Why more and more engineering firms are using drones


Drones are everywhere. Look up when you’re walking in a park, or sitting on a beach, and you might catch one buzzing about. Commercially-available drones can fly up to 100 miles per hour. And ready or not, they’re going to be delivering packages to your doorstep very soon. They already can deliver pizza. This technology can be traced back to 1907 when the first quadcopter was created by inventor brothers Jacques and Louis Bréguet. However, it couldn’t be steered, only lifted two feet off the ground and needed to be steadied by four people. We’ve come a long way. Commercial drones hit the market in 2006 but at first very few permits were requested. One likely reason is that drone rules from the FAA were ambiguous and drone operation was expensive: companies were required to hire a licensed pilot to fly an unmanned aerial vehicle. New guidelines for small commercial drones went into effect in 2016, and there are now more than one million drones registered with the FAA, including 122,000 for commercial use. Some newer commercial drones are no longer limited to following a GPS signal and can also now track the movement of people, animals, objects while avoiding obstacles. In the last five years, more and more engineering companies are using drone technology to be more efficient and accurate, collect better data faster, and save money. https://youtu.be/SVWxQyNFmUU Some say construction is slow to adapt to technology. In fact, most construction and engineering firms wait for competitors to adopt new technology before they do. But the rate of new technologies being developed is increasing rapidly and is changing everything. Construction companies are using drones for tasks including 3D mapping and job site rendering, monitoring job site progress and tracking materials, and streamlining inspections and keeping sites safe. For civil and structural engineering, in addition to 3D mapping, drones are a useful tool for documenting a project site before, during and after construction. Structural engineers can use drones to inspect structures such as building faces that are not accessible. Drones have been embraced by companies ranging from startups to the giants, and some would say they are now essential to construction. The use of drones isn’t limited to just construction sites -- they’re also used for scanning pipelines to improve operations and reduce safety risks; making surveying safer and more accurate; or even to take aerial photos of a prospective job site before a bid.    While learning to use a drone is simple, the technology isn’t for every company. Along with the associated cost and training, drone mapping can also be technically difficult. In the coming year, drone use for the construction industry is expected to grow. At the same time, privacy concerns about drones are growing. The future of drones is very much up in the air, as countries around the world come together to figure out how this technology should be regulated. Has your company started using drone technology? Let us know what you are using drones for and any benefits and/or challenges.  

Silicon Valley Construction: What’s tech got to do with It?

Silicon Valley Construction: Google's Plan The technology sector and Silicon Valley construction have always had a symbiotic relationship. The agreement between companies such as Google and Bay Area development has usually been good, for the most part. Since the time of Steve Jobs in his garage working to develop the Apple computer, to the hardware revolution that gave the Valley its name, technology has attracted the best, and the brightest to this part of California, and construction usually followed. Read more

Civil Engineering: Rethinking Water Projects

Folsom Dam USACE 2004 By Sonia Easaw with Kamal Obeid, PE, S.E. Water storage on a municipal scale in the West used to involve building dams and reservoirs such as the Folsom Dam, which would gush with water from the melting snow of the Sierra Nevada mountains. Now the snowpack is at its lowest measured record, and the water levels of the reservoir may run so low this year that pumps will have to be installed to push water through the dam. Unfortunately, these warming conditions are likely to continue. In response to the “new normal” of drought conditions, the community of civil engineers and local jurisdictions must take a sustainable approach and rethink infrastructure to deal with potential severe water shortages. With the drought looming overhead (and below), here are four examples of water projects throughout the Bay Area and California involving desalination, groundwater recharge, stormwater capture, and recycled water.


Carlsbad desalination plant2 Salt water from the San Francisco Bay has been seeping into the groundwater basins that serve the cities of Alameda County (cities of Fremont, Newark, and Union City). Back in 2003, the Alameda County Water District, or ACWD, built the small Newark Desalination Facility to treat the brackish water. The effort proved fruitful when the plant supplied much-needed water to areas of the County during the drought and saved the ACWD about $4 million dollars a year. The plant uses a reverse osmosis membrane filtration process that requires high-pressure pumps that consume a lot of energy and contribute to additional carbon consumption. The energy-intensive, and therefore, expensive desalination process has also been known to pose a threat to ecosystems--the brine byproduct of desalination (a highly concentrated saltwater solution) can be dangerous to sea life if not properly mixed back into the ocean. Supplying the County with clean water during drought periods was a resulting benefit of the small desalination plant but may not have been the primary reason for why it was built. There are some California jurisdictions, however, that have considered desalination treatment plants as a larger fix for water shortages. A one billion dollar desalination plant will be unveiled in Carlsbad, Calif. in 2016--what will be the largest one in the nation--and will supply San Diego County with seven percent of its water. However, desalination is considered more of last resort after other water conservation methods have been employed.

Groundwater Recharge

Groundwater flow How do you capture and store clean water on a massive scale in a sustainable way? There are many ways of capturing and storing fresh water for municipalities, such as increased stormwater capture, reservoir expansion, or groundwater recharge and storage. A practical alternative to desalination in California is expanding the water supply beneath our feet. This method of recharging groundwater has been found to be much cheaper than other water supply options and offers more local control. Groundwater levels have been declining across the state because of the drought but also because of overuse, and so recharge becomes especially important to replenish the water into the groundwater basins or aquifers. Groundwater recharge can also be a barrier to seawater intrusion and help restore local ecosystems. Some disadvantages to groundwater recharge include the financial costs to local communities though it is cheaper than surface storage or importing water. Also, natural recharge from rain and snow is not as readily available during times of drought, and so artificial recharge is the next option. But where will the water for artificial recharge come from, especially when the surface water from streams and rivers are not at peak-flow? Alternative water sources for groundwater recharge include treated wastewater, runoff from agricultural uses, and past stormwater capture. Alameda Creek in Niles Canyon 2626 Alameda County Water District (ACWD) considers recharge as a top priority for groundwater management. With the help of inflatable dams, water from the Alameda Creek is diverted into Quarry Lakes Regional Recreation Area for groundwater recharge. Rubber Dam No. 1 was installed back in 1971, and its fabric membrane was recently replaced this summer. The dam structure was upgraded to increase capacity (a project on which Landtech Consultants served as structural engineer of record).

Stormwater Capture

Tank Baustelle 2010 It may seem as if never rains in California, especially during drought years. But, stormwater is a good potential source of water that if captured and stored properly will be a valuable addition to water reserves. Los Angeles County adopted new rules in June 2015 for stormwater capture and reuse, which could serve as a model for the rest of the State. Though there is regulation monitoring the pollution of stormwater that flows into drains, the idea of capturing rainwater for reuse in California is a relatively new one. Rainwater harvesting supports a sustainable method of water management, and has been successful in other parts of the world such as Australia.

Recycled Water

Recycled water overflow from Aquacycle thickener (6324881971) Recharging groundwater and stormwater capture are necessary measures, but how about increasing water supply in the short term? Los Angeles County is considering additional water obtained through unconventional, though perhaps more sustainable, means. The County is talking with the Metropolitan Water District of Southern California (MWD) about a potential large recycled water programwhich would recycle treated sewage. If it succeeds, it would be one of the biggest programs of its kind. Frequently, treated sewage is flushed back into the Pacific Ocean, but reuse systems can transform the water for other uses such as agricultural irrigation, other irrigation, and fire suppression systems. The Santa Clara Water District already recycles water with the Silicon Valley Advanced Purification Center, the largest plant of its kind in Northern California. The facility receives treated water from a nearby wastewater treatment plant and further purifies the water with advanced techniques such as reverse osmosis, microfiltration, and ultraviolet disinfection. The result is eight million gallons of water. VIEW OF AMERICAN RIVER, SHOWING REMAINS OF OLD FOLSOM DAM, HEADGATES AND CANAL. NEW FOLSOM DAM IS IN THE BACKGROUND - Folsom Powerhouse, Adjacent to American River, HAER CAL,34-FOLSO.V,2-95 (CT) The Bureau of Reclamation, created in 1902, developed the network of the 20th-century water infrastructure of dams, reservoirs, and aqueducts in the West. However, as climate change becomes our new reality, the community of civil engineers and municipalities must rethink water networks for the warming 21st century. Recycling water and recharging groundwater are practical, sustainable, and cost-effective methods and allow for more local control of the water supply. As civil engineers learn new skills to adapt to changing water infrastructure, the entire community can work together to increase California’s future water supply.