Controlled Environment Agriculture
Walter Stark Consulting
Today’s Controlled Environment Agriculture (CEA), comprised of indoor plant cultivation for food and drug products, demands advanced climate solutions that optimize HVAC and dehumidification operations for reduced energy consumption and maximum crop yields.
At Walter Stark Consulting, we work with cultivators to create optimum climate-controlled conditions that support strong crops in indoor farms and cannabis grow facilities.
Our proven indoor agriculture and cannabis cultivation track record began with our first CEA facility project in 2014. Since then, all our projects reflect our ability to effectively leverage each cultivator’s “unique recipe” and critical metrics, ranging from irrigation rates to lighting watts. Our goal is to deliver high performance, customized dehumidification solutions.
- Indoor Agriculture Climate Control Consultants
- Cannabis Grow Facility HVAC Solutions
- High Energy Saving HVAC and Dehumidification for Indoor Farming
Walter Stark Consulting
Today’s Controlled Environment Agriculture (CEA), comprised of indoor plant cultivation for food and drug products, demands advanced climate solutions that optimize HVAC and dehumidification operations for reduced energy consumption and maximum crop yields.
At Walter Stark Consulting, we work with cultivators to create optimum climate-controlled conditions that support strong crops in indoor farms and cannabis grow facilities.
Our proven indoor agriculture and cannabis cultivation track record began with our first CEA facility project in 2014. Since then, our projects reflect our ability to effectively leverage each cultivator’s “unique recipe” and critical metrics, ranging from irrigation rates to lighting watts. Our goal is to deliver high performance, customized dehumidification solutions.
- Indoor Agriculture Climate Control Consultants
- Cannabis Grow Facility HVAC Solutions
- High Energy Saving HVAC and Dehumidification for Indoor Farming
Our Philosophy
We believe there are many factors and variables that comprise a formula for successful crops. Some combinations of these elements are more energy efficient. Given the number of operating hours in a typical indoor growing facility, determining the optimum combination should be a top priority.
Growers looking to optimize energy consumption must be open to making changes in their formula to achieve the maximum energy efficiency and related savings.
Our philosophy is predicated on the numerous different combinations of temperatures, humidity and VPD we’ve observed used by growers achieving successful crops. While these growers’ different formulas have resulted in successful crops, some are notably more energy-efficient than others. Our goal is to help strike the balance between a grower’s formula for successful crops and energy-efficient operations.