Fusion Device Engineering

Design, construction, power (rating, output), integration, arming and detonation mechanism, blast radius, diagnostics and quantification of damage – a Michigan geographic study

Design and construction of 100 MW Spherical Tokamak in Michigan – largest in US, first in michigan

REANALYSIS AND REVALIDATION OF atmospheric chemistry experiment Fourier transform spectrometer (ACE-FTS) satellite data

Solomon, S., Stone, K., Yu, P. et al. Chlorine activation and enhanced ozone depletion induced by wildfire aerosol. Nature 615, 259–264 (2023). https://doi.org/10.1038/s41586-022-05683-0

Wang, P., Solomon, S., Santer, B.D. et al. Fingerprinting the recovery of Antarctic ozone. Nature (2025). https://doi.org/10.1038/s41586-025-08640-9

Data and observations seems ambiguous as author has never been to Australia and have no experience of wildfires there. Contrary to this, applicant (myself) has PhD from Australia and resided there for more than two years and given the vastness of Australia and population and its density variation, can say with confidence that observations in this article are grossly flawed

Reanalysis of NASA’s indigenous (local) Mission to Martian Moons

https://www.nasa.gov/feature/nasa-selects-10-scientists-for-international-mission-to-martian-moons

A detailed analysis is performed of NASA’s mission to outer space (including extra terrestrial celestial bodies (e.g. Moon, Mars, its moons, Jupiter, its moons and alike)). This includes design of missions, machinery, probes, launch vehicles (rockets), instrumentation, telemetry, guidance and control. This is strictly limited to indigenous (local) resources (human and material) excluding involvement of any foreign (so called international) individuals (specially from banned countries as per Department of State).

Detailed reanalysis and data quantification of Ashton E; Gladman B; Beaudoin M; Alexandersen M; Petit J-M, “Discovery of the Closest Saturnian Irregular Moon, S/2019 S 1, and Implications for the Direct/Retrograde Satellite Ratio” , The Planetary Science Journal: 3(5), id.107 (5pp), May, 2022 [SCI]

MATERIALS FOR HIGH FIELD MAGNETS

Materials of construction for high field (>100 T) magnets

Non equatorial space launch pads

Geosynchronous orbits, projectiles, elliptical trajectories, velocities and slingshot

Artificial Intelligence

Deep learning, multitask learning, transfer learning (image acquisition, pattern recognition, layered information processing)

Materials for human space flight

Employing thermodynamics, kinetics and energetic of a chemical reaction (chemical metallurgy) in vacuum at high temperature (vacuum metallurgy) to process new materials from native / virgin metals (primary processing) as well as used materials / scrap by recycling (secondary processing) for human space flight.

a) Rare earths

b) Superalloys

c) Polymer composites

Development of Rockets

Development of reusable space vehicle that can shuttle between earth surface and its lower equatorial orbit. It will also serve the purpose of transportation of payloads (human and equipment) to its geostationary or geosynchronous orbits for further transportation to earth’s only natural satellite (moon).

It also encompasses development of auxiliary equipment (e.g solid rocket boosters, fuel tanks) for assisting lift off.

It will also involve research into development of optimization of previous technology by developing

1. self ignition engines for orbiter

2. linear aerospike engines

3. Air breathing / scram jet engines

Fusion

Development of plasma facing material by manipulation of crystal lattice promoting self interstitial solid solutions strengthening.

Bulk Metallic Glass Matrix Composites

http://www.momentumpress.net/books/bulk-metallic-glasses-and-their-composites-additive-manufacturing-and-modeling-and-simulation

Fire Fighting Pumping Unit (FFPU)

Design and development of fire fighting (Alarm, Hydrant, sprinkler, and pumping unit(s)) Systems for fire detection and protection in multistory buildings and industry.

Hydrants and Sprinklers

Design, calculations, layout, CAD drawing preparation and tendering of Fire hydrant and Fire sprinklers system(s) in buildings, localities/towns and industry as per NFPA and/or custom Standards

Services include

1. Optimum water resource determination
2. Selection of suitable fire protection (single and/or combination) systems according to nature of hazard, area occupancy, building type etc.) as per NFPA and/or custom standards
3. Complete selection, determination (dry and/or wet) and layout of piping (single and/or branched) network as per NFPA and/or custom standards
4. Piping calculations (selection of pipe type and size) as per NFPA, API and/or custom standards
5. Determination of hydrant requirement (nature and type of cabinet and hose real selection and calculations)
6. Plumbing work (calculations, selection and determination of elbows, connectors, reducers, expanders, joints)
7. Determination of water requirement
8. Pumping requirements calculations and selection of pump/pump set(s) (pressure maintenance/boosting units)
9. Design (nature and type) and positioning of water storage tank
10. Complete design and manufacturing of pressure maintenance/boosting units including their size and positioning

Fire fighting pumping unit (FFPU)

Design, Development, Engineering (calculations, analysis (mechanical, electrical, thermal, flow, stress, noise etc.), CAD drawing preparation, Tendering, Procurement, Manufacturing/Fabrication, Installation, Testing and Commissioning after sale services of fire fighting pumping unit consisting of

1. Primary Pump (Electrical)
2. Backup Pump (Diesel engine driven)
3. Pressure compensating/Jockey Pump (Electrical)

Services include

1. Pump selection (as per NFPA Standards)
2. Motor Selection
3. Engine Selection
4. Cascade development (single or multiple/combination pump stands, single and/or common suction and discharge)
5. Flow calculations
   1. Hydraulic calculations of main system
   2. Calculation of losses in piping and pump set and their incorporation back into the final design as per NFPA and/or custom standards)
   3. Valve selection (calculations and analysis for types, ratings, characteristics (linear, equal percentage))
   4. Piping (calculations and analysis for size, lengths)
   5. Diagram development (Flow/Hydraulic, piping, electrical)
   6. Instrumentation (Ammeter, Voltmeter, tachometer, flow meter, temperature and pressure gauges) selection and integration
   7. Flange, fasteners (nut, bolt, stud) and connectors  type, calculations and selection (strength calculations, pressure calculations, life determination/estimation calculations, welding requirements determination)
   8. Water and diesel tank design and making
   9. Control System development (Calculations for Sensor(s), connectors, controller etc. including control unit preparation (diagram, positioning and making of control unit)
   10. Complete controller (selection, parameter determinations, programming) and integration
   11. Skid design and analysis (stress, structural and mechanical)
   12. Civil foundation design and development (calculations (structural, stress etc.)
   13. Sound proof canopy design and selection (calculations (noise, vibration, stress, mechanical)) (optional)

Facilitation of ready equipment/material supply via close personal liaison with renowned manufacturers (KSB and Grundfos for pumps, KSB, Siemens for motors, MAN, CAT, Perkins for Engines, KSB, Danfos for valves, KSB, Siemens for controls) upon order