17mm, nominal sized one-half inch (½”) low-density linear polyethylene
tubing with pressure compensating, continuously self-cleaning, integral drippers with internal check
valve at a specified spacing, (12”, 18”, or 24” centers) or blank tubing without drippers. The tubing
shall be brown in color and conform to an outside diameter (O.D.) of 0.66 inches and an inside
diameter (I.D.) of 0.56 inches. Individual pressure compensating drippers shall be welded to the
inside wall of the tubing as an integral part of the tubing assembly. These drippers shall be
constructed of a 2-piece plastic dripper housing containing a continuously self-flushing silicone
diaphragm capable of flushing any dirt or debris that may enter the dripper, extending the full length
of the dripper. The dripper shall have a built-in check valve that will hold the pressure exerted by a
4½’ column of water (2 psi) to ensure that tubing will not drain water on zone shutdown, or allow
outside contaminants to enter the dripperline through reverse siphonage. The dripper shall have its
water inlet located in the center of the tubing to ensure it draws water from the center of the water
stream thereby ensuring the dripper is always drawing water from the cleanest part of the stream of
water flowing through the tubing. The dripper shall also have a built-in physical root barrier whereby
the water shall exit the dripper from one location and shall exit the tubing from a second location.
This physical barrier shall create an air gap inside the tubing.
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3430 2 Street, Suite 300 | Brooklyn, Maryland 21225 | Phone: (443) 874-7465 | Fax: (443) 874-7466 |
www.smartslope.com
3. Operation
Each dripper shall have the ability to independently regulate discharge rates, with an inlet pressure of
fourteen point seven to seventy (14.7 - 70) pounds per square inch (psi), at a constant flow and with
a manufacturer’s coefficient of variability (Cv) of 0.03 or less. Recommended operating pressure
shall be between 20 - 50 psi. The dripper discharge rate shall be 0.26 gallons per hour (GPH)
utilizing a combination turbulent flow/reduced pressure compensation cell mechanism and a
diaphragm. The drippers shall be capable of continuously cleaning themselves while in operation.
The dripperline shall be available with 12” spacing between drippers unless otherwise specified. For
subsurface installation, Techline CV pipe depth shall be installed in the Smart Slope Living Wall
module as indicated on the detail drawings unless otherwise specified. Maximum system pressure
shall be 50 psi. Filtration shall be 120 mesh or finer. Bending radius shall be 7”.
Drip tubing to be supplied by Smart Slope when modules, reinforcement and other accessories are
delivered.
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3430 2 Street, Suite 300 | Brooklyn, Maryland 21225 | Phone: (443) 874-7465 | Fax: (443) 874-7466 |
www.smartslope.com