ALTERNATE ENERGY

VISNO ALTERNATE ENERGY

The Visno proprietary Societal Systems Engineering Unified Model (SSE-UMTM) is used in the creation and administration of a wide range of alternative and renewable energy projects.

SYSTEMS ENGINEERING

ENERGY SYSTEMS ENGINEERING

Visno offers a broad portfolio of Alternate/Renewable energies project development and management following the Visno proprietary Societal Systems Engineering Unified Model (SSE-UM™). Visno works with top-class technologies providers from all over the world to provide the best possible Alternative energies solutions, which will enhance the Societal Capital of the concerned society.

SOLAR ENERGY SYSTEMS ENGINEERING

Visno offers a solar-energy based power systems solution for home, farming, industry, and commercial applications. To provide the best cost-effective solution following the SSE-UM™, Visno Solar energy solutions integrating the best technologies provide the long-term maintenance plan, which maximizes the return on investment (ROI) and supports the sustainable growth.

WIND ENERGY SYSTEMS ENGINEERING

A systematic approach is required to develop a Wind energy-based power system solution. The Wind Energy based power systems development depend on many factors such as Wind speed, Wind turbine systems and its various components design and configuration, tower height, control system, cable, and connections, etc.
Visno offers Wind Energy-based solutions following the SSE-UM™ system/product life-cycle methodology. The methodology addresses all aspects of sustainable energy needs and provides a solution with the best Capacity factors for all applications, covering various ranges for homes, industrial and commercial applications.

GEOTHERMAL SYSTEMS ENGINEERING SCOPE

Visno offers the best Geothermal Energy-based solution following the SSE-UM™ system/product life-cycle methodology. The underground Geothermal resources span a wide range of heat sources from the easily developed near the surface to deeper stored thermal energy, which is present anywhere is called Geothermal Energy. The resources of geothermal energy depend on many factors. The quality and quantity of a specific geothermal resource would depend on its temperature-depth relationship (i.e., geothermal gradient), the reservoir rock’s permeability and porosity, and the amount of fluid saturation.
To develop a Geothermal Power plant is a very challenging task. The success of the project depends on the assessment of the geothermal resources. For this Visno, with its partners, follows a very comprehensive analytical and systematic methodology to deliver the best solution. The main components considered for the solution are:
  • Resource – estimating the magnitude and distribution of the Geothermal Energy resources.
  • Technology – establishing requirements for extracting and utilizing energy from geothermal energy reservoirs. These requirements include drilling, reservoir design modeling, stimulation, and thermal energy conversion to electricity.
  • Economics – estimating costs for the Geothermal well cost and energy cost and Return on Investment (ROI). Societal Impact – Impact on society.

BIODIESEL SYSTEMS ENGINEERING

Biodiesel is considered one of the most promising alternatives to petroleum-based diesel fuel. Yellowish in color, it is made from renewable vegetable oil or animal fats. The processes of producing biodiesel are called trans-esterification, which involves the removal of fatty acid from the base oil. The following types of feed, with its yield per acre, is required to produce Biodiesel.
  • Soybean – 40 to 50 gallons per acre
  • Rapeseed – 110 to 145 gallons per acre
  • Mustard – 140 gallons per acre
  • Jatropha – 175 gallons per acre
  • Palm oil – 650 gallons per acre
  • Algae – 10,000 to 20,000 gallons per acre
Process development and optimization is a key aspect of our work in the biodiesel field. Visno develops the biodiesel plants with the goal to keep making biodiesel facilities more cost-effective and more productive.

BIOMASS ENERGY SYSTEMS ENGINEERING

Biomass Energy project development is a complicated task as it involves many stakeholders and good supply-chain management (SCM). The development processes involve distribution, biotechnology, engineering and construction, agriculture, forestry, waste management, and automobile sectors, and government policy and regulating organizations or agencies (federal, state/local, and international).
Visno SSE-UM™ based Biomass Energy Systems development process addresses all these challenges and delivers the turn-key basis Biomass energy producing facilities by addressing the following:
  • Feedstock Production – Produce large, sustainable supplies of regionally available biomass.
  • Feedstock Logistics – Implement cost-effective biomass feedstock infrastructure, equipment, and systems (biomass harvesting, collection, storage, preprocessing and transportation).
  • Biofuels Production – Deploy cost-effective, integrated, biomass-to-biofuels conversion facilities.
  • Biofuels Distribution – Implement biofuels distribution infrastructure (storage, blending, transportation (before and after blending), and dispensing).
  • Biofuels End Use – Expand public availability of biofuels-compatible vehicles offering the same performance as vehicles using traditional fuels.

WASTE-TO-ENERGY SYSTEMS ENGINEERING

There are many different types of waste-to-energy (WTE) technologies. Some of these technologies solve one problem of waste but create the other problem of environment. That is the reason some of these technologies are banned in the developed nations of Europe and North America.
Visno following SSE-UM™ framework offers the best solution of the WTE following Societal Systems thinking and considering the bigger picture of sustainability issue such as Societal Capital enhancement.

Testimonial

“I can’t believe it took us this long to make a change. So happy that we did. Numbers don’t lie.”

John Doe, Divi CEO