How Much Electricity Does It Take To Grow Marijuana? Colorado Cities Are Finding Out

Colorado’s appetite for lighting up requires a lot of lights, it turns out.Licensed marijuana growers traditionally cultivate their products indoors under very bright lights that suck a lot of electricity. With the release of the federal government’s Clean Power Plan looming, cities across the state are working to reduce their carbon footprint. Part of those efforts include persuading grows to reduce their power consumption.

Between 2012 and 2013, the latest data available, electricity use increased by 1.2 percent across the city and county of Denver. Commercial marijuana grows were responsible for nearly half of that uptick.

“We’re very keen to see what is increasing energy use, and to have half of that coming from the grow industry is definitely something we pay attention to,” said Sonrisa Lucero, a strategist for the Denver’s Office of Sustainability.

Denver marijuana grows used just 1.85 percent of the city’s overall electricity in 2013. But any uptick matters because the city set a voluntary goal to prevent total energy consumed from rising past its 2012 use levels. Lucero’s job is to make sure that energy efficiency is top of mind for new residents and businesses.

The city is working with marijuana grow operations to lower their electricity use. Or the industry may sort itself out: A growing number of outdoor and greenhouse grow operations in Colorado are emerging that could make indoor grows obsolete — or at least, less cost effective.

A $12,000 electricity bill

Colorado Harvest Company’s Flower Room No. 1 holds dozens of green plants thriving underneath 22 1,000-watt lamps.

(Nathaniel Minor/CPR News)

To understand just how much energy it takes to grow marijuana indoors, look no further than Colorado Harvest Company’s Flower Room No. 1.The room has dozens of green plants thriving underneath 22 1,000-watt lamps hanging from the ceiling. Each is the size of a small card table. An air-conditioning system prevents the lights from overheating.

“Running a cannabis company with indoor production means that you’re going to use more than your fair share of electricity,” said Tim Cullen, the company’s owner.

Cullen’s monthly electricity bill for the 10,000-square-foot warehouse runs a cool $12,000. Another marijuana grow reports spending nearly twice that amount. Cullen said he’s tried to reduce electricity use by using LED lights currently on the market, but they haven’t produced the results he needs.

“We just can’t suffer the losses of having a lower energy bill, but then not producing flowers,” he said.

Tim Cullen, the owner of the Colorado Harvest Company, stands in his grow facility in Denver on Wednesday, July 8, 2015.

(Nathaniel Minor/CPR News)

New LED technology under production could change this picture. But Cullen isn’t waiting for that to happen. Instead he’s building a greenhouse in Denver to commercially grow marijuana. From start to finish, the planning and construction is expected to take about six months.

Greenhouses blooming in Pueblo

Denver has about four commercial marijuana grow greenhouses. But Pueblo is leading the charge in the state, with 16 and counting. Some are small, but others cover as many as 50 acres.

Chris Markuson, director of economic development and GIS for Pueblo County, said shifting priorities are changing how and where marijuana is grown.

“At first the assumption was that the grow operations had to be tightly secured and hidden from public view,” he said. “Because the temperament of the community–and the society as a whole–has come around a little bit, the grow operations are not really seen with negative light. At least they’re not in Pueblo.”

It helps that Pueblo has marketed itself as a business-friendly lower-cost location to cultivate marijuana.

With about 30 marijuana grow businesses overall, Markuson said the majority are using “Pueblo sunshine” to grow product.

Energy use in the area is evolving with the industry. According to Black Hills Energy, which provides power to the city of Pueblo and parts of Pueblo County, 10 grow facilities used 2.1 million kWh in 2014. That’s 0.1 percent of the energy that Black Hills delivered to its Pueblo coverage area.

Laying the groundwork

As the marijuana industry evolves, Colorado cities are deciding how–or if–they want to manage the growing energy demands from the industry.

Denver isn’t considering regulations for the marijuana industry, but pushing LED lights to grows. In Boulder, the city and county are setting measures to require businesses offset their electricity use via subscription of renewable energy credits — things like community solar garden memberships.

Xcel is reportedly working with marijuana growers to update lighting so they’re as energy efficient as possible.

The attempts by utilities and cities fit into a larger movement under way right now, said Howard Geller with Boulder-based Southwest Energy Efficiency Project.

“We can have that economic growth without electricity use increasing,” he said. “That’s going to be beneficial economically and that will help us achieve our environmental goals.”

Denver and Boulder’s work with marijuana and other businesses could be a good warm-up lap for what’s to come. The Clean Power Plan rule, expected to be finalized later this summer, will put even more pressure on states to reduce carbon emissions. Some of that reduction will come from changing where our power comes from. But Geller expects another significant portion to come from things like switching out the lightbulbs.

“Energy efficiency is a strategy that can be implemented very quickly in terms of ramping up rebate and financing programs, education efforts,” said Geller. “Whereas building new power plants–or retrofitting old power plants–that kind of initiative will take years to implement.”

This article was originally published on July 10 2015 by BY GRACE HOOD of Colorado Public Radio

OSRAM Positioned To Be The Leading Horticultural Solutions Provider

Osram, the semiconductor manufacturer, sees horticultural lighting as a big part of their future. Will we see more acquisitions like this soon?

Osram, the semiconductor manufacturer, sees horticultural lighting as a big part of their future. Will we see more acquisitions like this soon?

Merging Semiconductors With Horticultural Applications

Back in May, Osram, a semiconductor manufacturer that specializes in lighting acquired Fluence Bioengineering, a company that specializes in LED grow lights. Fluence started in 2013 and is now up to around 100 employees and made somewhere in the double-digit millions in sales last year. Fluence was already using Osram’s LED chips in their lighting systems, so the acquisition will allow the two companies to have more collaboration on new designs. Osram will be positioned to gain a significant foothold in what they believe will be the biggest market for smart lighting applications.

“Fluence is opening the floodgates to a huge future market… Its extensive knowledge of the horticulture market and possible applications, combined with Osram’s expertise in lighting technologies, sensors and connectivity, will position us as a leading horticultural solutions provider.  -Stefan Kampmann, CTO of Osram


A Facility Using Osram’s Lighting Systems

Vertical Farming And The Future Of Agriculture

Osram cites increasing population and urbanization as the driving factors that will change the landscape of agriculture, creating a need for more efficient farming growing methods that minimize space. Osram also thinks that moving to large-scale urban grow facilities will cut down on the waste and pollution that stems from our current agricultural logistics system. According to their press release, 40 percent of food is spoiled between the producer and the supermarkets it arrives at. Having more farms in urban areas can reduce spoilage attributed to long transport distances. They also hope to cut down on the use of pesticides, fertilizers, and excessive water consumption by keeping plants in a controlled environment.

Furthermore, Osram says that incorporating Fluence’s LED solutions can help growers increase their harvests by 25 percent while reducing energy consumption by up to 50 percent. Considering that indoor cannabis grow facilities alone consume more than 1 percent of the energy in the United States, efficiency will be crucial for the advancement of the urban indoor grow facilities. Osram thinks that the key to such high efficiency is automation, specifically, their IoT platform called Lightelligence, which analyzes sensor data with an algorithm to suggest methods of increasing efficiency. This data can be saved into templates for the optimal growth of certain plants. In the future, Osram hopes to use artificial intelligence to completely automate the growing process.

“In the future, self-learning software algorithms will create and optimize digital plant models in order to cultivate tailor-made salads and herbs for platform partners such as supermarkets, online grocery shops and pharmaceutical companies,” -Stefan Kampmann, CTO of Osram

What Does A Smart Cannabis Grow Facility Look Like?

Although Osram glided over the topic of cannabis in their release, they did reference “medicinal plants” as a market they’re expanding into. Until cannabis is legalized federally, semiconductor companies like Osram will be vague about it to preserve their public perception. After all, if Texas Instruments acquired a company like Fluence, they wouldn’t say “we want to get into the cannabis market and get some of that dank money.”

It is quite obvious that Lightelligence is suited for a high maintenance plant like cannabis. The level of sophistication in automated grow facilities is impressive already, in fact, some facilities, like the one in the video below, can be controlled completely using just a smartphone. Osram hopes to take that even further with Lightelligence.



Osram’s Horticultural LED Development Kit

If Osram’s market predictions prove to be accurate, the time to look into upgrades is now. Osram and partners released their Horticultural LED Development Kit, which is a four-channel, solid-state lighting design that allows developers to mix light in various combinations. The reference design uses simple knobs to adjust the output of light. You can find details about the developer kit below:


This article was originally published via by 

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