Technological strategic oil and gas

Worried about the rapid growth of cities and the requirements for appropriate measures and technologies for maintenance and performance of its treatment plants, Royalsan, leader in equipment for primary and secondary treatment of domestic and industrial effluents, through its O&G Division-Energy, offers the most appropriate technology for the strategic environment.

"We offer more appropriate technologies and seek the highest final quality. We pay attention to the best balance between CAPEX and OPEX x at the lowest energy consumption, reducing environmental liabilities in small spaces, "says André Telles, Executive Director of Royalsan.

CAPEX is the acronym of the English expression "CAPitalEXpenditure" (in Portuguese, capital expenditure or investment in capital goods) that indicates the amount of money spent on the purchase of capital goods from a particular company. OPEX is the acronym of the English expression "OPerationalEXpenditure" (in Portuguese, operating expenses) that refers to the cost associated with the maintenance of the equipment, consumables expenses and other operating expenses. For example, to buy a maintenance contract or do outsourcing (outsourcing of the operation).

See some of the features highlighted by Royalsan:

ZLD-Zero Liquid Discharge

Increasingly the legislation and industry require minimum discharges of liquid with a solid product that can be sold or disposed of in a landfill. This option implies concepts, as for example, the total evaporation, crystallization, mixed or combined with membranes. This is the State of the art treatment.

Produced water systems

Produced water management (AP) of oil constitutes a huge challenge for the oil companies. The alternatives usually adopted for your destination are the disposal, and reuse. In all cases it is necessary to treatment of AP, in order to avoid damage to the environment and the production facilities or to allow their reuse without causing damage to the processes in which the AP will be used.

Membrane separation processes have been shown to be able to treat effluents which have high levels of oil emulsion and particles with medium and small sizes, competing with more complex treatment technologies, such as flotation.

Oily water treatment (OiW, WiO)

Facing the increasingly stringent requirements of environmental regulators, the framing of the oily water generated in various industrial activities is currently in one of the biggest challenges the adequacy of environmental industries and perfect service providers who work in various branches of activity.

Oil industry services such as drilling, production, transportation, refining and distribution generate effluents classified by its danger who should receive specific treatments for removing their contaminants. Refineries often use primary and secondary treatment of their effluent. The primary treatment comprises the segregation of water, oil and solids in two stages. In the first stage, a water-oil separator (SAO) is used, allowing the oil to be free in the supernatant, and can be removed.

Advanced oxidative processes

The toxic industrial effluent treatment is a subject of extreme interest due to the great impact caused when a process. The oxidative processes advanced (POA) are technologies developed in recent years and are based on physico-chemical processes capable of disrupting the chemical structures of the contaminants (organic and inorganic compounds), as well as in inactivation of microorganisms.

Local power generation arrays

The goal of this process is to quantify the potential for generating electricity from methane gas from waste sanitation, garbage and sewage emphasizing. The effort focused on the use of technologies of energy use of waste would represent a stimulus to sewage treatment systems, particularly in the peripheral areas of cities, extremely positive impact in terms of social, environmental and public health.

The use of the cicloss of Rankinie, aims to take advantage of the residual heat to aid the evaporation process in the production of energy. In this way provides a CO2-free power generation from waste heat, increased energy efficiency, conservation of resources and independence through the use of self-generated energy.

-Anoxic Aerated Biological Treatment

The term "anoxic treatment" presents itself as a technology designed for maximum degradation of organic matter in their effluent where the most appropriate technological strategy seeks the highest quality, at the lowest energy consumption, reducing environmental liabilities in reduced spaces. It incorporates a special control of the biological reaction within your system.

Is extremely versatile for monitoring biological reactions within the sewer systems and wastewater treatment plants, but also as a source of clear indication to operators about the biological activity in the process. Built into the process are the high-performance decanters.
Vera Lúcia Rodrigues
Company: Vervi Advice
Phone: (11) 2578-0422