GHEL Consultancy Services is a multidisciplinary advisory firm dedicated to delivering
strategic insights and practical solutions to businesses, development agencies, and public
sector institutions. With a commitment to excellence and innovation, GHEL provides a
comprehensive suite of training and consultancy services designed to support sustainable
growth, operational efficiency, and informed decision-making across diverse sectors.
Our areas of expertise span the entire business development lifecycle—from market
intelligence and feasibility analysis to technical design and impact assessment. We help
clients navigate complex challenges and seize new opportunities through tailored services
that include: Feasibility Study, Marketing Study, Country Study, Strategic Planning, Strategic Marketing, Product Design, Technical Design, Engineering Design – PV Power Plant, Engineering Design – Civil
Construction, Business Planning, Financial Planning, Operational Planning, Impact Assessment.
AGRO BUSINESS
1. Marketing Study – In-depth analysis of market dynamics, consumer behavior, and competitive positioning. Bangladesh, being a predominantly agricultural country, provides a fertile ground for agro-business ventures.
2. Country Study – Comprehensive evaluations of national business environments, regulatory frameworks, and socio-economic conditions. Analyzing the size, structure, and key players in the agribusiness sector.
3. Feasibility Study – Rigorous assessments to determine the viability, risks, and return potential of proposed ventures. Evaluates the technical aspects of the project, including infrastructure, equipment, and processes.
4. Strategic Planning – Long-term organizational planning aligned with mission, vision, and changing market landscapes. Research consumer trends, industry gaps, and emerging opportunities. This helps determine the viability of a business idea and identify areas for growth.
5. Strategic Marketing – Development of data-driven marketing strategies that align with business goals and target audience needs. Precisely identify who your customers are (e.g., ranchers, farmers with specific crops).
6. Product Design – Conceptualization and refinement of products for market readiness and user acceptance. Understanding the needs and preferences of farmers, including their specific challenges, target crops and desired outcomes.
7. Technical Design – Engineering and system design solutions customized to specific technical requirements. Designing efficient irrigation systems (e.g., drip irrigation, sprinkler systems) to optimize water usage and ensure even crop watering.
8. Engineering Design – Problem Plan – Innovative solutions to technical problems through structured design thinking and analysis. Consider the geographical location, climate, and available resources. For example, a farmer in a drought-prone region with abundant rainfall.
9. Engineering Design – Civil Construction – Planning and design of civil structures with precision, safety, and sustainability. Civil engineering principles are used in designing and constructing farm buildings for various purposes, such as storage of crops and livestock facilities, ensuring they are durable, climate-resilient, and energy-efficient.
10. Business Planning – End-to-end business modeling and strategic documentation for startups and expansions. A concise overview of the business, its mission, goals, and key financial projections.
11. Financial Planning – Financial forecasting, budgeting, and capital planning to ensure fiscal sustainability. Creating detailed budgets, monitoring cash flow, and understanding income and expenses are essential for managing financial resources effectively.
12. Operational Planning – Streamlining of operational processes for enhanced productivity and resource efficiency. Operational planning translates strategic objectives into concrete actions, ensuring that resources, activities, and performance indicators align with desired outcomes.
13. Impact Assessment – Evaluation of environmental, social, and economic impacts to guide responsible and inclusive development. This approach analyzes the environmental impacts of a product or process throughout its entire life cycle, from raw material extraction to disposal.
Low Cost Housing
1. Marketing Study – In-depth analysis of market dynamics, consumer behavior, and competitive positioning. This involves understanding the size, structure, and dynamics of the market for a specific agricultural product or service. It includes analyzing factors like consumer demand, competition, and market trends.
2. Country Study – Comprehensive evaluations of national business environments, regulatory frameworks, and socio-economic conditions. Several country study already done by GHEL Team including France, Spain, and Italy and GHEL is offering specialized programs related to the country study.
3. Feasibility Study – Rigorous assessments to determine the viability, risks, and return potential of proposed ventures. Evaluating the demand for the proposed product or service, including identifying target customers, analyzing market trends, and assessing competition.
4. Strategic Planning – Long-term organizational planning aligned with mission, vision, and changing market landscapes. This involves analyzing the agro business ecosystem, including market trends, consumer preferences, and technological advancements.
5. Strategic Marketing – Development of data-driven marketing strategies that align with business goals and target audience needs. Understanding the specific market for the agricultural product is crucial, including identifying target customers, analyzing market size and growth potential, and understanding consumer preferences and purchasing patterns.
6. Product Design – Conceptualization and refinement of products for market readiness and user acceptance. Understanding the needs and preferences of the target market (farmers, consumers, etc.) is crucial.
7. Technical Design – Engineering and system design solutions customized to specific technical requirements. Low Cost Housing is a new concept which deals with effective budgeting and following of techniques which help in reducing the cost construction through the use of locally available materials along with improved skills and technology without sacrificing the strength, performance and life of the structure.
8. Engineering Design – Problem Plan – Innovative solutions to technical problems through structured design thinking and analysis. Low-cost housing, in an engineering context, involves designing stuctures that are affordable to construct and maintain, while still meeting basic standards of safety and durability.
9. Engineering Design – Civil Construction – Planning and design of civil structures with precision, safety, and sustainability. Low-cost housing engineering and civil construction techniques to reduce costs without compromising quality, strength, and durability.
10. Business Planning – End-to-end business modeling and strategic documentation for startups and expansions. Low-cost housing is a business plan option that focuses on creating accessible and affordable housing, typically for low-income individuals or families, while ensuring profitability.
11. Financial Planning – Financial forecasting, budgeting, and capital planning to ensure fiscal sustainability. Low-cost housing, also known as affordable housing, is crucial in financial planning, particularly for low-income individuals and families.
12. Operational Planning – Streamlining of operational processes for enhanced productivity and resource efficiency. Low-cost housing within an operational plan focuses on efficiently utilizing resources (land, materials, labor) to deliver affordable, functional, and durable housing for specific target groups.
13. Impact Assessment – Evaluation of environmental, social, and economic impacts to guide responsible and inclusive development. Low-cost housing initiatives, while beneficial, can have various impacts that need assessment, including economic, social, and environmental consequences.
Solar Power Plant
1. Marketing Study – In-depth analysis of market dynamics, consumer behavior, and competitive positioning. Determine who will benefit most from the solar power plant (e,g., residential consumers, commercial business, government agencies).
2. Country Study – Comprehensive evaluations of national business environments, regulatory frameworks, and socio-economic conditions. A country study of solar power plants involves analyzing the solar energy potential, feasibility, and impact of solar power generation within a specific country. This includes evaluating the resources, policies, and challenges related to solar power development.
3. Feasibility Study – Rigorous assessments to determine the viability, risks, and return potential of proposed ventures. A solar power plant feasibility study evaluates the technical, financial, and operational viability of constructing and operating a solar power plant at a specific site. It analyzes factors like solar resource availability, land suitability, grid connectivity, and the cost-effectiveness of the project.
4. Strategic Planning – Long-term organizational planning aligned with mission, vision, and changing market landscapes. Strategic planning for a solar power plant involves several key areas, including feasibility studies, site selection, technology choices, cost calculations, and securing necessary approvals and subsidies. It also includes optimizing plant design , procurement and installation, and ensuring efficient operations and maintenance.
5. Strategic Marketing – Development of data-driven marketing strategies that align with business goals and target audience needs. A strategic marketing plan for a solar power plant involves understanding the target audience, conducting market research, setting clear goals, developing effective strategies, and implementing and tracking campaigns. Key aspects include online advertising, content marketing, and leveraging social media.
6. Product Design – Conceptualization and refinement of products for market readiness and user acceptance. Solar power plant product design involves planning, modeling, and structuring solar facilities to optimize energy output and efficiency. It encompasses the entire process, from initial energy demand assessment to the selection and intregration of components like solar panels, inverters, and energy storage systems.
7. Technical Design – Engineering and system design solutions customized to specific technical requirements. A solar power plant’s technical design focuses on converting sunlight into electricity efficiently and reliably. This involves selecting appropriate solar panels, designing an optimal mounting structure, choosing the right inverter, incorporating a bi-directional meter and AC circuit box for grid connection and monitoring.
8. Engineering Design – Problem Plan – Innovative solutions to technical problems through structured design thinking and analysis. Engineering design of a solar power plant involves several key phases, from initial planning and site selection to construction, testing and ongoing maintenance. Problem planning focuses on identifying potential challenges and developing mitigation strategies throughout the project lifecycle.
9. Engineering Design – Civil Construction – Planning and design of civil structures with precision, safety, and sustainability. Engineering design and civil construction of a solar power plant involve a multi-step process, from initial site selection and feasibility studies to the actual construction and commissioning of the plant. Civil engineers play a critical role in ensuring the plant’s structural integrity and environmental sustainability.
10. Business Planning – End-to-end business modeling and strategic documentation for startups and expansions. A solar power plant business plan outlines the steps to start and operate a solar power plant, including market research, financial projections, operational strategies, and legal compliance. It’s crucial for securing funding, attracting investors, and ensuring the plant’s success.
11. Financial Planning – Financial forecasting, budgeting, and capital planning to ensure fiscal sustainability. Financial planning for a solar power plant involves a comprehensive process, from initial feasibility studies to ongoing operational analysis. This includes assessing project costs, revenue projections, financing options, and managing risks to ensure long-term profitability and stability.
12. Operational Planning – Streamlining of operational processes for enhanced productivity and resource efficiency. Operational planning for a solar power plant involves developing strategies for the day-to-day running of the plant, including operations and maintenance (O&M), monitoring, performance analysis, and compliance with regulations. This ensures the plant runs efficiently and produces electricity reliably.
13. Impact Assessment – Evaluation of environmental, social, and economic impacts to guide responsible and inclusive development. An environmental impact assessment (EIA) of a solar power plant evaluates potential environmental and socio-economic impacts during its construction, operation, and decommissioning. The purpose is to identify, mitigate, and manage any adverse effects on the environment and local communities.
Business Development
1. Marketing Study – In-depth analysis of market dynamics, consumer behavior, and competitive positioning. A comprehensive marketing study for a solar power plant should consider the growing demand for renewable energy, the potential for government incentives, and the specific characteristics of the local market. Strategies should focus on highlighting the cost savings, environmental benefits, and potential for increased energy independence.
2. Country Study – Comprehensive evaluations of national business environments, regulatory frameworks, and socio-economic conditions. A country study of solar power plants involves analyzing the feasibility, potential, and implementation of solar power projects within a specific country’s context.
3. Feasibility Study – Rigorous assessments to determine the viability, risks, and return potential of proposed ventures. For examples, a solar power plant feasibility study evaluates the viability of constructing and operating a solar power plant in a specific location.
4. Strategic Planning – Long-term organizational planning aligned with mission, vision, and changing market landscapes. Strategic planning for a solar power plant involves several key phases, including feasibility studies, site selection, technology selection, procurement, installation, and operation and maintenance.
5. Strategic Marketing – Development of data-driven marketing strategies that align with business goals and target audience needs. A strategic marketing plan for a solar power plant involves understanding the target audience, conducting market research, setting clear goals, developing effective strategies, and implementing and tracking campaigns.
6. Product Design – Conceptualization and refinement of products for market readiness and user acceptance. Solar power plant product design involves optimizing the systems to maximize energy production, minimize costs and ensure long-term functionality.
7. Technical Design – Engineering and system design solutions customized to specific technical requirements. A solar power plant’s technical design focuses on efficiently converting sunlight into electricity.
8. Engineering Design – Problem Plan – Innovative solutions to technical problems through structured design thinking and analysis. Engineering a solar power plant involves a multifaceted process, from initial planning and design to construction, commissioning, long-term operation.
9. Engineering Design – Civil Construction – Planning and design of civil structures with precision, safety, and sustainability. Engineering design and civil construction of a solar power plant involve a multifaceted process encompassing site selection, structural design, electrical systems and construction.
10. Business Planning – End-to-end business modeling and strategic documentation for startups and expansions. A solar power plant business plan should detail feasibility studies, site selection, necessary permits, cost calculation, subsidy application, technology and component selection, installation, and commissioning.
11. Financial Planning – Financial forecasting, budgeting, and capital planning to ensure fiscal sustainability. Financial planning for a solar power plant involves a comprehensive process, from initial feasibility studies to ongoing operational analysis.
12. Operational Planning – Streamlining of operational processes for enhanced productivity and resource efficiency. Operational planning for a solar power plant involves developing a strategy for the day- to day running of the plant, including grid intregration, maintenance, and performance optimization.
13. Impact Assessment – Evaluation of environmental, social, and economic impacts to guide responsible and inclusive development. An environmental impact assessment (EIA) for a solar power plant evaluates and predicts the potential environmental and socio-economic impacts of the project.
At GHEL Consultancy Services, our mission is to empower clients with actionable insights and proven methodologies that drive measurable results according to their needs. Whether you are launching a new venture, expanding into new markets, or improving operational performance, we are your trusted partner in success.